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Heating and Domestic Hot Water Systems for Dwellings

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1. c Circulation pump power The electrical input power of the primary pump in the solar system should be less than 50W or 2 of peak thermal power of the collector whichever is the higher In secondary systems measures to reduce the formation of lime scale should be considered so that performance is not significantly affected d Heat exchanger sizing The heat exchanger between a solar primary and secondary system should sized as follows e Systems with flow rates of greater than or equal to 0 5 litres per minute per m2of collector no less than 0 2m of heat exchanger area must be provided per 1m of solar collector net absorber area e Systems with flow rates less than 0 5 litres per minute per m of collector no less than 0 1m of heat exchanger area must be provided per 1m of solar collector net absorber area Heat exchangers should be sized to ensure a low return temperature to the solar collector Heat transfer ina solar heat exchanger is complicated by the variability of flow rates and flow temperatures as compared to heat exchangers used for auxiliary heat sources e System control Solar domestic hot water system controls should be fitted to i maximise the useful energy gain from the solar collectors into the system s dedicated storage ii minimise the accidental loss of stored energy by the solar domestic hot water system whether originating from solar collectors cold intake or auxiliary heat sources ii
2. Minimum provision for replacement systems in existing dwellings Supplementary information e Commissioning a On completion of the installation of a boiler or a hot water storage system together with associated equipment such as pipework pumps and controls the equipment should be commissioned in accordance with the manufacturer s instructions These instructions will be specific to the particular boiler and or hot water storage system b The installer should give a full explanation of the system and its operation to the user including the manufacturer s user manual where provided As defined for new systems 12 Table 2 Minimum provisions for control of gas fired central heating systems in new dwellings System Control Recommended provision for new systems Recommended provision for existing systems Boiler interlock e Boiler based systems should have boiler control interlock in which controls are wired so that when there is no demand for either space heating or hot water the boiler and pump are switched off e The use of Thermostatic Radiator Valves TRVs alone does not provide an interlock As defined for new systems Space heating zones e Dwellings with a total usable floor area of greater than 100m should be provided with at least two space heating zones each having separate temperature controls e Single storey open plan dwellings in which the living area is greater than 70
3. The calculation of the Building Energy Rating should be carried out by a suitably qualified person detailing how the emission factors were derived AND c The minimum provisions for control systems within dwellings should be met as given in Table 23 AND d The minimum provisions for insulation of pipework should be met as given in Table 25 49 Table 21 Minimum provisions for the design of new community heating systems to maximise efficiency of heat generation and minimise energy use by pumps Minimum provision Supplementary information 1 Boilers for CH e Boiler only community heating systems for new dwellings may be used provided that the Energy performance coefficient EPC and The Carbon Performance Coefficient CPC are no greater the Maximum Permitted Energy Performance Coefficient and the Maximum Permitted Carbon PerformanceCoefficient e When calculating the carbon emissions rating the type and quantity of fuel used and also the electricity needed to operate the central plant and pumps should be taken into account e For systems using condensing boilers a To achieve high boiler efficiency return temperatures from radiator circuits should be selected lower than 50 C b Where instantaneous plate heat exchangers are used to produce hot water in individual dwellings the return temperature selected should be less than 40 C c Where hot water cylinders are used the coil size should be such as
4. collector type serial number year of production gross area of collector aperture area of collector net absorber area of collector maximum operation pressure stagnation temperature at 1000W m and 30 C volume of heat transfer fluid weight of empty solar collector labelling of solar heated water storage vessels within solar domestic hot water systems All hot water storage vessels should carry a label with the following information manufacturer s name nominal overall capacity in litres standing heat loss in kWh day type of vessel auxiliary heating heat exchanger performance in kW where present In addition to the minimum provision for labelling of hot water storage vessels labelling with the following information is also recommended e total net fluid content of secondary volume normally heated by each heat exchanger where present 41 0 litre e the type fluid content maximum pressure and surface area of all heat exchangers 2 Commissioning A signed and dated commissioning certificate should be completed to confirm the equipment has been correctly installed and to record key safety and operational features As a minimum the commissioning certificate shall record the following details of the solar system net or aperture area of solar collector minimum ambient temperature without freeze damage to components location and method of controlling overpressure location of t
5. connection to condensing boilers A flue passing through a wall or floor that must not be pierced for structural reasons An example is a pre stressed or glass wall in a block of flats An internal flue extension exceeding 4m ignoring the part that passes through a loft attic space Where an internal flue extension will need to penetrate a roof the length of flue required passing through the loft attic space is excluded See section 8 A flue that passes through another dwelling or another building in different ownership or another fire compartment Applies particularly to flats where flue routes to suitable terminal positions may be limited A vertical flue pipe visible on the outside of the building facing the main approach direction usually the front This refers only to the flue pipe not the flue terminal a terminal may be positioned on any side of the building A vertical flue on the front of the building is likely to be aesthetically unacceptable to many customers Boiler positions NOT to be considered Comment Gas where the boiler or extended internal flue is in a It is acceptable to install a gas boiler in any room boilers e lounge other than the principal living room See section 9 e lounge dining room e principal living room that does not include a kitchen area LPG where the boiler or extended internal flue is in a boilers e lounge e lounge dining room
6. or e atime switch programmer two channel and room thermostat vii Space heating zoning e New dwellings with a total usable floor area greater than 100m should be provided with at least two space heating zones each having separate temperature controls The provisions for zoning for replacement systems in existing dwellings should be as for new dwellings where practical 2 5 Gas fired fixed independent space heating appliances This section provides guidance on the specification of gas fired fixed independent space heating appliances for dwellings Fixed independent space heating appliances may be installed as a means of primary or secondary space heating Gas fired fixed independent appliances for primary space heating Gas fired fixed independent space heating appliances in new and existing dwellings which are provided as the primary heat source should meet the following conditions a The appliance should be one of the types described in Table 6 AND 17 b The efficiency of the appliance gross calorific value should be no less than 58 The appliance manufacturer s declaration of appliance performance shall include the following words The efficiency of this appliance has been measured as specified in insert appropriate entry from Table 6 and the result is x The gross calorific value of the fuel has been used for this efficiency calculation The test data from which it has been calculated has been
7. 2 23 e waste pipe e external drain or gully e rainwater hopper that is part of a combined system ie sewer carries both rainwater and foul water e purpose made soakaway Where possible connections should always be made to internal drain points stack pipe or waste pipe External termination points are more likely to become blocked by for example freezing leaves or general debris CONDENSATE DRAIN PIPE INSTALLATION Condensate traps Building regulations require a trap in the pipe whether it is terminated directly to the outside or before it connects to another waste pipe If the drain pipe is taken directly to a gully or rainwater hopper a water seal of no less than 38mm is required When connected to another waste pipe the water seal must be at least 75mm to prevent foul smells entering the dwelling Many boilers include a trap within the boiler to prevent combustion products entering the drain however this may not have a sufficient seal depth to meet the building regulations Unless the manufacturer s instructions state otherwise an additional trap of either 38mm or 75mm depending on the intended connection will be required with an air break between the traps see Figure 2 A 14 Condensate pipe length should be kept as short as possible externally run condensate drainpipes should be limited to 3m to reduce the risk of freezing When an appliance is to be installed in an unheated location such as a gara
8. The minimum provisions for efficiency and installation set out in Table 4 AND b The minimum provisions for system control set out in Table 5 15 Table 4 Minimum provisions for efficiency and installation of gas fired warm air heating systems Minimum provision Supplementary information Efficiency a Gas fired warm air units should meet Standards the requirements as appropriate to the IS EN 778 1998 Domestic gas fired design of the appliance of forced convection air heaters for space e IS EN 778 1998 or heating not exceeding a net heat input e IS EN 1319 1999 of 70kW without a fan to assist transportation of combustion air and or b If a gas fired circulator is incorporated in combustion products the warm air unit to provide domestic hot water it should be able to deliver IS EN 1319 1999 Domestic gas fired full and part load efficiency at least forced convection air heaters for space equal to that prescribed by IS EN heating with fan assisted burners not 483 1999 A4 2007 exceeding a net heat input of 70kW c The manufacturer s declaration of IS EN 483 2000 Gas fired central appliance performance and efficiency heating boilers Type C boilers of value should include the following nominal heat input not exceeding 70kW words Combined warm air unit and circulator This product has been assessed against the test methods set out in IS EN 778 1998 or IS EN 1319 1999 as appropriate and IS EN 483 and certified as meeti
9. The specification of central heating systems in new dwellings this situation is referred to in this section as a new system b The specification of central heating systems in existing dwellings where previously space heating was not provided by central heating this situation is also referred to in this section as a new system c The specification of a replacement central heating system and or component in existing dwellings where central heating is already installed this situation is referred to in this section as a replacement system In situations a and b above the guidance for compliance of new systems in new and existing dwellings with Part L is the same In situation c above that is for replacement systems in existing dwellings in most cases the guidance for compliance with Part L is as for new systems unless otherwise stated in the relevant section Electric boilers serving central heating as new systems or replacement systems in dwellings should meet the following conditions a The minimum provisions for system circulation as given in Table 12 row a should be met AND b The minimum provisions for system preparation and water treatment as given in Table 12 row b should be met AND c The system should be commissioned in accordance with the minimum provisions given in Table 12 row 30 AND d The minimum provisions for boiler interlock zoning and time control and temperature control of
10. Workmanship Cylinders heated primarily by electricity should be insulated such that their heat loss does not exceed the value given by the formula 1 28 X 0 2 0 051V kWh per 24 hours where V is the nominal cylinder capacity in litres Standards BS 1566 2002 Copper indirect cylinders for domestic purposes Open vented copper cylinders Requirements and test methods BS 3198 1981 Specification for copper hot water storage combination units for domestic purposes BS 7206 1990 Specification for unvented hot water storage units and packages Vented and unvented systems 10 Cylinders should either be factory fitted with or have provision for two thermostatically controlled electrical heating elements or immersion heaters The lower element should be capable of heating up at least 85 of the cylinder contents The upper element should be capable of heating at least 60 litres of water The lower element should be connected so as to utilise the off peak electricity tariff and the upper for boost operation where possible The vessel should be designed such that following reheating to 60 C from the off peak element at least 80 of the contents can be drawn off at 45 C or above at a flow rate of 0 25l s Primary stores Labelling All hot water storage vessels should carry a label with the following information type of vessel nominal capacity in litres standing heat loss in kWh day e heat ex
11. actual length NOT the equivalent length which has an allowance for the resistance of bends and fittings Distances are measured from the boiler flue outlet connection Where separate flue and air ducts are used the measurements apply to the flue duct Extended flues are to be installed in accordance with Technical Guidance Document B Extended flues must be longer than 2m to qualify as an extended flue Extended flues that need to be longer than 4m need not be considered EXCEPT where the flue passes through a loft or attic space In measuring the flue run ignore any length that runs through the loft attic space and from the roof to the flue terminal See figure 5 Where an extended flue route is required it must pass to the outside without going through another dwelling or building in different ownership Ignore length in loft attic space and to terminal Between 2 and 4m Boiler Figure 1 Extended flues in loft attic A9 9 Boiler location If an extended flue cannot be fitted to a boiler in the current boiler position a solution is to move the new boiler to a location where the terminal siting restrictions are less restrictive A change of boiler location is often necessary where a condensing boiler is to replace an open flue or back boiler often mounted in an internal position away from an outside wall For the assessment procedure where a boiler is moved within the same room no additional consideration need be taken Whe
12. appliances may be installed as a means of primary or secondary space heating Oil fired fixed independent appliances for primary heating Oil fired fixed independent space heating appliances in new dwellings which are provided as the primary heat source should meet the following conditions a The efficiency of the appliance gross calorific value should be no less than 60 The appliance manufacturer s declaration of appliance performance shall include the following words The net efficiency of this appliance has been measured and the result is x The test data from which it has been calculated has been certified by insert name and or identification of Notified Body The efficiency value when converted to gross by use of the appropriate conversion factor from Table D2 2 in DEAP 2008 may be used AND b Each appliance should be capable either independently or in conjunction with room thermostats or other suitable temperature sensing devices of controlling the temperatures independently in areas that have different heating needs e g separate sleeping and living areas Oil fired fixed independent appliances for secondary heating In order to comply with the 2008 Building Regulations energy efficiency requirements oil fired fixed independent space heating appliances in new dwellings which are provided as the secondary heat source should have a minimum efficiency gross calorific value of not less than 60 Supplementary in
13. certified by insert name and or identification of Notified Body The efficiency value may be used in the Dwelling Energy Assessment Procedure DEAP for energy rating of dwellings AND c In new dwellings each appliance should be capable either independently or in conjunction with room thermostats or other suitable temperature sensing devices of controlling the temperatures independently in areas that have different heating needs e g separate sleeping and living areas In existing dwellings wherever practical temperature controls should be upgraded to the standards required for new dwellings Table 6 Acceptable appliance types for fixed natural gas and LPG gas fired space heaters for use as a primary heat source National Standard designation appliance type IS EN 1266 2002 Independent gas fired convection heaters incorporating a fan to assist transportation of combustion air and or flue gases BS 7977 1 2002 Specification for safety and rational use of energy of domestic gas appliances Radiant convectors IS EN 613 2001 Independent gas fired convection heaters IS EN 13278 2003 Open fronted gas fired independent space heaters Gas fired fixed independent appliances for secondary space heating Gas fired fixed independent space heating appliances which are provided as the secondary heat source in new or existing dwellings should meet both of the following conditions a The appliance should be one of th
14. commissioned in accordance with the minimum provisions given in Table 9 row e AND f The minimum provisions for boiler interlock zoning and time control and temperature control of the heating and hot water service circuits as described in Table 10 An acceptable alternative to these is any boiler management system that delivers the specified zoning timing and temperature and boiler interlock control provisions When oil boilers are installed as part of a replacement system the minimum level of system controls should be provided as described in Table 10 unless they are already installed and fully operational If an individual component of the control system is being replaced in an existing system for example a room thermostat it is not necessary to upgrade the system to meet the minimum requirements AND g Pipework should be insulated as described in Table 11 22 Table 9 Minimum provisions for boiler efficiency system circulation hot water storage system preparation and commissioning of oil fired central heating systems in new dwellings and in existing dwellings where appropriate Minimum provision for new systems in new and existing dwellings Minimum provision for replacement systems in existing dwellings Supplementary information a Minimum acceptable efficiency a The boiler efficiency should be not less than 86 HARP value For range cooker boilers a The boiler efficiency for heating boilers
15. d2 Water treatment A suitable system for introduction of water treatment chemicals into the CH system in a controlled manner with facility for monitoring of water quality should be provided A suitable long term programme of water treatment is essential to preserve the life of the CH system by limiting internal corrosion Additional chemical and physical treatment should be evaluated especially for larger systems including removal of oxygen by physical means softened water supply side stream filtration biocide e Heat meters Provision should be made in the design for including heat meters either at the time of installation or at a later date without major pipework changes f Commissioning e The CH system should be commissioned so that the design volume flow rates are supplied to each dwelling and there is no excessive bypassing of water that would lead to higher pumping energy use e The flow rates in individual heat emitters should be balanced using appropriate return temperatures or by using calibrated control valves e The systems within the dwellings should be demonstrated to the resident and suitable information provided on the operation of the controls Where the central heat source includes a low carbon heat source the control system should be proven by demonstrating that the low carbon heat source will normally act as the lead heat source 54 Table 25 Minimum provision for ins
16. designed to run on biofuels only only i e incapable of providing thermal energy from fossil fuels a Biofuels can be used to provide heat from boiler systems or as a fuel for CHP systems b Consideration should be given to operation and maintenance of the plant to ensure a long life and to prevent a later replacement by a conventional fuel system c Where a biofuel boiler is to be used in conjunction with conventional heating boilers or electric heating a reasonable minimum proportion of the annual heat supply from biofuels would be 45 of the annual heat demand space hot water service and process heating d Where a building or development contains more than one dwelling reasonable provision would be to show that every individual dwelling should meet the minimum provision from renewable energy technologies or the average contribution of renewable technologies to all dwellings in the building or development should meet that minimum level of provision per dwelling Where the latter approach is used common areas in the building are not included in this calculation 3 Combined heat and power CHP CHP capacity should be optimised to meet the required economic and environmental objectives The energy supplied by such a CHP plant would normally exceed the reasonable minimum level of energy provision from renewable energy technologies Where CHP is used in conjunction with boiler plant the control syst
17. e principal living room that does not include a kitchen area e cellar or basement Oil the only positions that ARE to be considered are Oil boilers are larger heavier and more suited to boilers e a kitchen installation on ground floors or basements e a kitchen dining room Therefore suitable locations are more restricted than e autility room for gas boilers See section 9 e apurpose made boiler room And only where they are on the ground floor or in a basement All other positions are NOT to be considered A7 Checklist 1 If an existing boiler is to be replaced the questions to be asked are a Can a new condensing boiler be fitted in the same position as the existing boiler without a flue extension b Can the existing boiler position be retained and an extended horizontal flue connected to a terminal on the same or adjacent wall c Ifthe existing boiler position is retained can a vertical extended flue be installed Not on the front of the building see Table 1 d Can anon balanced extended flue be used where the flue outlet would direct flue products to a permissible position e Can the boiler be moved within the same room possibly to an internal wall to achieve satisfactory flue and drain connection f Where the existing boiler is connected to a shared flue it will generally not be possible to connect the new boiler to the existing flue system and other flue options must be considered When considering othe
18. floor area up to 100m should be divided into at least two space heating zones one of which is assigned to the living area e New dwellings with a total usable floor area greater than 100m should be provided with at least two space heating zones each having temperature controls Timing of the separate space heating zones can be achieved by i multiple heating zone programmers or ii a single multi channel programmer or iii programmable room thermostats or iv separate timers to each circuit or v acombination of iii and iv above The provisions for zoning for replacement systems in existing dwellings should be as for new dwellings where practical Combined warm air and domestic hot water systems for installations iii Independent time control of both the heating and hot water circuits iv Pumped primary circulation to the hot water cylinder v Independent control of hot water production Independent control of the hot water circuit should be achieved by means of a cylinder thermostat and a timing device wired such that when there is no demand for hot water both the pump and circulator are switched off vi Time control Time control should be provided by use of e a full programmer with separate timing to each circuit or e two or more separate timers providing timing control to each circuit or e programmable room thermostat s to the heating circuit s with separate timing of the hot water
19. include e a Good Practice Guide specifying the minimum standards for installation and control of micro CHP e publicly available specification PAS 67 Laboratory test to determine heating and electrical performance of heat led micro cogeneration packages primarily intended for heating dwellings e method to evaluate the energy performance of micro cogeneration heat led systems in dwellings Until this guidance is available the following publication may be useful Low or Zero Carbon Energy Sources Strategic Guide NBS 2006 and Appendix N of the Dwelling Energy Assessment Procedure DEAP 2008 for the energy rating of dwellings 70 APPENDIX A Guide to the Condensing Boiler Installation Assessment Procedure for Existing Dwellings mg Y S eC SUSTAINABLE Comhshaol Oidhreacht agus Rialtas iti il ENERGY Environment Heritage and Local Government IRELAND Heating and Domestic Hot Water Systems for dwellings Achieving compliance with Part L 2008 Appendix Guide to the Condensing Boiler Installation Assessment Procedure for Existing Dwellings CONTENTS 1 10 11 12 13 INTRODUCTION EXISTING COMMITMENTS POSSIBLE INSTALLATION DIFFICULTIES OUTLINE OF THE ASSESSMENT PROCEDURE PURPOSE OF THE ASSESSMENT PROCEDURE HOW TO CARRY OUT THE ASSESSMENT FLUE TERMINAL SITING EXTENDED FLUE LENGTHS BOILER LOCATION CONNECTION OF CONDENSATE DRAIN ASSESSMENT FORM TYPICAL FLUE TYPES CONDEN
20. individual radiator controls such as Thermostatic Radiator Valves TRVs on all radiators in the other zones or iii a combination of i and ii above Control valves and TRVs should be two port type to reduce flow rates under part load Differential pressures across the control valves and TRVs should be controlled to maximum values to ensure that the control valves work effectively and maintain shut off 4 Temperature control of domestic hot water Temperature control of the domestic hot water service should be provided by means of two port control valves either electrically operated or direct acting Where instantaneous heat exchangers are used the control valve should be selected to maintain steady temperatures lt 5 C for a range of draw off rates and primary differential pressures To reduce the incidence of scaling the control valve should shut off the primary flow when there is no domestic hot water draw off A small intermittent flow is an advantage to maintain the temperature within the heat exchanger so as to provide more rapid heat up 5 Limitation of maximum flow rate into building or dwelling The maximum design flow rate into the dwelling heating system should be limited by suitable control and balancing valves to maintain the overall balance in the network and to avoid excessive pumping energy 53 Table 24 Minimum provision for domestic hot water production storage and w
21. is referred to in this section as a new system b The specification of central heating systems in existing dwellings where previously space heating was not provided by central heating this situation is also referred to in this section as a new system c The specification of a replacement central heating system and or component in existing dwellings where central heating is already installed this situation is referred to in this section as a replacement system In situations a and b above the guidance for compliance of new systems in new and existing dwellings with Part L is the same In situation c above that is for replacement systems in existing dwellings in most cases the guidance for compliance with Part L is as for new systems unless otherwise stated in the relevant section In order to comply with the requirements of Part L oil fired central heating systems which are provided as new systems or replacement systems in dwellings should meet all of the following conditions a The boiler should have a minimum efficiency as defined by its HARP value as given in Table 9 row a AND b The minimum provisions for system circulation as given in Table 9 row b AND 21 c The minimum provisions for hot water storage and labelling of storage vessels as given in Table 9 row c AND d The minimum provisions for system preparation and water treatment as given in Table 1 row d AND e The system should be
22. it is open to the client to choose either a condensing or non condensing boiler However since a condensing boiler is preferable the householder should be invited to consider that alternative Where a non condensing boiler is chosen the householder should be encouraged to choose an efficient boiler o Ifthe completed form indicates that it is practicable a condensing boiler should be installed Whether a condensing or non condensing boiler is fitted it need not be in the position shown on the assessment form Completed forms should be left with the householder in case they are required for building control compliance purposes or when the dwelling is sold For the full legal requirements and guidance on compliance refer to the Building Regulations Part L and to the current edition of Technical Guidance Document L These also give advice on how to deal with special cases such as historic buildings If an existing boiler is being replaced see Checklist 1 If there is no existing boiler see Checklist 2 A6 Table 1 Installation options to be EXCLUDED from the assessment Flue options for new boiler NOT to be considered Comment Flue and terminal positions that do not comply with Technical Guidance Document J of the Building Regulations All installations must meet statutory requirements A shared flue unless specially designed to be shared by condensing boilers Existing shared ducts are usually unsuitable for
23. of logs and mineral fuel as burnt by a typical householder on a multi fuel stove Wood chips 0 025 Chipped wood processed on site Some appliances can only burn a single type of fuel while others may be able to burn a range of types The multi fuel category in Table 17 allows for the latter group basing its CO2 emissions on a typical blend of fuels used in that case Smoke control areas Wood should always be seasoned to a moisture content not exceeding 20 to ensure maximum performance and limit the occurrence of condensation and deposits in the chimney system All solid fuel appliances require appropriate soot fire resistant chimneys discharging at high level locations defined within J TGD J 39 5 3 Central heating systems using certain types of solid fuel appliances This section provides guidance on the specification of fixed solid fuel heating systems for dwellings The guidance covers the following types of solid fuel appliances used to deliver primary heating as part of a central heating system e Batch fed open fires with high output boilers appliance types D1 D4 in Table 16 e Batch fed and automatic feed room heaters and stoves with boilers appliance type F in Table 16 e Batch fed cookers with boilers not exceeding 7 5kW appliance types G1 and G2 in Table 16 e Batch fed independent boilers and automatic feed anthracite and wood pellet independent boilers appliance types J1 J5 in Table 16 U
24. of the total floor area sub zoning of temperature control is not appropriate As defined for new systems except where the boiler only is replaced in which case reasonable provision for a space heating system would be to control one zone Water heating zones e All Dwellings should have a separate hot water zone in addition to space heating zones e A separate hot water service zone is not required if the hot water is produced instantaneously such as with a combination boiler Time control of space and water heating Time control of space and water heating should be provided by i A full programmer with separate timing to each circuit or ii Two or more separate timers providing timing control to each circuit or iii Programmable room thermostat s to the heating circuit s with separate timing of the hot water circuit Where hot water is produced instantaneously such as with a combination boiler time control is only required for heating zones As defined for new systems As defined for new systems except where only the hot water cylinder is being replaced in a replacement system and separate time control for the hot water circuit is not present In this case it is acceptable to have a single timing control for both space heating and hot water Temperature control of space heating Temperature control of hot water service system Separate temperature control of zones within the dwelling should be prov
25. per 100m of dwelling floor area 2 7 Gas fire for secondary space heating provided as part of a combined fire and back boiler unit A combined fire and back boiler unit can only be installed as a replacement for an existing combined fire and back boiler unit and then only when the criteria of the Condensing Boiler Installation Assessment procedure are satisfied as outlined in Appendix A of this document In order to comply with the requirements of the Building Regulations 2008 the gas fire provided as a secondary heat source as part of a combined fire and back boiler unit when provided as a replacement system in existing dwellings should meet the following conditions a The appliance should be one of the types described in Table 8 The manufacturer s declaration of appliance performance shall include the following words The efficiency of this appliance has been measured as specified in insert appropriate entry from Table 8 and the result is x The gross calorific value of the fuel has been used for this efficiency calculation The test data from which it has been calculated has been certified 19 by insert name and or identification of Notified Body The efficiency value may be used in the Dwelling Energy Assessment Procedure DEAP for energy rating of dwellings AND b The efficiency of the appliance gross calorific value should be no less than the value in Table 8 for that type of appliance Table 8 Minim
26. pre stressed or glass wall e In nearly all cases it will be possible to install a condensing boiler though with varying levels of difficulty and cost All feasible options should be considered for whichever fuel has been chosen by the householder in all the locations that would meet regulations and have not been listed as excluded in Table 1 A5 The flue terminal position must meet the requirements given in Building Regulations Part J and the specifications referred to below The assessment form is completed for the installation option that gives the most practicable option It is necessary to show that all feasible options have been considered and that the form shows the best scoring option Any additional forms used to assess other options should be attached when the final signed form is made available to the customer When the assessment score total exceeds or equals 3 this is evidence that installation of a condensing boiler is not practicable and it is reasonable to install a non condensing boiler instead of a condensing boiler The validity of the assessment is also restricted to the chosen fuel for the new boiler It is not acceptable for example to determine that it is not practicable to install an oil boiler but then to install a non condensing gas boiler Once the assessment is complete o If the completed form indicates that it is not practicable to install a condensing boiler for the chosen fuel shown on the form
27. protect central heating and hot water pipework in unheated areas against freezing Further guidance is available in e BS 5422 2001 Method for specifying thermal insulating materials for pipes tanks vessels ductwork and equipment operating within the temperature range of 40 to 700 e BRE Report No 262 Thermal insulation avoiding risks 2002 edition Where insulation is labelled as complying with the Heating and Domestic Hot Water Systems for dwellings Achieving Compliance with Part L it must not exceed the following heat loss levels Pipe diameter OD mm Maximum permissible heat loss W m 8mm 7 06 10mm 7 23 12mm 7 35 15mm 7 89 22mm 9 12 28mm 10 07 35mm 11 08 42mm 12 19 54mm 14 12 In assessing the thickness of insulation required to meet the provision standardised conditions should be used in all compliance calculations based in this instance on a horizontal pipe at 60 C in still air at 15 C 45 5 4 Solid fuel appliances for secondary heating Solid fuel appliances in new and existing dwellings which are provided for secondary heating and are not part of a central heating system should have a minimum efficiency gross calorific value no less than specified in Table 16 for that category of appliance Supplementary information solid fuel appliances providing secondary heating Minimum efficiencies Individual manufacturer s efficiency figures may be higher than those indicated in table 16
28. provisions for systems in new dwellings AND g The minimum provisions for storage of solar pre heated water as given in Table 31 row G AND h The minimum provisions for system labelling and commissioning as given in Table 32 rows h and i AND i The minimum provisions for insulating pipes in a solar primary system as given in Table 33 64 Table 31 Minimum provisions for solar water heating Minimum provision Supplementary information Allowance for collector shading No minimum provision Solar collectors should be sited in unshaded locations wherever possible Where this is unavoidable or in cases of significant or heavy shading or significant variance to the optimum orientation and tilt i e normal pitch roofs facing between SE and SW then an allowance for the loss of performance should be made when sizing the collector area according to the factors indicated in DEAP 2008 Appendix H a Solar collector certification Collectors should be independently certified to comply with all tests safety thermal performance reporting and identification according to IS EN 12975 Copies of the full test report should be included in handover material b Primary circuit fluid The transfer fluid in the collector primary loop should be chosen so as not to deposit lime scale sludge ice or other solids that could either restrict circulation or impair the rate of heat transfer within the absorber
29. systems should be insulated in line with manufacturer s recommendations e lf summer cooling is provided by the heat pump provision should be made for condensate drainage from the indoor terminal units e For ground to air and water to air systems all external pipework between the dwelling and the external heat exchanger should be insulated by following the guidance in the TIMSA guide available at www TIMSA ORG UK e For ground to air and water to air systems constant water flow should be maintained through the heat pump Installation should be carried out by an installer approved by the manufacturer and a person qualified to carry out such work Installation that requires access to the refrigeration circuit or the connection of split systems should be carried out by a suitably qualified refrigeration and air conditioning engineer 62 Table 30 continued Minimum provision Supplementary information b Controls Heat pump unit controls should include e control of room air temperature if not provided externally e control of outdoor fan operation for air to air units e defrost control of external airside heat exchanger for air to air systems e control for secondary heating if fitted on air to air systems e control of external water pump operation for ground to air and water to air systems protection for high water temperature protection for high refrigerant pressure protection for indoor a
30. the heating and hot water service circuits as described in Table 12 row d should be met An acceptable alternative to these is any boiler management system that delivers the specified zoning timing and temperature and if applicable boiler interlock control provisions When electric boilers are installed as replacement for existing boilers the minimum level of system controls should be installed as described in Table 12 unless they are already installed and fully operational If an individual component of the control system is being replaced in an existing system for example a room thermostat it is not necessary to upgrade the system to meet the minimum requirements AND e The minimum provisions for hot water storage and labelling of storage vessels as given in Table 13 need to be met AND f Pipework should be insulated as described in Table 14 31 Table 12 Minimum provisions for system circulation system preparation and commissioning and system controls for electric wet central heating systems Minimum provision for new systems Minimum provision for replacement systems Supplementary information a System circulation a Systems for space heating and domestic hot water primary circuits in new dwellings should have fully pumped circulation b Ifthe boiler manufacturer s instructions advise installation of a bypass then an automatic bypass valve should be used As defined for new systems When boile
31. to require a flow rate that results in a nominal return temperature of less than 40 C while meeting the required heat up time d Where hot water is produced centrally e g in each block of dwellings return temperatures lower than 40 C should be achieved 2 Minimising energy used by pumps e For new CH systems the design temperature difference for the CH primary circuit should be greater than 20 C e Variable volume control systems should be used to reduce the volume of water and the pressure difference required from the pumps under part load e Pumping energy can be minimised by optimizing operating temperatures and pipe sizes to reduce installed pump power e To take full advantage of variable volume systems variable speed pumps should be installed and controlled to deliver the required pressure difference to suit the load e Further guidance is provided in BSRIA Application Guide AG 16 2002 Variable flow Water Systems Design Installation and Commissioning Guidance 50 Table 22 Minimum provisions for design of renewable and CHP heat sources where these are included in community heating systems Minimum provision Supplementary information 2 Biofuels 10 kWh m2 annum contributing to energy use for domestic hot water heating space heatingor cooling or 4 kWh m2 annum of electrical energy or a combination of these which would have equivalent effect Appliances must be
32. where previously space heating was not provided by central heating this situation is also referred to in this section as a new system c The specification of a replacement central heating system and or component in existing dwellings where central heating is already installed this situation is referred to in this section as a replacement system In situations a and b above the guidance for compliance of new systems in new and existing dwellings with Part L 2008 is the same In situation c above that is for replacement systems in existing dwellings the guidance for compliance with Part L 2008 is as for new systems unless otherwise stated in the relevant section Gas fired central heating systems which are provided as new systems or replacement systems in dwellings should meet the following conditions a The boiler should have a minimum efficiency as defined by its HARP value as given in Table 1 row a AND b The minimum provisions for system circulation as given in Table 1 row b need to be met AND c The minimum provisions for hot water storage and labeling of storage vessels as given in Table 1 row c need to be met AND d The minimum provisions for system preparation and water treatment as given in Table 1 row d should be met AND e The system should be commissioned in accordance with the minimum provisions given in Table 1 row e AND f The minimum provisions for boiler interlock zo
33. 9 Minimum provisions for system controls for solid fuel central heating systems in new and existing dwellings System Minimum provisions for new Minimum provisions for Supplementary control systems replacement systems information All Thermostatic control of the burning rate Thermostatic control of the appliances burning rate based on except open fires temperature of water in the boiler where the appliance uses a boiler Automatic feed appliances Zoning No minimum requirement but e Dwellings with a total usable floor as far as it is practicable and area of greater than 100m should be economic to do so controls provided with at least two space heating should be upgraded to the zones each having separate levels defined for new systems temperature controls e Single storey open plan dwellings in which the living area is greater than 70 of the total floor area sub zoning of temperature control is not appropriate Time control Time control of space and water heating No minimum requirement but The level of of space and water heating should be provided by A full programmer with separate timing to each circuit ii Two or more separate timers providing timing control to each circuit or iii Programmable room thermostat s to the heating circuit s with separate timing of the hot water circuit as far as it is practicable and economic to do so controls should be upgraded to the levels defined for new s
34. Controls Programmable room thermostats with manual over ride feature for all heating zones with air and floor temperature sensing capabilities to be used individually or in combination c3 Electric cable direct acting with individual room timer thermostat control in timber floors Construction Direct acting electric underfloor heating cables installed below floor boards in voids between floor joists should be provided with insulation to comply with Part L1 and Part E requirements and the effects of any floor covering in accordance with Table 27 above Controls Programmable room thermostats with manual over ride feature should be provided to control space temperature and limit floor void temperature for safety and comfort in each area c4 Under tile electric floor heating systems Construction Direct acting electric underfloor heating cables should be provided with a pre fabricated mattress or equal format of thickness less than 4mm encapsulated in tile bedding adhesive or mortar below a ceramic or other equivalent floor finish on a thermally resistive insulation layer as defined in Table 27 row 1 ii Controls Programmable room thermostats with manual over ride feature should be provided to control space temperature and limit floor void temperature for safety and comfort in each area 59 Section 8 Heat pump systems This section provides guidance on the specification of heat pump systems
35. D j Pipework should be insulated as described in Table 20 Supplementary information Turn down values i e the ratio of high to low output Turn down ratios are generally very good gt 10 1 for automatic feed appliances with small firebeds Turn down ratios are less good with large batch fed appliances unless these are used in conjunction with a hot water accumulator Automatic appliances are likely to require less frequent refuelling Automatic e g electric or gas ignition is now available for certain designs and reduces energy usage at times of low demand allowing boiler interlock Some boilers have both auto ignition and fire extinguishing features Link up systems It is possible to connect together two or more heating appliances with boilers at least one of which can be solid fuel fired to maximise flexibility and efficiency For example an oil or gas boiler could be combined with a wood burning stove with boiler sited in the living room This combination with wood burning appliances will reduce overall carbon emissions Both systems should be designed to appropriate installation codes 41 Table 18 Minimum provisions for system circulation fuel storage hot water storage system preparation and commissioning of solid fuel central heating Minimum provision for new systems Minimum provision for replacement systems Supplementary information a System circulation a Where boiler interlock is available f
36. Dwellings with a total usable floor area of greater than 100m should be provided with at least two space heating zones each having separate temperature controls Time control should be provided using i multiple heating zone programmers or ii a single multi channel programmer or iii programmable room thermostats or iv separate timers to each circuit or v a combination of iii and iv above Single storey open plan dwellings in which the living area is greater than 70 of the total floor area sub zoning of temperature control is not appropriate b Panel heaters Local time and temperature control Time control provided by a programmable time switch integrated into the appliance or a separate time switch Individual temperature control provided by integral thermostats or by separate room thermostats or programmable room thermostats Panel heater systems provide instant heat c Storage heaters a Charge control Automatic control of input charge should be provided Charge control is the ability to detect the internal temperature and adjust the charging of the heater accordingly b Temperature control Controls for adjusting the rate of heat release from the appliance should be provided such as an adjustable damper or some other thermostatically controlled means 37 Section 5 Solid fuel heating systems This section provides guidance on the specification of solid fu
37. Part L for conventional space heating systems and hot water service systems in dwellings The guide comprises four self contained fuel based sections and five specialist technology specific sections Each fuel based section addresses all the requirements applicable to primary and secondary space heating and hot water service technologies for the particular fuel The specialist technology specific sections provide further guidance on the minimum provisions for particular specialised space heating and hot water service technologies The structure of the guide is illustrated in Figure 1 and is as follows Fuel based sections e Section 2 Gas fired primary and secondary space heating and hot water service e Section 3 Oil fired primary and secondary space heating and hot water service e Section 4 Electric primary and secondary space heating and hot water service e Section 5 Solid fuel primary and secondary space heating and hot water service Specialist technology specific sections e Section 6 Community heating Section 7 Underfloor heating Section 8 Heat pumps Section 9 Solar water heating Section 10 Micro CHP Combined Heat and Power For any particular application the relevant fuel based section and or specialist technology specific section must be read in conjunction with all elements of this introduction section e 1 Introduction e 1 1 How to use this guide e 1 2 Glossary e 1 3 The Building Regulations 2008 requirements and th
38. SATE DRAIN CONNECTIONS A2 PAGE A3 A3 A3 A4 A5 A5 A9 A9 A10 A10 All Al2 Al4 1 Introduction From 31 March 2008 all oil and gas fired boilers installed as replacements in existing dwellings must meet a minimum seasonal efficiency of 86 where practicable This requirement was introduced as part of the revision of the Building Regulations Part L Conservation of Fuel and Energy adopted in December 2007 Currently the only boilers achieving this performance level are condensing boilers This revision of the Building Regulations imposed no requirement in relation to solid fuel boilers This Guide contains the detailed guidance referred to in Paragraph 2 2 of Technical Guidance Document L Dwellings to assess specific situations where the provision of condensing boilers is not practicable It will be included as an Appendix in the document Heating and Domestic Hot Water Systems for dwellings Achieving compliance with Part L when published The Condensing Boiler Installation Assessment Procedure is to be used in cases where it is expected that the installation of a condensing boiler as a replacement boiler in an existing dwelling may not be practicable Practicable is taken to mean capable of accomplishment after taking into consideration the existing state of technology and economic feasibility for the facility involved This Guide has been written to help heating installers carry out a condensing boile
39. Scope of guidance The guidance in this section covers solar systems with a collector area of less than 20m and solar heated water storage of less than 440 litres It does not cover systems intended to contribute exclusively to space heating or systems providing heat exclusively to heat swimming pools It should be used in conjunction with the guidance on water heating contained in the fuel based sections of this guide Solar water heating in new and existing dwellings should meet the following conditions a The minimum provisions for collector certification identification and testing as specified in Table 31 row a AND b The minimum provisions for selection of transfer fluid in the collector primary loop as given in Table 31 row b AND c The minimum provisions for circulation pump power as given in Table 31 row c AND d The minimum provisions for heat exchanger sizing as given in Table 31 row d AND e The minimum provisions for control of the system as given in Table 31 row e Where work is carried out in a dwelling that already has a solar hot water system it is recommended that the system control is upgraded in line with the minimum provisions for systems in new dwellings AND f The minimum provisions for solar pre heated water storage as given in Table 31 row f Where work is carried out in a dwelling that already has a solar hot water system it is recommended that the insulation is upgraded in line with the minimum
40. Y SUSTAINABLE Comhshaol Oidhreacht agus Rialtas iti il ENERGY IRELAND Environment Heritage and Local Government Heating and Domestic Hot Water Systems for dwellings Achieving compliance with Part L 2008 Amendments Date Amendment 29 10 08 The following text deleted from Table 9 Row A Column 2 if a combination boiler is installed the boiler efficiency should be not less than 82 efficiency as expressed by its HARP value OR CONTENTS Section 1 1 1 1 2 1 3 1 4 Section 2 2 1 2 2 2 3 2 4 2 5 2 6 2 7 Section 3 3 1 3 2 3 3 3 4 3 5 Section 4 4 1 4 2 4 3 Introduction How to use this guide Glossary The Building Regulations requirements and the guidance Technical Guidance Document L 2008 Sections 1 and 2 Replacement of primary heating appliances Gas fired space heating and hot water systems Scope of guidance Gas fired wet central heating systems Gas fired range cookers with integral central heating boiler Gas fired warm air heating Gas fired fixed independent space heating appliances Gas fired fixed decorative fuel effect fires Gas fire for secondary space heating provided as part of a combined fire and back boiler unit Oil fired wet central heating systems Scope of guidance Oil fired wet central heating systems Oil fired range cookers with integral central heating boilers Continually burning oil fired vaporising appli
41. ance for Installers Glossary of standards relevant to solar hot water heating BS 7431 1991 BS 6785 1986 Method for assessing solar water heaters Elastomeric materials for absorbers connecting pipes and fittings Code of practice for solar heating systems for swimming pools TS 12977 3 2001 Performance characterisation of stores for solar heating systems TS 12977 2 2001 Thermal solar systems and components Custom built systems Test methods TS 12977 1 2001 Thermal solar systems and components Custom built systems General requirements IS EN ISO Solar energy Vocabulary 9488 2000 IS EN 12976 Thermal solar systems and components Factory made systems Test methods 2 2001 IS EN 12976 Thermal solar systems and components Factory made systems General requirements 1 2001 IS EN 12975 Thermal solar systems and components Solar collectors Test methods 2 2001 IS EN 12975 Thermal solar systems and components Solar collectors General requirements 1 2000 ISO 9553 1997 Solar energy methods of testing preformed rubber seals and sealing compounds used in collectors BS 903 0 2003 BS 3734 1 1997 Rubber tolerances for products Part 1 Dimensional tolerances Physical testing of rubber Part 0 General BS 6920 2000 Suitability of non metallic products for use in contact with water intended for human consumption with regard to their effect on the quality of
42. ances providing secondary heating or hot water Oil fired fixed independent space heating appliances Electrical heating systems Scope of guidance Electric boilers serving central heating systems in new and existing dwellings Electric heating systems other than central heating using electric boilers PAGE ana 14 15 17 19 19 21 21 21 27 28 29 30 30 30 35 Appendix A Section 5 5 1 5 2 5 3 5 4 Section 6 6 1 6 2 Section 7 TA Section 8 8 1 Section 9 9 1 Section 10 Solid fuel heating systems Scope of guidance Solid fuel appliances for primary heating Central heating systems using certain types of solid fuel appliances Solid fuel appliances for secondary heating Community heating systems Scope of guidance Definition of community heating CH Under floor heating systems Scope of guidance Heat pump systems Scope of guidance Solar water heating Scope of guidance Individual domestic micro combined heat and power 38 38 38 40 46 48 48 48 57 57 60 60 64 64 70 Guide to the Condensing Boiler Installation Assessment Procedure for Existing Dwellings Section 1 Introduction Part L of the Building Regulations is concerned with the conservation of fuel and energy in dwellings Part L for dwellings is supported by a Technical Guidance Document TGD L Dwellings 2008 which gives guidance on how
43. and should be used where independently certified against the harmonised European Standards now in place Appliance types Appliances which are most suitable for secondary space heating are summarised below Appliance type Notes a Open fire with high output boiler when used with link up b Small solid fuel room heaters stoves especially wood fired These can be a dedicated wood burner or burn logs in a multi fuel appliance or use pellets They can be matched with a main heating system fired by the same or a different primary fuel or off peak electricity to reduce carbon emissions especially wood fired with or without thermostatic control Many designs can provide heating during power cuts Mineral fuel appliances can be chosen but the attention of designers is drawn to the probable need to supply additional measures as the carbon emission values of these tend to be high Mineral fuel appliances may often have slightly higher efficiencies than their wood burning counterparts Multi fuel room heaters can enable the user to burn renewable wood as well as an alternative to mineral fuels outside smoke control areas c Small solid fuel stoves with boilers The efficiency of these can be higher than for dry appliances They can be integrated with the primary wet heating system Multi fuel appliances enable the householder to burn renewable wood in smoke control areas d Range cookers Typically these applia
44. arry out the assessment is to imagine the building is empty without furniture and fittings and the householder is not present The householder should specify the fuel to be used natural gas LPG or oil The task is to find the most practicable option for installing a condensing boiler taking into account the position of the existing boiler if there is one e Some boiler positions and flue terminal positions are excluded from the assessment as shown in Table 1 These options are NOT to be considered for the assessment procedure However this does not necessarily mean they contravene standards or regulations and in some cases they may be acceptable to the householder e If there is no difficulty in installing a condensing boiler it is not necessary to complete the form and no further action is required A condensing boiler should be installed in any position chosen by the householder subject to compliance with Part J of the Building Regulations e In rare cases it will not be possible to install a condensing boiler anywhere in the dwelling Complete the form explaining why and sign the declaration Such cases are unusual and apply only when there are no positions where a condensing boiler could be installed even with an extended flue horizontal or vertical inside or outside the building One example is a flat where an existing boiler is connected to a shared flue and it is not possible to pierce an external wall for structural reasons e g
45. ated rooms below complying with both Part L and Part E of the Regulations should have a separating layer of system thermal insulation to comply with IS EN1264 Part 4 where the minimum thermal resistance is given as not less than R 0 75m K W 2b Intermediate floors with heated rooms below Electric systems Intermediate floors with heated rooms below complying with both Part L and Part E of the Regulations should have a separating layer of system thermal insulation where the minimum thermal resistance is given as not less than R 0 5m K W Thermal insulation of party floors is essential because the floor ceiling is directly coupled to the heating elements 3 System design to minimize distribution losses i Underfloor heating distribution boards or warm water distribution manifolds should be located centrally between the rooms being heated thus minimising the length of interconnecting services ii Service pipes should be insulated or routed via conduits to reduce distribution losses where there is a risk of overheating the room or floor finish as a result of the presence of hot water service pipes in transit to more distant rooms and or avoidable energy loss 58 Table 28 Minimum provisions for construction and control of electric underfloor heating systems Minimum provision Supplementary information c1 Electric storage systems with individual room or programmable thermos
46. ater treatment heat meters and commissioning for community heating Minimum provision Supplementary information d1 Hot water service production and storage The hot water service system should be controlled using variable volume control principles and be designed to maintain low return temperatures in the primary CH circuit Hot water can be produced in four ways in CH systems e in individual dwellings using indirect storage cylinders e in individual dwellings using instantaneous plate heat exchangers e centrally using storage calorifiers with either an indirect coil or an external plate heat exchanger e centrally using an instantaneous plate heat exchanger In selecting the system consideration should be given to e the impact on return temperatures in the CH system e the impact on flow rates in the CH system e the impact on heat demand profiles and compatibility with the heat source e standing losses from storage cylinders calorifiers and the impact on energy use e the quality of service provided in terms of flow rate and temperature control e the advantages of having local storage in terms of security of supply Where the network is extensive and hot water production is centralised a two stage water heating system can be used to deliver low return temperatures In this design the return water from the space heating circuit is used to pre heat the cold feed to the domestic hot water
47. ation g Storage of solar preheated water The ratio of solar heated water storage volume to collector area should be specified as follows i The dedicated solar storage volume Vs should be at least 25 litres or equivalent heat capacity per net m of the solar collector absorber area ii Alternatively Vs should be a volume or equivalent heat capacity which is equivalent to at least 80 of the daily hot water demand Va as defined by DEAP 2008 Collector area is measured as effective aperture or net absorber area whichever is smaller If a solar domestic hot water system is to be used in conjunction with an auxiliary heated thermal store this will often operate at a higher temperature than domestic hot water only solar stores The expected higher temperatures of auxiliary heated domestic hot water thermal stores and lack of stratification particularly with combined thermal stores with open pumped circuits would suggest that a separate pre heat storage vessel should be considered wherever possible 66 Table 32 Minimum provisions for labelling commissioning and documentation for solar hot water systems Minimum provision Supplementary information 1 Labelling of solar collectors and hot water stores a All solar collectors should have a visible and o durable label displaying all information required according to BS EN12975 and including at least the following name of manufacturer
48. ation should be suitably rated for the maximum foreseeable pipe temperature applicable external insulation should also be resistant to vermin attack and climatic degradation In a dwelling that already has a solar hot water system it is recommended that the insulation is upgraded in line with these minimum provisions where significant work such as change of solar storage is carried out Insulation for pipework in unheated areas Extra provision may need to be made to protect central heating and hot water pipework in unheated areas against freezing Further guidance is available in e BS 5422 2001 Method for specifying thermal insulating materials for pipes tanks vessels ductwork and equipment operating within the temperature range of 40 to 700 e BRE Report No 262 Thermal insulation avoiding risks 2002 edition Insulation labelled as complying with Part L must not exceed the following heat loss levels Pipe diameter OD mm Maximum permissible heat loss W m 8mm 7 06 10mm 7 23 12mm 7 35 15mm 7 89 22mm 9 12 28mm 10 07 35mm 11 08 42mm 12 19 54mm 14 12 In assessing the thickness of insulation required to meet the provision standardised conditions should be used in all compliance calculations based in this instance on a horizontal pipe at 60 C in still air at 15 C 68 Supplementary information on solar water heating Energy Efficiency Best Practice in Housing publication Solar Water Heating Guid
49. ave been calculated has been certified by insert name and or identification of Notified body AND c The minimum provisions for oil fired central heating systems with respect to the integral central heating boilers as given in Table 9 rows b to e AND d The minimum provisions for boiler interlock zoning and time control and temperature control of the heating and hot water circuits with respect to the integral central heating boilers as given in Table 10 for oil fired central heating systems An acceptable alternative to these is any boiler management system that delivers the specified zoning timing and temperature provisions When oil boilers are installed as a replacement for existing boilers the minimum level of system controls should be provided as described in Table 10 unless they are already installed and fully operational If an individual component of the control system is being replaced in an existing system for example a room thermostat it is not necessary to upgrade the system to meet the minimum requirements AND e Pipework should be insulated as described in Table 11 3 4 Continually burning oil fired vaporising appliances providing secondary heating or hot water This section provides guidance on the specification of oil fired vaporising appliances providing heating or hot water for dwellings that if followed will satisfy the 2008 Building Regulations energy efficiency requirements The guidance does not app
50. changer performance in kW Insulation of primary stores Due to the higher than normal storage temperatures in primary stores it is very important that these are well insulated 34 Table 14 Minimum provisions for insulation of pipes serving electric wet central heating systems Minimum provision In new systems pipes should in the following cases be insulated with insulation complying with the requirements of the Heating and Domestic Hot Water Systems for dwellings Achieving Compliance with Part L in line with the maximum permissible heat loss indicated in the Supplementary Information column and labelled accordingly e Primary circulation pipes for heating and hot water circuits should be insulated wherever they pass outside the heated living space or through voids which communicate with and are ventilated from unheated spaces e Pipes and ducts which are incorporated into wall floor or roof construction should be insulated e Primary circulation pipes for hot water service circuits should be insulated throughout their length subject only to practical constraints imposed by the need to penetrate joists and other structural elements e All pipes connected to hot water storage vessels including the vent pipe should be insulated for at least 1m from their points of connection to the cylinder or they should be insulated up to the point where they become concealed e f secondary circulation is used all pip
51. ction and one for the boiler and the boiler should have a Seasonal Efficiency HARP value in excess of 75 AND b Information about appliance performance should be included in the commissioning information given at completion The manufacturers declaration of appliance performance and HARP value should include the following words e Seasonal efficiency HARP xx e Case heat emission value yy kW e Heat transfer to water at full load zz kW Seasonal Efficiencies for appliances can be found in HARP database and in the national methodology for Building Energy Rating DEAP at www sei ie HARP and www sei ie DEAP 14 The values are used in the Dwelling Energy Assessment Procedure DEAP for the energy rating of dwellings The test data from which they have been calculated has been certified by insert name and or identification of Notified body AND The minimum provisions for gas fired central heating systems with respect to the integral central heating boilers as given in Table 1 rows B E AND The minimum provisions for boiler interlock zoning and time control and temperature control of the heating and hot water circuits with respect to the integral central heating boilers as given in Table 2 for gas fired central heating systems An acceptable alternative to these is any boiler management system that delivers the specified zoning timing and temperature provisions When gas boilers are installed as a replac
52. e 4 If the drain is connected downstream of the sink waste trap and the boiler does not have an integral trap with a seal of at least 75mm then an additional trap of at least 75mm must be fitted An air break must be included between the traps Figure 5 The trap and airbreak should be above the level of the sink to prevent flow from the sink into boiler or airbreak Connection to washing machine drains are preferable to a kitchen sink as this reduces the amount of solid waste and fats in the drain branch that could cause blockage or restriction at the point where the condensate drain is connected Connection to external drain point If the condensate drain cannot be connected to an internal drain then direct connection to an external gully or rainwater hopper can be considered A rainwater hopper must be connected to a combined system ie sewer carries both rainwater and foul water The open end of the pipe should be terminated in the gully or rainwater hopper below the grid level but above the water level Condensate should not be disposed of in grey water systems ie systems that reuse water except water from toilets used in the home Figure 4 Connection to internal sink waste upstream of sink trap i Height above sink gt 100mm Figure 5 Connection to internal sink waste downstream of sink trap a Internal trap gt 75mm Height above sink gt 100mm Pipe slope _ gt 21 deg A 17 F
53. e certified by the Irish Agr ment Board or e be certified by another accredited body as complying with Building Regulations d Unvented systems should not be used with gravity circulation Labelling of hot water storage vessels e All hot water storage vessels should carry a label with the following information e type of vessel nominal capacity in litres standing heat loss in kWh day type of vessel heat exchanger performance in kW As defined for new systems Primary hot water stores These can have a major role to play in the installation of solid fuel The main reason for their use is to store the heat generated during slumber periods but they also provide mains pressure hot water and possible frost protection via electric immersion heaters from a solid fuel system Domestic hot water outlet temperature is to be controlled at a safe level Because of the higher than normal storage temperatures it is very important that these are well insulated Standards BS 1566 2002 Copper indirect cylinders for domestic purposes Open vented copper cylinders Requirements and test methods BS 3198 1981 Specification for copper hot water storage combination units for domestic purposes BS 7206 1990 Specification for unvented hot water storage units and packages 42 Table 18 continued Minimum provision for new systems Minimum provision for replacement Supplementary information systems d System a Central hea
54. e front of TGD L Dwellings 2008 in the Guidance Section which can be viewed on www environ ie For new dwellings the provision of heating and hot water services systems has to be considered as part of the overall design of the building For heating and hot water services systems works in existing dwellings provision can be considered in isolation Both sections of the TGD L Dwellings 2008 refer to this publication as the source of detailed guidance on reasonable provision Section 1 4 Replacement of primary heating appliances In order to comply with the energy efficiency requirements replacement appliances providing primary space heating and or hot water in existing dwellings should meet the following conditions Replacement not involving fuel or energy switch Where the primary heating appliance is replaced by one using the same fuel or energy supply the seasonal efficiency of the new equipment a Should be as stated in the relevant fuel based section of this guide AND b Should be not worse than the seasonal efficiency of the controlled service being replaced If the efficiency of the appliance to be replaced is not known efficiency values may be taken from Table 4a or 4b of DEAP 2008 Replacement involving fuel or energy switch If the new heating appliance uses a different fuel the efficiency of the new service should be multiplied by the ratio of the CO emission factor of the fuel used in the service being replaced to that of
55. e guidance in Technical Guidance Document L Dwellings 2008 e 1 4 Replacement of primary heating appliances For each type of space heating or hot water service system guidance on the minimum provisions needed to comply with Part L is supported by commentaries They are in italic font with a shaded background and are labeled Supplementary information They are useful when interpreting the minimum provisions and in some cases provide links to best practice guidance They do not specify minimum provisions Figure 1 How to use Heating and Domestic Hot Water Systems for dwellings Achieving Compliance with Part L 2008 Section 1 Introduction Section 1 1 How to use the guide Section 1 2 Glossary Section 1 3 Requirements of Technical Guidance Document L Section 1 4 Replacement of primary heating appliances Section 2 Gas systems Pages 8 20 Section 3 Oil systems Pages 21 29 Section 4 Electric systems Pages 30 37 Section 5 Solid fuel systems Pages 38 47 Section 6 Community heating systems Pages 48 56 Section 7 Underfloor heating systems Pages 57 59 Section 8 Heat pump systems Pages 60 63 Section 9 Solar hot water systems Pages 64 69 Section 10 Micro CHP systems Page 70 Section 1 2 Glossary Technical Guidance Document L TGD L The Building Regulations Minimum provision Supplementary information DEAP Section 1 of TGD L Dwellings 2008 gives guidance on ho
56. e types described in Table 7 AND b The efficiency gross calorific value of the appliance should be no less than the value in Table 7 for that type of appliance The appliance manufacturer s declaration of appliance performance shall include the following words The efficiency of this appliance has been measured as specified in insert appropriate entry from Table 7 and the result is x The gross calorific value of the fuel has been used for this efficiency calculation The test data from which it has been calculated has been certified by insert name and or identification of Notified Body The efficiency value may be used in the Dwelling Energy Assessment Procedure DEAP for energy rating of dwellings 18 Table 7 Acceptable appliance types and minimum appliance efficiencies for independent fixed natural gas and LPG gas fired space heaters used as a secondary heat source National Standard designation appliance type Minimum efficiency gross calorific value Gas LPG IS EN 1266 2002 Independent gas fired convection heaters 72 73 incorporating a fan to assist transportation of combustion air and or flue gases All types except inset live fuel effect BS 7977 1 2002 63 64 Specification for safety and rational use of energy of domestic gas appliances Radiant convectors IS EN 613 2003 Independent gas fired convection heaters 58 60 IS EN 13278 2003 Open fronted gas fired independent space 45 46 h
57. eaters Inset live fuel effect 40 41 BS 7977 1 2002 Specification for safety and rational use of energy of domestic gas appliances Radiant convectors Flue less IS EN 14829 2007 Independent gas fired flueless space heaters for nominal heat input not exceeding 6kW Flue less IS EN 449 2002 Specification for dedicated liquefied petroleum gas appliances Domestic flueless space heaters including diffusive catalytic combustion heaters Thermal efficiency requirements for this type of appliance are not specified as all the heat produced by the combustion process is released into the space to be heated In DEAP the efficiency of these appliances is classed as 90 and an adjustment is made for ventilation in the space heating requirement calculation 2 6 Gas fired fixed decorative fuel effect fires This type of appliance is intended for decorative purposes and therefore a minimum thermal efficiency is not specified Note that for the purposes of DEAP the efficiency of decorative fuel effect fires is classed as 20 for use in the space heating requirement calculation see Table 4a of DEAP 2008 In order to comply with the requirements of Part L 2008 gas fired decorative fires in new and existing dwellings should meet the following conditions a The appliance should meet the product standards specified in IS EN 509 2000 Decorative fuel effect gas appliances AND b No more than one appliance should be installed
58. ecessary to have an internal vertical flue which penetrates the roof Connection to a suitable drain point may be more difficult in this case g Can the boiler be installed in an attic or loft area gas LPG boilers only If this is considered for the actual installation special requirements for access will apply h Is there a suitable outbuilding If this is considered for the actual installation connection to services will be more difficult and frost protection is necessary A8 7 Flue terminal siting It is necessary to site a condensing boiler flue terminal such that the plume of wet flue products does not impinge on or significantly affect the use of the dwelling and also the neighbouring buildings 8 For the purposes of the Condensing Boiler Installation Assessment Procedure the flue terminal should be sited so as to satisfy the guidance given in Technical Guidance Document J to the Building Regulations The installation should also be installed in accordance with I S 813 2002 for gas installations and in accordance with BS 5410 1 1997 for oil burning appliances up to 45 kW The position of the terminal should be such as to minimise the risk of nuisance from pluming to adjacent properties or the re entry of combustion products through openable windows vents etc of opposite or adjacent properties Extended flue lengths When considering extended flues the following rules apply When considering flue lengths use the
59. ed for the zone valve An acceptable alternative to these controls is any boiler management control system that meets the specified zoning timing and temperature and boiler interlock control requirements Supplementary information controls for solid fuel central heating e Boiler interlock provided by a wiring arrangement to prevent the system from operating when there is no demand for heat should only be fitted if recommended by the manufacturer e In some simple batch fed or automatic appliances without heat stores and or without automatic ignition it is not possible to switch off the heat output completely however the appliance output can be lowered to a minimum to reduce fuel consumption 44 e In most solid fuel systems the room thermostat will switch off the pump which in turn will cause the boiler to operate at minimum output e Some automatic solid fuel systems can be fitted with weather compensation and incorporate multi zone control It is important to seek guidance from the manufacturer especially if the heating package is to include other fuels Table 20 Minimum provisions for insulation of pipes serving solid fuel central heating systems Minimum provision In new systems pipes should in the following cases be insulated in the following cases be insulated in accordance with the recommendations in this guide in line with the maximum permissible heat loss indicated in the Supplementary Info
60. el heating systems for dwellings 5 1 Scope of guidance The guidance given in this section covers the following types of solid fuel heating appliances and systems used to deliver primary and secondary heating Batch fed open fires Batch fed and automatic feed dry room heaters stoves Batch fed log and multi fuel appliances Automatic feed pellet stoves Batch fed and automatic feed room heaters with boilers Batch fed cookers with boilers not exceeding 7 5kW Batch fed independent boilers and automatic feed anthracite and wood pellet independent boilers Central heating systems using certain types of solid fuel appliances Where appropriate it may also be necessary to refer to the sections of this guide on community heating underfloor heating solar water heating and micro CHP 5 2 Solid fuel appliances for primary heating Solid fuel appliances that are provided in new and existing dwellings for primary heating should have a minimum efficiency gross calorific value no less than that specified in Table 16 for that category of appliance Table 16 Solid fuel appliance categories and minimum efficiencies Category Appliance description Minimum efficiency Feed gross calorific value B1 Batch B2 Open fire freestanding 47 Batch convector B3 inset or freestanding D1 2 3 Open fire high output Batch boiler trapezium D4 Open fire high output Batch boiler rectangle E1 Batch automatic E2 Batch E3 Ba
61. em should ensure as far as practicable that the CHP plant operates as the lead heat source a Areasonable minimum proportion of the annual heat supply from CHP would be 45 of the annual heat demand space domestic and hot water heating b To maximise the use of CHP heat over the year consideration should be given to the use of thermal storage to meet peaks especially in the early morning period c The procedure given in DEAP should be used to calculate the carbon emissions from CHP systems 51 4 Heat pumps 10 kWh m2 annum contributing to energy use for domestic hot water heating space heatingor cooling or 4 kWh m2 annum of electrical energy or a combination of these which would have equivalent effect In the case of electrically powered heat pumps only energy in excess of 2 5 times the electrical energy directly consumed by the heat pump can be counted towards meeting the minimum level of energy provision from renewable technology Heat pumps can be used as a heat source for CH systems Selection of operating temperatures to suit both efficient community heating systems and achieve high coefficients of performance is important if carbon emissions are to be reduced This may lead to the use of underfloor heating and the provision of hot water service by other means Where heat pumps are installed in conjunction with conventional heating boilers a reasonable minimum proportion of the annua
62. ement for existing boilers the minimum level of system controls should be provided as described in Table 2 unless they are already installed and fully operational If an individual component of the control system is being replaced in an existing system for example a room thermostat it is not necessary to upgrade the system to meet the minimum requirements AND Pipework should be insulated as described in Table 3 2 4 Gas fired warm air heating This section provides guidance on the specification of gas fired warm air heating systems for dwellings Terminology and applicability of guidance to different scenarios in new and existing dwellings The guidance in this section applies to the following situations a b The specification of gas fired warm air heating systems in new dwellings this situation is referred to in this section as a new system The specification of gas fired warm air heating systems in existing dwellings where previously space heating was not provided by a warm air system this situation is also referred to in this section as a new system The specification of a replacement warm air heating system and or component in existing dwellings where warm air heating is already installed this situation is referred to in this section as a replacement system Gas fired warm air heating which is provided as a new system or replacement system in new or existing dwellings should meet the following conditions a
63. ensing boilers are more efficient and therefore save on fuel costs and cause less harm to the environment You should retain this form It may be required when you sell your home All 12 Typical flue types The following flue options are typical of what is available but other flue options may be considered provided that they meet regulations Straight through the wall terminal A normal balanced flue terminal mounted directly behind a boiler on an outside wall External concentric vertical flue ae ee The air inlet and flue outlet are adjacent and the terminal would normally be mounted at high level Flue is mounted externally to the building O Twin pipe extended flue The air inlet and flue outlet can be adjacent or separated but the flue outlet would normally be n mounted at high level The air and flue pipes can have separate terminals or meet with a concentric terminal Non balanced extended flue A flue system used with some gas boilers where the air intake and the flue outlets can be positioned in different wind pressure zones described as type C5 in boiler standard IS EN 483 Separate ducts are used for air intake and flue products Typically the flue products would discharge at a higher level than the air inlet position This option is only available for some boilers which require special certification for use in this way Also specially designed flue components must be u
64. es kept hot by that circulation should be insulated For replacement systems whenever a boiler or hot water storage vessel is replaced in an existing system any pipes in the situations above that are exposed as part of the work or are otherwise accessible should be insulated as recommended in this guide in line with the maximum permissible heat loss indicated in the Supplementary Information column and labelled accordingly or to some lesser standard where practical constraints dictate Supplementary information Insulation for pipework in unheated areas Extra provision may need to be made to protect central heating and hot water pipework in unheated areas against freezing Further guidance is available in e BS 5422 2001 Method for specifying thermal insulating materials for pipes tanks vessels ductwork and equipment operating within the temperature range of 40 to 700 C e BRE Report No 262 Thermal insulation avoiding risks 2002 edition Where insulation is labelled as complying with this guidance it must not exceed the following heat loss levels Pipe diameter OD mm Maximum permissible heat loss W m 8mm 7 06 10mm 7 23 12mm 7 35 15mm 7 89 22mm 9 12 28mm 10 07 35mm 11 08 42mm 12 19 54mm 14 12 In assessing the thickness of insulation required to meet the provision standardised conditions should be used in all compliance calculations based in this instance on a horizontal pipe at 60 C in sti
65. for hot water production storage and treatment should be met as in Table 24 row d 48 AND e The minimum provisions for the installation of heat meters should be met as given in Table 24 row e AND f The minimum provisions for commissioning of the system should be met as given in Table 24 row f AND g The minimum provisions for insulation of pipework should be met as given in Table 25 Minimum provisions for connection of dwellings to an existing CH scheme In order to comply with the requirements of when new or existing dwellings are connected to an existing CH scheme the following conditions should be met a Where existing CH systems are in need of replacement or improvement a specific study should be carried out to assess the economic and environmental benefits of a range of options including the use of CHP and other renewable heat sources or chp especially where individual heating systems are being considered as an alternative to continuing with the CH system AND b If thermal energy is purchased from an existing district or community heating system an assessment of the carbon intensity of the scheme should be carried out Emission factors should be determined based on the particular details of the scheme but should take account of the annual average performance of the whole system i e the distribution circuits and all the heat generating plant including any CHP and any waste heat recovery or heat dumping
66. formation Further guidance on oil fired heating systems is available in the following publications Energy Efficiency Best Practice in Housing publications see www oftec org e CE29 Domestic heating by oil boiler systems e CE51 Central heating system specifications CHeSS e CE54 Whole house boiler sizing method for houses and flats e OFTEC Technical Books 2 3 4 and 5 see www oftec org e BS 5410 29 Section 4 Electric heating systems This section provides guidance on the specification of fixed electric heating systems for dwellings 4 1 Scope of guidance The guidance given in this section covers the following types of fixed electric heating systems e Electric boilers serving central heating systems e Electric warm air systems e Electric panel heaters e Electric storage systems including integrated storage direct systems Portable plug in appliances are not covered by the Building Regulations or by this guide Where appropriate it may also be necessary to refer to the other sections in this guide covering underfloor heating and solar water heating 4 2 Electric boilers serving central heating systems in new and existing dwellings This section provides guidance on the specification of electric boilers serving wet central heating systems for dwellings Terminology and applicability of guidance to different scenarios in new and existing dwellings The guidance in this section applies to the following situations a
67. ge all condensate drains should be considered as external Condensate pipe fall at least 2 2 deg away from the boiler Bends should be kept to a minimum Similarly the number of fittings or joints external to the dwelling needs to be minimised in order to reduce the risk of condensate being trapped Fixing Must be adequate to prevent sagging A maximum spacing of 0 5m for horizontal and 1 0m for vertical sections should be adequate Pipe sizes Follow boiler manufacturer s instructions If there are no guidelines then a minimum nominal diameter of 22mm should be used when run internally in a dwelling and a larger diameter is recommended for externally run pipe to reduce the risk of freezing at least 32mm nominal diameter Pipe material The drainpipe material should be resistant to acid as the condensate is slightly acidic Suitable materials for the condensate drainage pipe are plastics as used for standard wastewater plumbing systems or cistern overflow pipes copper and mild steel pipes and fittings must not be used Condensate siphons Many boilers have a siphon fitted as part of the condensate trap arrangement This provides intermittent discharge of the condensate which will significantly reduce the risk of condensate freezing where part of the pipework is run externally If an appliance does not include a siphon then external pipework is best avoided to reduce the risk of freezing If this is not possible then exter
68. he boiler manufacturer s instructions advise installation of a bypass an automatic bypass valve should be provided in conjunction with any requirements for a minimum pipe length specified in the manufacturer s instructions As defined for new systems When boilers are replaced existing systems with semi gravity circulation should be converted to fully pumped circulation 10 Table 1 continued Minimum provision for new systems in new and existing Minimum provision for replacement systems Supplementary information dwellings in existing dwellings c Hot water a Vented copper hot water storage vessels should comply with the As defined for new systems Insulation of primary stores storage heat loss and heat exchanger requirements of BS1566 2002 Because of the higher than normal storage Unvented hot water storage systems products should temperatures in primary stores it is very i meet IS EN 12897 or important that these are well insulated ii be certified by the Irish Agr ment Board or iii be certified by another accredited body as complying Standards with Building Regulations BS 1566 2002 Copper indirect cylinders for b Standing heat losses should be restricted as defined in TGD L domestic purposes Open vented copper section 1 4 4 2 cylinders Requirements and test methods c All hot water storage vessels should carry a label with the BS 7206 1990 Specification for unvented hot following informat
69. he electrical isolating switch type of circulation fluid circulation rate of collector circuit location of device for protection of overheating solar heated water 3 Documentation No minimum requirement Information concerning the solar domestic hot water system should be provided to the dwelling owner and or user as applicable The documentation should include e user s manual e warranty information e arecommended maintenance schedule e commissioning certificate e full contact details of the installer 67 Table 33 Minimum provision for insulation of pipes for solar hot water systems Minimum provision In new systems pipes should in the following cases be insulated with insulation in line with the maximum permissible heat loss indicated in the Supplementary Information column and labelled accordingly All pipes of a solar primary system should be insulated throughout the length of the circuit Primary circulation pipes for heating and hot water circuits should be insulated wherever they pass outside the heated living space or through voids which communicate with and are ventilated from unheated spaces All pipes connected to hot water storage vessels including the vent pipe should be insulated for at least 1m from their points of connection to the cylinder or they should be insulated up to the point where they become concealed Supplementary information The insul
70. heated areas Extra provision may need to be made to protect central heating and hot water pipework in unheated areas against freezing Further guidance is available in e BS 5422 2001 Method for specifying thermal insulating materials for pipes tanks vessels ductwork and equipment operating within the temperature range of 40 to 700 C e BRE Report No 262 Thermal insulation avoiding risks 2002 edition Where insulation is labelled as complying with the Heating and Domestic Hot Water Systems for dwellings Achieving Compliance with Part L it must not exceed the following heat loss levels Pipe diameter OD mm Maximum permissible heat loss W m 8mm 7 06 10mm 7 23 12mm 7 35 15mm 7 89 22mm 9 12 28mm 10 07 35mm 11 08 42mm 12 19 54mm 14 12 In assessing the thickness of insulation required to meet the provision standardised conditions should be used in all compliance calculations based in this instance on a horizontal pipe at 60 C in still air at 15 C 2 3 Gas fired range cookers with integral central heating boiler This section provides guidance on the specification of gas fired range cookers with integral central heating boilers for space heating and hot water in dwellings Gas fired range cookers with an integral central heating boiler which are provided in new or existing dwellings should meet the following conditions a The appliance should have two independenily controlled burners one for the cooking fun
71. i ensure that hot water produced by auxiliary heat sources is not used when adequate grade solar pre heated water is available iv provide a means of control consistent with the solar system being inherently secure against the adverse affects of excessive primary temperatures and pressures v where a separate domestic hot water heating appliance is pre heated by a solar system then this appliance should be controlled where possible such that no extra heat is added if the target temperature is already satisfied from the pre heat vessel f Solar preheated water storage For new or replacement solar heated water storage the minimum provisions are as follows a Vented copper hot water storage vessels should comply with the heat loss and auxiliary heating heat exchanger requirements of BS 1566 1 2000 b Unvented hot water storage systems products should e comply with BS 7206 or e be certified by the Irish Agr ment Board or e be certified by another accredited body as complying with Building Regulations Vented copper hot water cylinders should carry clear labeling on the product Vented cylinders which are not of copper construction should be labelled as complying with the heat loss and heat exchanger requirements of BS 1566 Due to the higher than normal storage temperatures in primary stores it is very important that these are well insulated 65 Table 31 continued Minimum provision Supplementary inform
72. ible heat loss indicated in the Supplementary Information column and labelled accordingly or to some lesser standard where practical constraints dictate Supplementary information Insulation for pipework in unheated areas Extra provision may need to be made to protect central heating and hot water pipework in unheated areas against freezing Further guidance is available in e BS 5422 2001 Method for specifying thermal insulating materials for pipes tanks vessels ductwork and equipment operating within the temperature range of 40 to 700 e BRE Report No 262 Thermal insulation avoiding risks 2002 edition Where insulation is labelled as complying with the Heating and Domestic Hot Water Systems for dwellings Achieving Compliance with Part L it must not exceed the following heat loss levels Pipe diameter OD mm Maximum permissible heat loss W m 8mm 7 06 10mm 7 23 12mm 7 35 15mm 7 89 22mm 9 12 28mm 10 07 35mm 11 08 42mm 12 19 54mm 14 12 In assessing the thickness of insulation required to meet the provision standardised conditions should be used in all compliance calculations based in this instance on a horizontal pipe at 60 C in still air at 15 C Insulation of community heating pipework i e distribution pipes outside the dwelling CH pipework should be insulated to the standards defined in EN 253 for pre insulated pipes or to an equivalent performance for conventionally insulated pi
73. ided using i Room thermostats or programmable room thermostats in all zones or ii a room thermostat or programmable room thermostat in the main zone and individual radiator controls such as Thermostatic Radiator Valves on all radiators in the other zones or iii a combination of i and ii above e Domestic hot water systems should be provided with a cylinder thermostat and a zone valve or three port valve to control the temperature of the hot water e Where more than one hot water circuit exists Each should have separate temperature controls e The use of non electric hot water controllers does not meet this requirement Also in some circumstances such as thermal stores a zone valve is not appropriate a second pump could be substituted as the zone valve For replacement systems where only the hot water cylinder is being replaced and where hot water is on a gravity circulation system a thermo mechanical cylinder thermostat should be installed A thermo mechanical cylinder thermostat should be installed Supplementary information An acceptable alternative to these controls is any boiler management control system that meets the specified zoning and temperature and boiler interlock control requirements 13 Table 3 Minimum provisions for insulation of pipes serving gas fired central heating systems Minimum provision In new systems pipes should be insulated as follows in line with the maximum permi
74. iency Underfloor heating Supply water temperatures to the underfloor heating system should be in the range 30 C to 40 C See section 7 of this guide on underfloor heating Radiators High efficiency radiators with high water volume should be utilized Supply water temperature to the radiators should be in the range 40 C to 55 C Space heating may be sized to meet all or part of the space heating load Secondary heating will be required if the heat pump is sized to meet part of the space heating load Fan coil units Supply water temperature to the fan coil units should be in the range 35 C to 45 C Fan coil units may be utilised for heating only or for winter heating and summer cooling b Installation i The water distribution system should be arranged for reverse return operation to maximise efficiency and ease commissioning and future maintenance ii Pipework not contributing to the space heating should be insulated to prevent heat loss following the guidance in note 1 at the end of this table iii If summer cooling is provided by the heat pump all water distribution pipework should be insulated to prevent condensation following the guidance in note 1 at the end of this table iv External pipework between the dwelling and the ground heat exchanger should be insulated following the guidance in note 1 at the end of this table v The ground loop water circuit should be protected with an antifreeze solut
75. igure 6 Suggestion for condensate soakaway drain Alternative ground level Ground level Section of plastic drain pipe Holes in side away from dwelling N Limestone chipping fill Connection to soakaway If none of the previous solutions are possible then a purpose made soakaway can be used The soakaway should be located as close as possible to the boiler but clear of the building foundations and not in the vicinity of other services such as gas electricity or water connections The position and presence of a soakaway must be taken into account when carrying out a risk assessment for installation of an oil storage tank The external pipework must be kept to a minimum and not more than 3m in length The pipe may be taken below or above the ground level An example of a suitable design of soakaway is shown in Figure 6 The necessary size for a soakaway depends to a large extent on the soil conditions although unlike a rainwater soakaway the soil does not have to accommodate large water volumes over short periods A size approximately 200mm in diameter and 400mm deep filled with limestone chippings will normally be sufficient A 18
76. in dwellings Definition of a heat pump A heat pump is a device that takes heat energy from a low temperature source and upgrades it to a higher temperature at which it can be usefully employed for heating and or hot water Heat pumps may supply all or part of the space heating load 8 1 Scope of guidance The guidance in this section applies to the following types of heat pump technologies Heat pump type Warm or Warm air hot water systems systems Ground Source Systems GSHP Ground to Ground to Heat energy is extracted from the ground using closed pipe loops buried water air horizontally in trenches or in vertical boreholes that are connected back to the GSHP The fluid circulating in the closed loop is normally a water propylene glycol antifreeze mixture or acceptable equivalent but some direct acting GSHPs use refrigerant Open loops may also be used to collect water from an aquifer and discharge via a separate aquifer downstream of the water table flow systems of this type normally require permits from the Environmental protection Agency Heat extracted from the ground may be supplied to a dwelling either by a water based heating system ground to water heat pumps or by an air distribution system ground to air heat pumps Waiter Source Systems WSHP Water to Water to air Heat energy is extracted indirectly from a water source using closed pipe loops water as a heat exchanger The closed loop is connected back to the
77. ion water storage units and packages e type of vessel e nominal capacity in litres e standing heat loss in kWh day e heat exchanger performance in kW e vented copper hot water cylinders should carry clear labeling on the product e vented cylinders which are not of copper construction should be labelled as complying with the heat loss and heat exchanger requirements of BS1566 d System a Central heating systems should be thoroughly cleaned and As defined for new systems Standards preparation flushed out before installing a new boiler BS 7593 1992 Code of practice for treatment of and water b During final filling of the system a chemical water treatment water in domestic hot water central heating treatment formulation should be added to the primary circuit to control systems corrosion and the formation of scale and sludge Reasonable provision would be to follow the guidance on how to prepare and commission systems given in BS7593 c Installers should also refer to the boiler manufacturer s installation instructions for appropriate treatment products and special requirements for individual boiler models d Where the mains water hardness exceeds 200 parts per million provisions should be made to treat the feed water to water heaters and the hot water circuit of combination boilers to reduce the rate of accumulation of lime scale 11 Table 1 continued Minimum provision for new systems in new and existing dwellings
78. ion and inhibitor as recommended by the heat pump manufacturer i The internal water distribution circuit should contain an inhibitor and may be protected by an antifreeze solution as recommended by the heat pump manufacturer c Domestic hot water For full heating the heat pump should be capable of supplying water in the range 60 C to 65 C If the heat pump is not capable of supplying water at these temperatures supplementary heating should be provided and controlled as described in other sections of this guide The domestic hot water system should include a tank thermostat and a time clock to optimise the time taken to heat the water e A pressurised water distribution system with expansion vessel is recommended e Constant water flow should be maintained through the heat pump e Pipe sizes should be in accordance with the manufacturer s recommendations Installation e Installation should be carried out by an installer approved by the manufacturer and a person qualified to carry out such work e f during installation access to the refrigeration circuit is needed a competent refrigeration and air conditioning engineer should carry out the work e Installation of the dwelling s water distribution system should be undertaken by a competent central heating specialist The heat pump may be utilised for all or part of the DHW load During the DHW heating period the heat pump may not necessarily be providing heated wate
79. ir flow failure protection for external air flow failure on air to air units e protection for water flow failure on ground to air and water to air systems External controls should include e room thermostat if not provided internal to the heat pump to regulate the space temperature and interlocked with the heat pump unit operation e timer to optimise operation of the heat pump Supplementary information further guidance on heat pumps EU Directives for Machinery Safety Low Voltage Pressure Equipment Electromagnetic Compatibility DEAP 2008 Sustainable Energy Ireland Www S i ie DEFRA Carbon Trust Energy Technology List Heat Pumps www eca gov uk EN 14511 Air conditioners liquid chilling packages and heat pumps with electrically driven compressors for space heating and cooling ISO 13256 Water source heat pumps testing and rating for performance Part 1 Water to air and brine to air heat pumps and Part 2 Water to water and brine to water heat pumps Best Practice Programme Good Practice Guide 339 Domestic Ground Source Heat Pumps Design and Installation of Closed loop System EN 378 Specification for Refrigerating Systems and Heat Pumps Safety and environmental requirements TIMSA HVAC Compliance Guide Revised Feb 2008 Available at TIMSA ORG UK 63 Section 9 Solar water heating This section provides guidance on the specification of solar water heating for dwellings 9 1
80. is likely to be less than 1 tonne per year However it should be stored in a dry and convenient location For further information on solid fuel appliances see Energy Efficiency Best Practice in Housing Domestic Heating by Solid Fuel Boiler Systems CE 47 47 Section 6 Community heating systems This section provides guidance on the specification of Community Heating CH systems in dwellings that if followed will satisfy the minimum requirements of Part L of the Building Regulations The sections in Part L dealing with central heating and hot water systems also apply to Community Heating Procedures for calculating the energy use and carbon emissions associated with Community Heating are included in the Dwelling Energy Assessment Procedure DEAP 6 1 Scope of guidance The guidance in this section applies to CH systems It covers CH using boilers as the heat source as well as those that use renewable heat sources such as biofuels heat pumps and solar panels or Combined Heat and Power CHP Guidance is provided for two scenarios e Where dwellings will be connected to a new CH scheme and e Where dwellings will be connected to an existing CH scheme Guidance given in the warm air heating or underfloor heating sections is also relevant to CH where these types of space heating systems are used with CH The remainder of this section providing guidance on CH assumes that a radiator system is employed similar to that for gas fired ce
81. ition in another room see table 1 11 For the chosen boiler position is an extended flue required gt 2m Note see table 1 for flue options not to be considered 12 Will a condensate pump or soakaway be necessary 13 Total Assessment Score If score is 3 or greater then the installation of a condensing boiler may be deemed not to be practicable 14 Declaration Form tick one box only Option A L I declare that the boiler is being replaced under manufacture s or installers guarantee within three years of the original installation date OR Option B I declare that there are no feasible condensing boiler installation options as defined by the assessment procedure because Option C _ I declare that I have considered all feasible boiler installation options in the property above and that the option defined in sections 9 to 12 of this form produces the lowest total score Signed Date Name in capitals Status agent or installer Notice to the householder Where option A has been ticked a like for like replacement boiler is reasonable Where option B has been ticked OR option C has been ticked AND the total assessment score in section 13 is 3 or greater this document may be used as evidence that installation of a condensing boiler has been assessed as not practicable Nevertheless you may choose to exceed the Building regulations requirement if a suitable installation option can be found Cond
82. ity heating Minimum provision for new systems Supplementary information 1 Zoning Dwellings with a total usable floor area up to 100m should be divided into at least two zones of which is assigned to the living area Dwellings with a total usable floor area greater than 100m should be provided with at least two space heating zones each having separate temperature controls In single storey open plan dwellings in which the living area is greater than 70 of the total floor area sub zoning of temperature control is not appropriate 2 Time control of space heating Time control of space heating should be provided by a full programmer separate timer providing timing control to space heating or programmable room thermostat s to the heating circuit s Where the hot water is produced instantaneously such as with a plate heat exchanger time control is only required for space heating zones Time control of domestic hot water heating using a cylinder is not considered essential for CH and could be a disadvantage with CHP based systems increasing the morning peak demand and hence causing more use of the boiler than necessary 3 Temperature control of space heating Separate temperature control of zones within the dwelling should be provided using i room thermostats or programmable room thermostats in all zones or ii a room thermostat or programmable room thermostat in the main zone and
83. kept to a minimum and not more than 3m in length The pipe may be taken below or above the ground level Any external condensate pipe work must be insulated to minimise the risk of freezing A 10 11 Assessment Form Calculation and Declaration Form This form may be used to show that it is not practicable to install a condensing boiler for the purposes of complying with Part L of the Building Regulations 1 Address of property to be assessed 2 Dwelling type tick one only Flat Mid Terrc _ End Terre Semi D Detached _ 3 Existing boiler fuel tick one only Ntrl Gas L LPG L Oil L Solid fuel None _ 4 New boiler fuel tick one only Ntrl Gas L LPG O oil O 5 Existing boiler type Wall Mounted L Back Boiler Floor standing O tick one only 6 Existing boiler position Kitchen Utility Room Garage Living room Bedroom tick one only 7 Is the most practical N A option to install the Yes L No L ae F boiler in another room no existing boiler L 8 If Yes to section 7 state Kitchen Utility Room Garage Living room Bedroom Other L new boiler position Other L Assessment of the practicality of installing a condensing boiler Yes 1 No 0 Is the dwelling a flat or mid terraced building 10 If a condensing boiler can be installed but only in a different position from the existing boiler is this pos
84. l heat supply from the heat pump would be 45 of the annual space heating demand Where a building or development contains more than one dwelling reasonable provision would be to show that every individual dwelling should meet the minimum provision from renewable energy technologies or the average contribution of renewable technologies to all dwellings in the building or development should meet that minimum level of provision per dwelling Where the latter approach is used common areas in the building are not included in this calculation 5 Solar 10 kWh m2 annum contributing to energy use for domestic hot water heating space heatingor cooling or 4 kWh m2 annum of electrical energy or a combination of these which would have equivalent effect Solar thermal panels can be used as the heat source for a centralised domestic hot water system Where a building or development contains more than one dwelling reasonable provision would be to show that every individual dwelling should meet the minimum provision from renewable energy technologies or the average contribution of renewable technologies to all dwellings in the building or development should meet that minimum level of provision per dwelling Where the latter approach is used common areas in the building are not included in this calculation 52 Table 23 Minimum provisions for controls systems within dwellings for commun
85. l installers of gas appliances must be a registered gas installer The installation should be carried out to the manufacturer s instructions and should comply with all other relevant parts of the Building Regulations and for wet systems local authority guidelines 2 1 Scope of guidance The guidance in this section applies to systems fuelled by natural gas and liquid petroleum gas LPG any requirements specific to either fuel type are identified The following types of gas fired heating systems are addressed e Wet central heating systems e Range cookers with integral central heating boilers e Warm air heating systems e Fixed independent space heating devices Where appropriate it may be necessary to refer to other sections in this guide covering community heating underfloor heating heat pumps solar water heating and micro CHP 2 2 Gas fired wet central heating systems This section provides guidance on the specification of gas fired wet central heating systems for dwellings that if followed will satisfy the energy efficiency requirements of the Building Regulations 2008 Terminology and applicability of guidance to different scenarios in new and existing dwellings The guidance in this section applies to the following situations a The specification of central heating systems in new dwellings this situation is referred to in this section as a new system b The specification of central heating systems in existing dwellings
86. l of the following conditions a The minimum provisions for control of the system and safe operating temperatures as given in Table 26 should be met AND b The minimum provisions for floor insulation and system design to minimise distribution losses should be met as outlined in Table 27 AND c For electric underfloor heating systems in new dwellings the minimum provisions for construction and controls as set out in Table 28 as applicable to the type of system Table 26 Minimum provisions for control of electric and wet underfloor heating systems Controls Minimum provision Supplementary information 1 System All floor heating systems should be fitted with suitable controls to ensure temperature safe system operating temperatures as follows controls e A separate flow temperature high limit thermostat is required for warm electric and water systems connected to any high water temperature heat supply wet floor i e operating at more than 60 C heating e Mixed systems containing both radiators and floor heating connected to systems a common high water temperature supply i e operating at more than 60 C should be provided with a separate means of reducing the water temperature to the floor heating system 2 Room e Each room should have its own temperature control device however it temperature may be acceptable for adjacent rooms with similar function to share a control thermostat or sensor e g separate kitchen and uti
87. lity areas electric and e Bathrooms or en suites which share a heating circuit with an adjacent wet floor bedroom will provide heat only when the bedroom thermostat is heating activated In such cases the bathroom or en suite areas should be fitted systems with an independent towel rail or radiator e Weather compensating controllers should be installed 3 Time control electric and wet floor heating systems e Dwellings with a total usable floor area of up to 100m should be divided into at least two space heating zones with independent temperature control one of which is assigned to the living area e Dwellings with a total usable floor area of greater than 100m should be provided with at least two space heating zones each having separate temperature controls e Single storey open plan dwellings in which the living area is greater than 70 of the total floor area sub zoning of temperature control is not appropriate e Thick screed floor heating systems gt 65mm should have facilities for automatic setback of room temperature to a lower level at night or during unoccupied periods Facilities for automatic setback of room temperature to a lower level at night or during unoccupied periods are recommended for both electrical and warm water systems 4 Boiler control wet systems only Warm water floor heating system controls should be interlocked with the boiler and stored hot water temperature control to en
88. ll air at 15 C 4 3 Electric heating systems other than central heating using electric boilers The guidance given in this section covers the following types of fixed electric heating systems e Electric warm air systems e Electric panel heaters e Electric storage systems including integrated storage direct systems Portable plug in appliances are not covered by this guide Fixed electric heating systems other than electric boilers in new and existing dwellings should meet the following conditions a Electric warm air systems should meet the minimum requirements for zone control and time and temperature control of the heating system as set out in Table 15 row a 35 Panel heaters should meet the minimum requirements for local time and temperature control of the heating system as set out in Table 15 row b Storage heaters should meet the minimum requirements for charge control and temperature control of the heating system as set out in Table 15 row c 36 Table 15 Minimum provisions for primary and secondary electric heating systems other than electric boilers Electric Heating System Minimum provision Minimum provision Supplementary information a Electric warm air systems 1 Time and temperature control either integral to the heater or external Provide either i a time switch programmer and room stat or ii a programmable room thermostat 2 Zone control
89. ly to appliances which have been converted from another fuel for example from solid fuel to oil In order to comply with the 2008 Building Regulations energy efficiency requirements oil fired vaporising appliances in new and existing dwellings should have the minimum provision of controls as given in Table 11a Table 11a Minimum provision of controls for continually burning oil fired vaporising appliances Appliance type Minimum provision Supplementary information Manually operated appliance The integral manual controls as Information about the use of e g room heater provided by appliance manufacturer controls should be clearly stated Electrically operated The integral and or remote thermostatic in the manufacturer s literature modulating controls as provided or specified by appliance e g room heater the appliance manufacturer Automatic ON OFF vaporising appliances a Room heater providing The integral thermostatic controls as secondary room space heating provided by appliance manufacturer b Room heater providing The integral and or remote thermostatic domestic hot water and controls as provided or specified by the secondary room space heating appliance manufacturer 28 3 5 Oil fired fixed independent space heating appliances This section provides guidance on the specification of oil fired fixed independent space heating appliances for dwellings Fixed independent space heating
90. mp it is recommended that condensate drainage from the fan coil units is provided Heating systems using a heat pump as the heat generator such as underfloor warm air and medium temperature radiator systems in new and existing dwellings should meet the following conditions a Electrically driven heat pumps should have a coefficient of performance of not less than 2 50 when operating at the heating system design condition AND b The minimum provisions for supply temperatures and for wet systems radiator efficiency in systems using warm and hot water heat pumps as the heat generator should be met as given in Table 29 row a AND 60 c The minimum provisions for installation should be met as given in Table 29 row b for warm and hot water pumps and as given in Table 30 row a for warm air pumps AND d Where warm and hot water heat pumps heat pumps are used to meet all or part of the domestic hot water load the minimum provisions for hot water should be met as given in Table 29 row c AND e The minimum provisions for control of the system should be met as given in Table 29 row d for warm and hot water heat pumps and as given in Table 30 row b for warm air heat pumps Table 29 Minimum provisions for warm and hot water heat pumps ground to water water to water and air to water systems Minimum provision Supplementary information a Supply water temperatur es and or effic
91. n a 100mm diameter stack and 250mm on a 150mm diameter stack Figure 3 Condensate connection to internal stack Internal trap Branch pipe gt 110mm for 100mm stack Pipe slope _ 450mm gt 21 2 deg on for up to 3 floors 100mm Internal stack Connection to external stack If the termination is to be to an external stack then in addition to the requirements for connecting to an internal stack extra care is necessary in order to reduce the risk of the drain becoming blocked due to the condensate freezing The length of pipe external to the dwelling should be kept as short as possible and not more than 3m Any trap in the drainpipe must be fitted within the dwelling In exposed locations the pipe should be protected with waterproof pipe insulation Connection to internal waste pipe Termination can be made via an internal discharge branch such as connections to a kitchen sink washing machine or dishwasher drain This is likely to be the most convenient method of connection and hence most frequently used A 16 It can be connected upstream or downstream of sink waste trap or other machine connection If practical it should be connected to the upper part of the pipe wall If it is connected upstream of sink waste trap then an air break is necessary between the sink trap and the boiler trap This is usually provided by the sink waste pipe itself as long as the sink has an integral overflow Figur
92. n it is moved to another room 1 point is added in the assessment form Examples e No points apply if a floor standing boiler in a kitchen is replaced with a wall hung condensing boiler in the same kitchen e point is added to the assessment total when a back boiler is replaced and the only feasible option is to install a condensing boiler in a different room It should be noted that when considering boiler locations for the purposes of the assessment procedure obstacles such as furniture and fitments must be ignored All boiler locations should be considered except those listed in Table 1 Note that once the assessment is complete the boiler can be installed in any location to meet householder preferences provided it meets regulations and manufacturer s installation requirements 10 Connection of condensate drain All condensing boilers require connection to a drain to dispose of the condensate Connections are typically to internal stack pipe waste pipe external drain or gully rainwater hopper that is part of a combined system i e sewer carries both rainwater and foul water e purpose made soakaway Where no suitable drain point is available a soakaway can be considered The soakaway should be located as close as possible to the boiler but clear of the building foundations at least 1m and more if possible and not in the vicinity of other services such as gas electricity or water connections The external pipe work must be
93. n or soak away There are a number of methods to overcome these difficulties and the assessment procedure and associated guidance is based on estimation of the practicability of these methods A3 Outline of the assessment procedure Is the condensing boiler to be a replacement in an existing dwelling or installation Is it difficult to install a condensing boiler in this dwelling or installation Is it possible to install a condensing boiler in this dwelling or installation Complete assessment checklist Does the assessment checklist demonstrate that the installation is not practicable Is customer willing to install a condensing boiler anyway Complete assessment form and declaration Install condensing boiler in position chosen by customer subject to Technical Guidance Install non condensing Document J boiler in position chosen by customer A4 5 Purpose of the assessment procedure Where installation of a condensing boiler is expected to be difficult an assessment should be carried out to see if a non condensing boiler would be accepted as reasonable provision in the circumstances In this case a correctly completed assessment form see Sect 11 is used to show whether or not use of a condensing boiler should be considered not to be practicable The form is also downloadable from the Department of Environment Heritage and Local Government website at www environ ie It is not necessary to c
94. nal pipework should have a minimum nominal diameter of 32mm Condensate pumps Where a boiler is sited in basement or a drain point cannot be reached by gravity a condensate pump can be considered Suitable units are now becoming available Pump manufacturer s instructions must always be followed CONDENSATE DRAIN TERMINATION Connection to internal stack preferred The stack to which the condensate pipe is to be connected must be in a material that is resistant to condensate such as the plastic materials suggested for condensate pipes A 15 Check whether the boiler incorporates a trap with a minimum condensate seal of 75mm If this trap has a seal of less than 75mm then an additional trap of 75mm must be fitted In this case a visible air break is necessary between the boiler and the additional trap Figure 3 The condensate drainpipe should not discharge into the stack lower than 450mm above the invert of the tail of the bend at the foot of the stack for single dwellings of up to 3 storeys If this is not visible then the height should be measured from the lowest straight section of stack that is visible For multi storey buildings this distance should be increased The connection to the stack should not be made in a way that could cause cross flow into any other branch pipe or from that branch pipe into the condensate drainpipe This can be achieved by maintaining an offset between branch pipes of at least 110mm o
95. nces are installed in a living area and designed to provide some useful heat from their case into the living area They vary in shape and size and can incorporate boilers connected to dual fuel integrated systems e g link up Multi fuel versions are also available Where requested open fires can be fitted These do not have thermostatic control and have lower efficiencies However they are able to burn wood logs with correspondingly low net carbon emissions It must be stressed that large open fires with large freeface areas see Note 1 usually have ventilation requirements well in excess of that available in a property built to modern standards of air tightness This is likely to lead to severe operational problems unless special steps are taken to provide the required air supply The use of such large simple open fires is penalised in the DEAP calculations Note 1 The free face area of an open fire is its open width times open height 46 Controls for solid fuel appliances providing secondary heating Wherever possible solid fuel appliances should have thermostatic control these are usually integral to appliances in categories E F and G Controls should be appropriate to the level of sophistication of the appliance automatic appliances can benefit from advanced controls Provision of fuel storage for solid fuel appliances providing secondary heating The quantity of fuel consumed by secondary heating appliances
96. ng those minimum requirements by insert name and or identification of Notified Body Warm air unit alone This product has been assessed against the test method set out in IS EN 778 1998 or IS EN 1319 1999 deleted as appropriate and certified as meeting the minimum requirements by insert name and or identification of Notified Body Installation a The system should be installed in BS 5864 2004 Installation and accordance with BS 5864 2004 b Ductwork that is newly installed or replaced should be insulated in accordance with the recommendations of BS 5422 2001 maintenance of gas fired ducted air heaters of rated input not exceeding 70kW net second and third family gases Specification BS 5422 2001 Method for specifying thermal insulating materials for pipes tanks vessels ductwork and equipment operating within the temperature range of 40 to 700 C 16 Table 5 Minimum provision for system controls for gas fired warm air heating System Minimum provision Warm air systems without water heating i Time and temperature control ii Zoning Time and temperature control should be provided by either i controls external to heater time switch programmer and room thermostat or programmable room thermostat or ii controls integrated in the heater time switch programmer and room temperature sensor linked to heater firing and fan speed control e New dwellings with a total usable
97. ning and time control and temperature control of the heating and hot water service circuits as described in Table 2 should be met An acceptable alternative to these is any boiler management system that delivers the specified zoning timing and temperature and boiler interlock control provisions When gas boilers are installed as part of a replacement system the minimum level of system controls should be provided as described in Table 2 unless they are already installed and fully operational If an individual component of the control system is being replaced in an existing system for example a room thermostat it is not necessary to upgrade the system to meet the minimum requirements AND g Pipework should be insulated as described in Table 3 Table 1 Minimum provisions for boiler efficiency system circulation hot water storage system preparation and commissioning of gas fired central heating systems in new dwellings and in existing dwellings where appropriate Minimum provision for new systems in dwellings Minimum provision for replacement systems in existing dwellings Supplementary information a Minimum acceptable efficiency a The boiler efficiency should be not less than 86 HARP b value The boiler efficiency for heating boilers that are combined with range cookers should be as defined in the section of this guide Section 2 3 Gas fired range cookers with integral central heating boilers of thi
98. nless otherwise stated the guidance in this section applies equally to appliances that burn wood wood pellets house coal manufactured smokeless fuels and anthracite Where appropriate it will also be necessary to refer to the sections on community heating underfloor heating solar water heating and micro CHP Terminology and applicability of guidance to different scenarios in new and existing dwellings The guidance in this section applies to the following situations a The specification of central heating systems in new dwellings this situation is referred to in this section as a new system b The specification of central heating systems in existing dwellings where previously space heating was not provided by central heating this situation is also referred to in this section as a new system c The specification of a replacement central heating system and or component in existing dwellings where central heating is already installed this situation is referred to in this section as a replacement system In situations a and b above the guidance for compliance of new systems in new and existing dwellings with Part L is the same In situation c above that is for replacement systems in existing dwellings in most cases the guidance for compliance with Part L is as for new systems unless otherwise stated in the relevant section In order to comply with the requirements of Part L 2008 a central heating system using a s
99. ntral heating systems 6 2 Definition of Community Heating CH A CH system is one that supplies heat to a number of dwellings from a common heat source It may comprise for example a system heating a block of flats or a larger scale system heating many buildings Systems that supply fewer than 15 dwellings from a central boiler system are not covered in this section of the guidance and the guidance given for individual dwelling heating systems should be followed for these applications where appropriate The guidance in this document assumes that the CH distribution system uses hot water as the energy carrier Hot water service systems may be generated centrally within each building or in individual dwellings Minimum provisions for connection of dwellings to a new CH scheme In order to comply with the requirements new CH systems to supply both new and existing dwellings should meet all of the following conditions a The minimum provisions for system design to maximise the efficiency of heat generation and minimise energy use by pumps should be met as given in Table 21 AND b Where the system uses low carbon heat sources e g CHP biofuels or heat pumps the minimum provisions for the lead heat generator should be met as defined in Table 22 AND c Where heating systems are to be installed for new dwellings the minimum provisions for control of the system should be met as given in Table 23 AND d The minimum provisions
100. ntrol Time control of space and water heating should be provided by As defined for new systems of space and i A full programmer with separate timing to each circuit water heating ii Two or more separate timers providing timing control to each circuit or iii Programmable room thermostat s to the heating circuit s with separate timing of the hot water circuit An acceptable alternative to these controls is any boiler management control system that meets the specified zoning timing and temperature and boiler interlock control requirements 33 Table 13 Minimum provisions for hot water storage for electric wet central heating systems Minimum provision for new systems and replacement systems Supplementary Information Vented systems including cylinders heated primarily by electricity 1 Vented copper hot water storage vessels should comply with BS 1566 or BS 3198 Vented cylinders in materials other than copper should also be labelled as complying with the heat loss requirements of BS1566 Electrically heated combination units should be insulated such that the heat loss does not exceed the value given by the formula 1 6 X 0 2 0 051V 3 kWh per 24 hours where V is the nominal cylinder capacity in litres Unvented systems including cylinders heated primarily by electricity Products should either comply with IS EN 12897 or meet the requirements of TGD D Materials and
101. o these controls is any boiler management control system that meets the specified zoning timing and temperature and boiler interlock control requirements 26 Table 11 Minimum provisions for insulation of pipes serving gas fired central heating systems Minimum provision In new systems pipes should in the following cases be insulated with insulation complying with the requirements of the Heating and Domestic Hot Water Systems for dwellings Achieving Compliance with Part L in line with the maximum permissible heat loss indicated in the Supplementary Information column and labelled accordingly e Primary circulation pipes for heating and hot water circuits should be insulated wherever they pass outside the heated living space or through voids which communicate with and are ventilated from unheated spaces e Pipes and ducts which are incorporated into wall floor or roof construction should be insulated e Primary circulation pipes for hot water service circuits should be insulated throughout their length subject only to practical constraints imposed by the need to penetrate joists and other structural elements e All pipes connected to hot water storage vessels including the vent pipe should be insulated for at least 1m from their points of connection to the cylinder or they should be insulated up to the point where they become concealed e f secondary circulation is used all pipes kept hot by that circulation
102. olid fuel appliance which is provided as a new system or replacement system in dwellings should meet all of the following conditions a The appliance should be from the categories D F G and J as defined in Table 16 AND b The appliance should have a minimum efficiency gross calorific value of no less than that specified in Table 16 for that category of appliance AND c The installer should confirm that the ratio of heat to room and heat to water is appropriate for the room and total property This will require reference to installation practice guidelines including calculation of room and property heat loss AND 40 d The minimum provisions for system circulation as given in Table 18 row a need to be met AND e the minimum provisions for fuel storage should be met as given in Table 18 row b AND f The minimum provisions for hot water storage and labelling of storage vessels as given in Table 18 row c need to be met AND g The minimum provisions for system preparation and water treatment as given in Table 18 row d should be met AND h The system should be commissioned in accordance with the minimum provisions given in Table 18 row e AND i The minimum provisions for control of the heating and hot water circuits as given in Table 19 should be met An acceptable alternative to these is any boiler management control system that meets the specified zoning timing and temperature requirements AN
103. omplete the form if a condensing boiler with a seasonal efficiency of 86 or greater is to be fitted The assessment gives a YES NO answer to whether it is impracticable to fit a condensing boiler in a particular building for a specified fuel natural gas LPG or oil If the answer is NO then a condensing boiler must be fitted unless some other way can be found to demonstrate that such a course of action would not be practicable in the particular circumstances If the answer is YES then either a condensing or non condensing boiler may be fitted Whatever the answer the boiler does not have to be fitted in the position shown on the assessment form which will have been chosen for least cost without regard for householder preference The complete boiler installation should however be installed in accordance with Part J of the Building Regulations Completed assessment forms should be retained by the householder since they may be helpful when the house is sold The rest of this Guide provides additional information on how to undertake an assessment and complete the form It provides important information on what should or should not be taken into consideration especially concerning arrangements for extended flues and condensate drains In all cases the installation of a boiler must be undertaken by a competent person observing regulations and manufacturer s instructions 6 How to carry out the assessment e The simplest way to c
104. or hot water the boiler and pump are switched off e The use of Thermostatic Radiator Valves TRVs alone does not provide an interlock As defined for new systems Space heating zones e Dwellings with a total usable floor area of greater than 100m should be provided with at least two space heating zones each having separate temperature controls e Single storey open plan dwellings in which the living area is greater than 70 of the total floor area sub zoning of temperature control is not appropriate As defined for new systems except where the boiler only is replaced in which case reasonable provision for a space heating system would be to control one zone Water heating zones e All Dwellings should have a separate hot water zone in addition to space heating zones e A separate hot water service zone is not required if the hot water is produced instantaneously such as with a combination boiler As defined for new systems Time control of space and water heating Time control of space and water heating should be provided by i A full programmer with separate timing to each circuit or ii Two or more separate timers providing timing control to each circuit or iii Programmable room thermostat s to the heating circuit s with separate timing of the hot water circuit Where hot water is produced instantaneously such as with a combination boiler time control is only required for heating zones As defined for new
105. oss in kWh day heat exchanger performance in kW vented copper hot water cylinders should carry clear labeling on the product e vented cylinders which are not of copper construction should be labelled as complying with the heat loss and heat exchanger requirements of BS1566 As defined for new systems Insulation of primary stores Because of the higher than normal storage temperatures in primary stores it is very important that these are well insulated Standards BS 1566 2002 Copper indirect cylinders for domestic purposes Open vented copper cylinders Requirements and test methods BS 7206 1990 Specification for unvented hot water storage units and packages 24 Table 9 continued Minimum provision for new systems in new and existing dwellings Minimum provision for replacement systems in existing dwellings Supplementary information d System preparation and water treatment a Central heating systems should be thoroughly cleaned and flushed out before installing a new boiler b During final filling of the system a chemical water treatment formulation should be added to the primary circuit to control corrosion and the formation of scale and sludge Reasonable provision would be to follow the guidance on how to prepare and commission systems given in BS7593 c Installers should also refer to the boiler manufacturer s installation instructions for appropriate treatment products and special re
106. pes CH pipework typically uses pre insulated buried pipe systems Minimum insulation thicknesses are defined in the EN standards Where pipework is run above ground the pipe insulation performance should be at least as high as that used in the buried part of the system Enhanced insulation standards should be evaluated where CH is supplied only from fossil fuelled boilers or where flow temperatures over 100 C are being used Designing for minimum heat losses from distribution pipework Heat losses can be reduced by optimising operating temperatures in conjunction with the need to minimize pumping energy Variable volume control systems will assist in maintaining low return temperatures While some bypasses may be needed to maintain the system in a hot condition ready to meet the demand these should be controlled to the minimum flow needed The use of temperature controlled bypass valves where the bypass only operates when flow temperature has dropped below a set level is recommended 55 Supplementary information Additional information is provided in the documents and standards listed below Good Practice Guide GPG 234 IS EN 13941 2003 IS EN 14419 2003 IS EN 253 2003 IS EN 448 2003 IS EN 488 2003 IS EN 489 2003 Guide to community heating and CHP commercial public and domestic applications Available from the Carbon Trust Design and installation of preinsulated bonded pipe systems for direct heating Dis
107. power input to the primary water control depending on space heating conditions d2 Boiler If the boiler also supplies DHW the system should have boiler As defined for new systems interlock control interlock in which controls are wired so that when there is no call for heat from either the space heating or hot water circuits where appropriate then the boiler and pump are switched off The use of Thermostatic Radiator Valves TRVs alone does not provide interlock 32 Table 12 continued Minimum provision for new systems Minimum provision for replacement systems Supplementary information d3 Zoning As defined for new systems e Dwellings with a total usable floor area of greater than 100m should be provided with at least two space heating zones each having separate temperature controls e Single storey open plan dwellings in which the living area is greater than 70 of the total floor area sub zoning of temperature control is not appropriate d4 Temperature Separate temperature control of zones within the dwelling should As defined for new systems control of space be provided using heating i Room thermostats or programmable room thermostats in all zones or ii a room thermostat or programmable room thermostat in the main zone and individual radiator controls such as Thermostatic Radiator Valves on all radiators in the other zones or iii a combination of i and ii above d5 Time co
108. quirements for individual boiler models d Where the mains water hardness exceeds 200 parts per million provisions should be made to treat the feed water to water heaters and the hot water circuit of combination boilers to reduce the rate of accumulation of lime scale As defined for new systems e Commissioning a On completion of the installation of a boiler or a hot water storage system together with associated equipment such as pipework pumps and controls the equipment should be commissioned in accordance with the manufacturer s instructions These instructions will be specific to the particular boiler and or hot water storage system b The installer should give a full explanation of the system and its operation to the user including the manufacturer s user manual where provided As defined for new systems Standards BS 7593 1992 Code of practice for treatment of water in domestic hot water central heating systems Site commissioning of oil fired appliances should always be carried out as it is critical for efficient operation 25 Table 10 Minimum provisions for control of oil fired central heating systems in new dwellings System Control Recommended provision for new systems Recommended provision for existing systems Boiler interlock e Boiler based systems should have boiler control interlock in which controls are wired so that when there is no demand for either space heating
109. r to the space heating system 61 Table 29 continued Minimum provision Supplementary information d Controls Heat pumps unit controls should include e control of water pump operation internal and external as appropriate e control of water temperature for the distribution system e control of outdoor fan operation for air to water units e defrost control of external airside heat exchanger for air to water systems protection for water flow failure protection for high water temperature protection for high refrigerant pressure protection for air flow failure on air to water units External controls should include e room thermostat to regulate the space temperature and interlocked with the heat pump unit operation e timer to optimise operation of the heat pump Note 1 The recommended insulation thickness for heating and distribution pipes should be 1 5 times the diameter of the pipe This is based on standard insulation materials with a reference thermal conductivity of 0 04 W mK Table 30 Minimum provisions for warm air heat pumps ground to air water to air and air to air systems Minimum provision Supplementary information a Installation e Minimum clearances adjacent to all airflow paths as recommended by the manufacturer should be maintained e Pipe sizes should be in accordance with the manufacturer s recommendations e The refrigerant pipework on split
110. r flue options particularly in flats wall construction may prohibit penetration e g pre stressed walls g Can the boiler be moved to another room to achieve satisfactory flue and drain connection h Can an internal boiler position i e not on an outside wall be used Is it necessary to have an internal vertical flue which penetrates the roof Connection to a suitable drain point may be more difficult in this case i Can the boiler be installed in an attic or loft area gas LPG boilers only If this is considered for the actual installation special requirements for access will apply j Is there a suitable outbuilding If this is considered for the actual installation connection to services will be more difficult and frost protection necessary Checklist 2 If there is no existing boiler the questions to be asked are a Can anew condensing boiler be installed without a flue extension b Can an extended horizontal flue be installed connected to a terminal on the same wall as the boiler or an adjacent wall c Cana vertical extended flue be installed Not on the front of the building see Table 1 d Can anon balanced extended flue be used where the flue outlet would direct flue products to a permissible position e When considering flue positions particularly in flats wall construction may prohibit penetration e g pre stressed walls f Can an internal boiler position i e not on an outside wall be used Is it n
111. r installation assessment using the abovementioned procedure Throughout this Guide the term householder in the case of non owner occupied dwellings shall be understood to connote the owner of the dwelling or their agent This Guide must not be interpreted as a set of regulations or restrictions on installation practice nor does it prevail over relevant installation standards or more specific instructions given by boiler manufacturers The completed boiler installation however must be installed in accordance with Part J of the Building Regulations 2 Existing commitments Installation of a condensing boiler is deemed not practicable where a prior contractual commitment in relation to the installation of a boiler was entered into prior to 31 March 2008 3 Possible installation difficulties It is sometimes more difficult to install a condensing boiler as a replacement to a non condensing boiler because e The flue gases discharged from the flue terminal are cooler and less buoyant and usually form a visible plume They may cause wetting of surfaces too close to the terminal or nuisance to neighboring property or to people passing nearby e An existing flue designed for a non condensing boiler is unsuitable for a condensing boiler and vice versa and the flue for a condensing boiler must not be shared with any non condensing appliance e A liquid condensate forms within the boiler and must be discharged to a suitable drai
112. ria set out in the Guide to the Condensing Boiler Installation Assessment Procedure for Existing Dwellings b System circulation a Systems for space heating and domestic hot water primary circuits should have fully pumped circulation b Ifthe boiler manufacturer s instructions advise installation of a bypass an automatic bypass valve should be provided in conjunction with any requirements for a minimum pipe length specified in the manufacturer s instructions As defined for new systems When boilers are replaced existing systems with semi gravity circulation should be converted to fully pumped circulation 23 Table 9 continued Minimum provision for new systems in new and existing dwellings Minimum provision for replacement systems in existing dwellings Supplementary information c Hot water storage a Vented copper hot water storage vessels should comply with the heat loss and heat exchanger requirements of BS1566 2002 b Unvented hot water storage systems products should i comply with IS EN 12897 or ii be certified by the Irish Agr ment Board or iii be certified by another accredited body as complying with Building Regulations c Standing heat losses should be restricted as defined in TGD L section 1 4 4 2 d All hot water storage vessels should carry a label with the following information type of vessel nominal capacity in litres standing heat l
113. rmation column and labelled accordingly e Primary circulation pipes for heating and hot water circuits should be insulated wherever they pass outside the heated living space or through voids which communicate with and are ventilated from unheated spaces e Pipes and ducts which are incorporated into wall floor or roof construction should be insulated e Primary circulation pipes for hot water service circuits should be insulated throughout their length subject only to practical constraints imposed by the need to penetrate joists and other structural elements e All pipes connected to hot water storage vessels including the vent pipe should be insulated for at least 1m from their points of connection to the cylinder or they should be insulated up to the point where they become concealed e f secondary circulation is used all pipes kept hot by that circulation should be insulated For replacement systems whenever a boiler or hot water storage vessel is replaced in an existing system any pipes in the situations above that are exposed as part of the work or are otherwise accessible should be insulated as recommended in this guide in line with the maximum permissible heat loss indicated in the Supplementary Information column and labelled accordingly or to some lesser standard where practical constraints dictate Supplementary information Insulation for pipework in unheated areas Extra provision may need to be made to
114. rs are replaced existing systems with semi gravity circulation should be converted to fully pumped circulation b System preparation and water treatment a Central heating systems should be thoroughly cleaned and flushed out before installing a new boiler b During final filling of the system a chemical water treatment formulation should be added to the primary circuit to control corrosion and the formation of scale and sludge Reasonable provision would be to follow the guidance on how to prepare and commission systems given in BS7593 c Installers should also refer to the boiler manufacturer s installation instructions for appropriate treatment products and special requirements for individual boiler models d Where the mains water hardness exceeds 200 parts per million provisions should be made to treat the feed water to water heaters and the hot water circuit of combination boilers to reduce the rate of accumulation of lime scale As defined for new systems c Commissioning a Manufacturer s instructions for commissioning should be followed and a commissioning record should be completed to show compliance b The installer should give a full explanation of the system and its operation to the user As defined for new systems d Controls As defined for new systems d1 Boiler The boiler should be fitted with a flow temperature control and be As defined for new systems temperature capable of modulating the
115. s guide Replacements not involving a fuel or energy switch The seasonal efficiency of the new equipment should be e as defined for new systems and e not worse than the seasonal efficiency of the controlled service being replaced If the efficiency of the system or appliance to be replaced is not known efficiency values may be taken from Table 4a or 4b of DEAP 2008 Replacement involving fuel or energy switch If the new heating system or heat generating appliance uses a different fuel the efficiency of the new service should be multiplied by the ratio of the COz emission factor of the fuel used in the service being replaced to that used in the new service The CO2 emission factors should be taken from Table 8 of DEAP 2008 the relevant column in Table 8 is titled Emissions kg COz2 kWh Guidance on identifying the HARP efficiency for an appliance The Heating Appliance Register of Performance Database is available online www SEl ie HARP and includes regularly updated information on most available boilers as well as many which are no longer in production Appendix 1 gives the approved procedure for establishing where exceptional circumstances exist This follows the criteria set out in the Guide to the Condensing Boiler Installation Assessment Procedure for Existing Dwellings b System circulation Systems for space heating and domestic hot water primary circuits should have fully pumped circulation If t
116. se in Ireland For new dwelling requirements in Part L of the Building Regulations 2008 guidance is provided on the design limits for building services systems referred to in Section 1 of Building Regulations 2008 TGD L Dwellings For existing dwellings guidance is provided on reasonable provision for the installation or replacement of controlled services as referred to in Section 2 of Building Regulations 2008 TGD L Dwellings Installation of a condensing boiler is deemed not practicable where a prior contractual commitment in relation to the installation of a boiler was entered into prior to 31 March 2008 This supporting document identifies standards of provision that meet the guidance for systems in new build and in those in existing buildings when work is being undertaken The levels of performance for new and existing dwellings differ only where practical constraints arise in existing dwellings while it is recognized that the guide covers a range of frequently occurring situations but alternative means of achieving compliance may be possible The status of alternative provisions is explained in the The Guidance section at the front of the Technical Guidance Documents This guide also references publications which include information on good practice for design and installation over and above the minimum regulatory provision 1 1 How to use this guide This guide covers compliance with the requirements of the Building Regulations 2008
117. section provides guidance on the specification of oil fired space heating and hot water systems in dwellings to meet the 2008 Building Regulations energy efficiency requirements All oil appliances must be installed by a suitably qualified person and the installation should be carried out in accordance with the manufacturer s instructions and comply with all other relevant parts of the Building Regulations and for wet systems Local Authority guidelines 3 1 Scope of guidance The guidance in this section applies to systems fuelled by oil The following types of oil fired heating systems are addressed Wet central heating systems Range cookers with integral central heating boilers Vaporising appliances providing secondary heating or hot water Fixed independent space heating devices Where appropriate it may be necessary to refer to the sections in this guide covering community heating underfloor heating heat pumps solar water heating and micro CHP 3 2 Oil fired wet central heating systems This section provides guidance on the specification of oil fired wet central heating systems for dwellings that if followed will satisfy the energy efficiency requirements of the 2008 Building Regulations Terminology and applicability of guidance to different scenarios in new and existing dwellings The guidance in this section applies to the following situations a The specification of central heating systems in new dwellings this situation
118. sed which have been approved by the boiler manufacturer Flue outlet Extended horizontal flue The flue and air pipes either concentric or twin are extended horizontally from the boiler to the external wall Whilst in many cases this would be connected to a wall terminal it could also connect to an external concentric vertical flue Plume diverter terminal A wall terminal that directs all the flue products at an angle The terminal will usually direct the products at an angle greater than 30 It is particularly useful where a terminal needs to be sited in an internal corner A plume diverter terminal can usually be sited closer to the corner than a standard wall terminal Plan view 30 to 40 A 13 13 Condensate drain connections CONDENSATE DRAIN POINTS During normal operation of the boiler condensate will be formed in the heat exchanger and flue The condensate formed depends on many factors although over four litres a day is not untypical This condensate is slightly acidic with a pH of between 3 and 6 similar to tomato juice and must be disposed of correctly Suitable drain points e internal stack pipe Figure 2 Condensate trap alternatives Internal trap gt 75 mm i Air break or hopper then use 38mm Me Gt Seige gan aaa Additional trap ra gt 75 mm If the drain is connected directly to an external gully Pipe slope __ gt 2i 2deg
119. should be insulated For replacement systems whenever a boiler or hot water storage vessel is replaced in an existing system any pipes in the situations above that are exposed as part of the work or are otherwise accessible should be insulated as recommended in this guide in line with the maximum permissible heat loss indicated in the Supplementary Information column and labelled accordingly or to some lesser standard where practical constraints dictate Supplementary information Insulation for pipework in unheated areas Extra provision may need to be made to protect central heating and hot water pipework in unheated areas against freezing Further guidance is available in e BS 5422 2001 Method for specifying thermal insulating materials for pipes tanks vessels ductwork and equipment operating within the temperature range of 40 to 700 C e BRE Report No 262 Thermal insulation avoiding risks 2002 edition Where insulation is labelled as complying with the Heating and Domestic Hot Water Systems for dwellings Achieving Compliance with Part L it must not exceed the following heat loss levels Pipe diameter OD mm Maximum permissible heat loss W m 8mm 7 06 10mm 7 23 12mm 7 35 15mm 7 89 22mm 9 12 28mm 10 07 35mm 11 08 42mm 12 19 54mm 14 12 In assessing the thickness of insulation required to meet the provision standardised conditions should be used in all compliance calculations based in this in
120. ssible heat loss indicated in the Supplementary Information column and labelled accordingly e Primary circulation pipes for heating and hot water circuits should be insulated wherever they pass outside the heated living space or through voids which communicate with and are ventilated from unheated spaces e Pipes and ducts which are incorporated into wall floor or roof construction should be insulated e Primary circulation pipes for hot water service circuits should be insulated throughout their length subject only to practical constraints imposed by the need to penetrate joists and other structural elements All pipes connected to hot water storage vessels including the vent pipe should be insulated for at least 1m from their points of connection to the cylinder or they should be insulated up to the point where they become concealed e f secondary circulation is used all pipes kept hot by that circulation should be insulated For replacement systems whenever a boiler or hot water storage vessel is replaced in an existing system any pipes in the situations above that are exposed as part of the work or are otherwise accessible should be insulated as recommended in this guide in line with the maximum permissible heat loss indicated in the Supplementary Information column and labelled accordingly or to some lesser standard where practical constraints dictate Supplementary information Insulation for pipework in un
121. stance on a horizontal pipe at 60 C in still air at 15 C 3 3 Oil fired range cookers with integral central heating boilers Oil fired range cookers with integral central heating boilers for space heating and hot water in dwellings Note the guidance applies only to twin burner cooker boilers which should not be confused with the type of range cooker described as a single burner dry heat range cooker The latter is intended to provide only a cooking function is not included in DEAP 2008 calculations and does not come within the scope of the 2008 Building Regulations energy efficiency requirements In order to comply with the 2008 Building Regulations energy efficiency requirements oil fired range cookers with an integral central heating boiler which are provided in new or existing dwellings should meet all of the following conditions a The appliance should have two independently controlled burners one for the cooking function and one for the boiler AND b The boiler should have a Seasonal Efficiency HARP value in excess of 75 The manufacturer s declaration of appliance performance and HARP value should include the following words e Seasonal efficiency HARP xx 27 e Case heat emission value yy kW e Heat transfer to water at full load zz kW e The efficiency values are used in the Dwelling Energy Assessment Procedure DEAP for the energy rating of dwellings The test data from which they h
122. sure that the boiler does not fire when there is no demand for heat for either space or water heating 57 Table 27 Minimum provisions for floor insulation and minimising distribution losses of wet and electric underfloor heating systems Floor insulation and design for reducing distribution losses Minimum provision Supplementary information 1 Exposed ground floors Ground floors on earth or suspended floors in contact with outside air should be insulated to limit downward heat loss to not more than 10W m resulting from thermal resistance of the applied floor finish The floor should achieve a u value of 0 15 Wim K ii When heat output is not known but the floor finish is specified the extra amount of system thermal insulation may be calculated using the sum of the thermal resistance of the floor finish and the thermal resistance of the underlying heated layer all multiplied by a factor of 10 iii Supplementary floor heating system thermal insulation may be supplied independently or added to the statutory floor insulation requirement iv Notwithstanding iii above floor heating systems intended for cyclical operation or installed over unheated rooms should be separated from the structural floor by a layer of thermal insulation of at least 1 25m K W thermal resistance and installed below the heated plane 2a Intermediate floors with heated rooms below Wet systems Intermediate floors with he
123. systems except where only the hot water cylinder is being replaced in a replacement system and separate time control for the hot water circuit is not present In this case it is acceptable to have a single timing control for both space heating and hot water Temperature control of space heating Separate temperature control of zones within the dwelling should be provided using i Room thermostats or programmable room thermostats in all zones or ii a room thermostat or programmable room thermostat in the main zone and individual radiator controls such as Thermostatic Radiator Valves on all radiators in the other zones or iii a combination of i and ii above For replacement systems where only the hot water cylinder is being replaced and where hot water is on a gravity circulation system a thermo mechanical cylinder thermostat should be installed Temperature control of hot water service system e Domestic hot water systems should be provided with a cylinder thermostat and a zone valve or three port valve to control the temperature of the hot water e The use of non electric hot water controllers does not meet this requirement Also in some circumstances such as thermal stores a zone valve in not appropriate a second pump could be substituted as the zone valve As a minimum provision a thermo mechanical cylinder thermostat should be installed Supplementary information An acceptable alternative t
124. tats but without low tariff anticipatory controls Construction Electric cable underfloor heating low tariff night energy storage systems should have a 65mm minimum thickness screed for correct operation Principal rooms containing 80 floor area should be assigned to low tariff heating cables and 20 of the floor area should be assigned to direct acting perimeter heating cables in order to maximise energy efficiency a Other areas should be assigned as low tariff heating cables only subject to heat requirements b Bathrooms and separate kitchens may have direct acting heating cables subject to heat requirements Controls Anticipatory controllers should be installed controlling low tariff input charge with external temperature sensing and floor temperature sensing Programmable room thermostats with over ride feature should be provided for all direct acting zones of the system with air and floor temperature sensing capabilities to be used individually or combined Anticipator controllers i e weather compensators reduce night energy storage as a function of external temperature c2 Electric cable direct acting non storage systems with individual room timer thermostat control in screeded floors Construction Direct acting electric underfloor heating cables should be installed within screeds of thickness not exceeding 50mm All heated floors should be insulated to the requirements shown in Table 27 above
125. tch E4 Auto F Batch automatic exceeding 3 5kW 7 5kW J1 2 3 Independent boiler batch Batch fed J4 Independent boiler 70 rising to above 20 5kKW Auto anthracite 75 J5 Independent boiler wood 65 Auto pellet 38 Supplementary information on solid fuel appliances Minimum efficiencies Individual manufacturer s efficiency figures may be higher than those indicated and should be used where independently certified against the harmonised European Standards now in place Carbon emission factors Solid fuels include various forms of woods coals and manufactured solid fuels and consequently there is a range of associated CO2 emission factors COz emission factors are as important as appliance efficiency when selecting a boiler Table 17 shows the CO2 emission factors for generic types of solid fuel recognised in DEAP see also table 8 in the DEAP manual Table 17 CO emission factors for generic types of solid fuel Solid fuel CO2 emission Notes kg CO2 kWh House coal 0 361 Traditional coal It burns with smoky flame Antracite 0 361 A mineral fuel with high carbon content Burns very cleanl Manufactured smokeless fuel 0 392 Mineral fuel usually made from anthracite Wood logs 0 025 Renewable wood logs either purchased or from own land Wood pellets in bags 0 025 Mechanically compressed sawdust Bulk wood pellets 0 025 As above delivered in bulk Multi fuel 0 289 A typical blend
126. that are combined with range cookers should be as defined in the section of this guide Section 3 3 Oil fired range cookers with integral central heating boilers Replacements not involving a fuel or energy switch The seasonal efficiency of the new equipment should be e as defined for new systems and e not worse than the seasonal efficiency of the controlled service being replaced If the efficiency of the system or appliance to be replaced is not known efficiency values may be taken from Table 4a or 4b of DEAP 2008 Replacement involving fuel or energy switch If the new heating system or heat generating appliance uses a different fuel the efficiency of the new service should be multiplied by the ratio of the COz emission factor of the fuel used in the service being replaced to that used in the new service The CO2 emission factors should be taken from Table 8 of DEAP 2008 the relevant column in Table 8 of DEAP 2008 is that titled Emissions kg CO2 kWh Guidance on identifying the HARP efficiency for an appliance The Heating Appliance Register of Performance Database is available online www SEl ie HARP and includes regularly updated information on most available boilers as well as many which are no longer in production Appendix 1 of the Heating and Domestic Hot Water Systems Achieving Compliance with Part L gives the approved procedure for establishing where exceptional circumstances exist This follows the crite
127. the fuel used in the new service before making the checks described in paragraph a or b above The CO emission factors should be taken from Table 8 of DEAP 2008 The aim is to discourage an existing appliance being replaced by a significantly less carbon efficient one Example A Liquid Petroleum Gas LPG fired boiler of 79 efficiency is to be replaced with an oil boiler post 01 04 08 The new oil boiler must i have an efficiency of not less than 86 Table 9 and also ii its carbon equivalent efficiency must be better than the existing LPG boiler The existing LPG boiler efficiency 79 therefore the carbon equivalent efficiency of the proposed new oil boiler must not be less than 79 To calculate the required efficiency for the proposed new oil boiler with DEAP 2008 fuel factors of Oil 0 272 kg CO kWh LPG 0 232 kg CO2 kWh The actual HARP approved new oil boiler efficiency must be greater than 79 0 232 0 272 79 0 853 92 6 The relevant column in Table 8 of DEAP 2008 is the one entitled Emissions kg CO2 kWh Section 2 Gas fired space heating and hot water systems This section provides guidance on the specification of gas fired space heating and hot water systems in dwellings All gas appliances should be installed by a competent person and in accordance with CER Criteria document THE REGULATION OF GAS INSTALLERS WITH RESPECT TO SAFETY When the Gas Installers Register is put in place al
128. ting systems should be thoroughly cleaned and As defined for new systems preparation flushed out before installing a new boiler and water b During final filling of the system a chemical water treatment treatment formulation should be added to the primary circuit to control corrosion and the formation of scale and sludge Reasonable provision would be to follow the guidance on how to prepare and commission systems given in BS 7593 c Installers should also refer to the boiler manufacturer s installation instructions for appropriate treatment products and special requirements for individual boiler models d Where the mains water hardness exceeds 200 parts per million provisions should be made to treat the feed water to water heaters and the hot water circuit of combination boilers to reduce the rate of accumulation of lime scale and the consequent reduction in energy efficiency e Commissioning a On completion of the installation of a boiler or a hot water As defined for new systems storage system together with associated equipment such as pipework pumps and controls the equipment should be commissioned in accordance with the manufacturer s instructions These instructions will be specific to the particular boiler and or hot water storage system b The installer should give a full explanation of the system and its operation to the user including the manufacturer s user manual where provided 43 Table 1
129. to satisfy the energy performance provisions of the Building Regulations for new and existing dwellings The TGD quotes the regulatory requirements where relevant for the sake of completeness These provisions are distinguished in the text by a grey background In cases of doubt however it may be necessary to refer directly to the Building Regulations as amended The TGD was published in 2008 in support of the amendments to the Building Regulations Statutory Instruments No 854 of 2007 The amendment came into force on 1 July 2008 Building Regulations 2008 TGD L Dwellings is more strategic in nature than previous versions and relies on support documents to provide detailed information on the minimum provisions necessary to comply with the requirements of the Regulations This guide covers conventional means of providing primary and secondary space heating and domestic hot water for dwellings in Ireland This guide is the supporting document referred to in Building Regulations 2008 TGD L Dwellings Par 1 4 1 as a source of guidance on the means of complying with the requirements of the Building Regulations for space heating systems and hot water systems The guide was prepared in consultation with relevant industry bodies The co operation of the UK authorities Department of Communities and Local Government is gratefully acknowledged in allowing the use of the information in its publication Domestic Heating Compliance Guide for official u
130. trict heating pipes Preinsulated bonded pipe systems for directly buried hot water networks Surveillance systems District heating pipes Preinsulated bonded pipe systems for directly buried hot water networks Pipe assembly of steel service pipe polyurethane thermal insulation and outer casing of polyethylene District heating pipes Preinsulated bonded pipe systems for directly buried hot water networks Fitting assemblies of steel service pipes polyurethane thermal insulation and outer casing of polyethylene District heating pipes Preinsulated bonded pipe systems for directly buried hot water networks Steel valve assembly for steel service pipes polyurethane thermal insulation and outer casing of polyethylene District heating pipes Preinsulated bonded pipe systems for directly buried hot water networks Joint assembly for steel service pipes polyurethane thermal insulation and outer casing of polyethylene 56 Section 7 Underfloor heating systems This section provides guidance on the specification of underfloor heating systems in dwellings 7 1 Scope of guidance The guidance in this section covers systems that use hot water as the energy carrier and those that rely on electric heating elements It should be used in conjunction with the guidance on central heating systems in the fuel based sections of this guide on gas fired oil fired solid fuel or electric heating systems Underfloor heating in new dwellings should meet al
131. ulation of pipes for community heating systems within dwellings and distribution pipework outside the dwelling Minimum provision In new systems pipes should in the following cases be insulated in the following cases be insulated in accordance with the recommendations in this guide in line with the maximum permissible heat loss indicated in the Supplementary Information column and labelled accordingly Primary circulation pipes for heating and hot water circuits should be insulated wherever they pass outside the heated living space or through voids which communicate with and are ventilated from unheated spaces Primary circulation pipes for hot water service circuits should be insulated throughout their length subject only to practical constraints imposed by the need to penetrate joists and other structural elements All pipes connected to hot water storage vessels including the vent pipe should be insulated for at least 1m from their points of connection to the cylinder or they should be insulated up to the point where they become concealed If secondary circulation is used all pipes kept hot by that circulation should be insulated For replacement systems whenever a boiler or hot water storage vessel is replaced in an existing system any pipes in the situations above that are exposed as part of the work or are otherwise accessible should be insulated as recommended in this guide in line with the maximum permiss
132. ully pumped circulation should be chosen b The manufacturer s instructions on the sizing and positioning of heat leak radiators should be followed c Solid fuel appliances should not be fitted to sealed heating systems with expansion vessels except where specifically permitted by the manufacturer or where a thermal storage interface device is used As defined for new systems Most solid fuel central heating systems require a heat leak radiator to dissipate heat from the smoldering fire bed This is commonly the bathroom towel rail and a thermosiphon system may be used for this circuit In some cases a fully pumped system reduces efficiency and should not be used b Fuel storage Provision should be made for storage of reasonable quantities of fuel in a convenient and dry location For wood a fuel storage capacity of at least 1 5m is required As defined for new systems No minimum quantity of fuel is specified for solid mineral fuel but bunkers greater than 250kg are preferred as below this householders are likely to pay a delivery premium c Hot water storage a Vented copper hot water storage vessels should comply with the heat loss and heat exchanger requirements of BS 1566 1 2000 or BS 3198 b Vented cylinders in materials other than copper should comply with the heat loss and heat exchanger requirements of BS 1566 c Unvented hot water storage systems products should e comply with IS EN 12897 or e b
133. um appliance efficiencies for gas fires used with back boilers National Standard designation appliance type Minimum efficiency gross calorific value Gas LPG Inset live fuel effect BS 7977 2 2003 Specification for safety and rational use of energy of domestic gas appliances Combined appliances Gas fire back boiler 40 63 41 64 All types except inset live fuel effect BS 7977 2 2003 Specification for safety and rational use of energy of domestic gas appliances Combined appliances Gas fire back boiler Supplementary information further guidance on gas fired heating Further guidance on gas fired heating systems is available in the following publications Energy Efficiency Best Practice in Housing publications e CE30 Domestic heating by gas boiler systems e CE51 Central heating system specifications CHeSS e CE54 Whole house boiler sizing method for houses and flats CORGI publications e Essential Gas Safety GID1 Gas Cookers and Ranges GID2 Gas Fires and Space Heaters GID3 Water Heaters GID5 Central Heating wet and dry GID7 Wet Central Heating System Design Guide WCH1 Warm Air Heating System Design Guide WAH1 Requirements relating to various aspects of the installation of condensing boilers are given in IS EN 813 British Standards BS 5440 Parts 1 and 2 BS 5449 and BS 6798 20 Section 3 Oil fired space heating and hot water systems This
134. w to satisfy the Building Regulations energy efficiency requirements when building new dwellings Effective from 1 July 2008 Section 2 of TGD L Dwellings 2008 gives guidance on how to satisfy the Building Regulations energy efficiency requirements when carrying out work in existing dwellings Effective from 1 July 2008 S I No 497 of 1997 as amended by the Building Regulations Part L Amendment Regulations S I No 259 of 2008 ensure the health safety welfare and convenience of people in and around buildings and reasonable provision for the conservation of fuel and power and access to and use of buildings by providing functional requirements for building design and construction In this document minimum provision refers to the provisions needed to demonstrate compliance of space heating and hot water service systems installed in dwellings with the Building Regulations 2008 energy efficiency requirements The commentaries labeled Supplementary information may be useful when interpreting the minimum provisions and in some cases provide links to best practice guidance An acronym for Dwellings Environmental Assessment Procedure which is the national methodology for calculating the energy rating of dwellings Section 1 3 The 2008 Building Regulations requirements and the guidance in TGD L Dwellings 2008 Sections 1 and 2 The Building Regulations relevant to energy efficiency are repeated for easy reference at th
135. water ISO TR Solar energy water heating systems guide to material selection with regard to internal corrosion 10217 1989 BS 8000 Workmanship on building sites BS 7206 Specification for unvented hot water storage units and packages BS 7671 Requirements for electrical installations BS 1566 Copper indirect cylinders for domestic purposes BS 4814 Specifications for expansion vessels using an internal diagraph for sealed hot water heating systems BS 7074 Application selection and installation of expansion vessels and ancillary equipment for sealed water systems BS 5422 Methods of specifying thermal insulation materials on pipes ductwork and equipment in the temperature range of 40 C to 700 C BS 5449 Specification of forced circulation hot water central heating systems for domestic premises IS EN 12831 IS EN 12828 BS 6701 Telecommunications equipment and telecommunications cabling BS 5970 Code of practice for thermal insulation of pipes and equipment BS 6700 Specification and design installation testing and maintenance of services supplying water for domestic uses within buildings and their curtilages 69 Section 10 Individual domestic micro combined heat and power This section provides guidance on the specification of micro combined heat and power CHP systems for dwellings At the time of writing the guidance for micro CHP is still under development and is expected to
136. water from the water heat pump The water source may be a lake pond or river or other stable water source The fluid circulating in the closed loop will normally be water but a water propylene glycol or acceptable equivalent antifreeze mixture may be used depending on operating temperatures Open loops may also be used subject to the permits being obtained from the Environmental Protection Agency Heat may be supplied to the dwelling by a water based heating system water to water heat pumps or by an air distribution system water to air heat pumps Air Source Systems ASHP Air to water Air to air Air source heat pumps extract heat directly from the ambient air Heat is supplied to the dwelling by a water based heating system air to water heat pumps or by an air distribution system air to air heat pumps Air to air heat pumps may be single package or split systems All heat pump systems are at their most efficient when the source temperature is as high as possible the heat distribution temperature is as low as possible and pressure losses in air and water systems are kept to a minimum If installed in a new dwelling heat pumps should use refrigerants complying with the provisions of EU Directive 2037 2000 Heat pumps should be CE marked in accordance with the relevant EU Directives where applicable e g machinery safety low voltage pressure equipment electromagnetic compatibility If summer cooling is provided by the heat pu
137. ystems sophistication should be appropriate to and compatible with the appliance The highest levels are only appropriate to appliances with automatic ignition Temperature control of space heating Separate temperature control of zones within the dwelling should be provided using i room thermostats or programmable room thermostats in all zones or ii aroom thermostat or programmable room thermostat in the main zone and individual radiator controls such as Thermostatic Radiator Valves TRVs on all radiators in the other zones or iii a combination of i and ii above No minimum requirement but as far as it is practicable and economic to do so controls should be upgraded to the levels defined for new systems Temperature control of domestic hot water e A cylinder thermostat and a zone valve or three port valve to control the temperature of stored hot water should be fitted e The use of non electric hot water controllers does not meet this requirement e Where permitted by the manufacturer the cylinder thermostat should be wired to provide a boiler interlock A method of temperature control should be provided to prevent excessive tap water temperatures As far as it is practicable and economic to do so controls should be upgraded to the levels defined for new systems In some circumstances such as thermal stores a zone valve is not appropriate a second pump could be substitut

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