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Manual pewoV-max

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1. Troubleshooting Possible cause There is no flow on the primary side Shut off valves are closed Lack of differential pressure Strainer is dirty Differential pressure controller is closed Heat meter adapter is closed Primary valve is closed Primary valve does not open No mains voltage Pre fuse in the control cabinet is defective Overtemperature TR Overtemperature STM emergency function activated Control system is not activating the actuator Valve is activated voltage is applied to the emergency function Pressure limiter overpressure No primary secondary heat transfer No primary flow No secondary flow Hydraulic balancing No secondary flow Shut off valves are closed Sectioning valve is closed Strainer is dirty Circulating pump is not running Heating circuit closed by the customer No system pressure or leakages in the secondary network Circulating pump is not running Pump is not activated by the controller Pre fuse in the control cabinet is defective Pump control switched off or shut down Countermeasure After determining the causes open the shut off valves again Inform the energy supply company Clean the strainer in the primary flow Preload the differential pressure controller spring assembly Attention Please heed the max system pressure loss also refer to the operating instructions for the differential pressure controller Insta
2. AREA Fig 5 pewoV max terminal board 4 2 2 2 Control cabinet with terminal block O Electrical connections N neutral conductor for system components Electrical connections PE protective earth for system components Connections for temperature sensor Electrical connections for system components N i T GE LELEL ae e 6 6 EWEN mme OLS OL t ORCE a0 OIS OFC OS Oes Orar sw st Fig 6 pewoV max terminal block 4 2 3 Circuit diagrams For all components the connection terminals are pre installed in the control cabinet Please refer to the enclosed circuit diagrams for the respective configurations These form an integral part of the Technical documentation document not this manual Please refer to the Drawings section The circuit diagrams supplement the information given in the controller user manual and depict the wiring inside the control cabinet Only required connection terminals are installed so that only the built in terminals in the circuit diagram are relevant 4 2 4 Connection of network components e External temperature sensor Experience has shown that the north or north western wall is suitable for mounting the external temperature sensor In the case of multiple heating circuits with their own external sensor this must be installed on the corresponding side of the building The external sensor should be installed 2 to 2 5 m abo
3. 4 ET Output max in KW 55 60 63 75 Electrical connection 230 V 50 Hz max 80 W Dimensions WxHxD in mm 558x660x263 Weight in kg 30 0 32 0 33 5 35 5 V75 V100 V125 V150 Flow temperature primary 120 C 150 C secondary 120 C Nominal pressure primary 16 bar 25 bar secondary 10 bar Flow rate primary 3 8 m h secondary 7 0 m h Nominal pipe size primary 5 4 secondary 6 4 Flat sealing connections primary 6 4 ET secondary SE Output max in kW 105 135 170 195 Electrical connection 230 V 50 Hz max 80 W Dimensions WxHxD in mm 750x810x290 Weight in kg 55 0 57 5 62 5 67 0 i For the SAMSON volumetric flow controller and straightway valve PN25 Code PV3040 or DANFOSS volumetric flow controller and straightway valve PN25 Code PV3042 option The capacity of the pumps and actuators also connected to the pewoV max base module must be added Dimensions and weights refer exclusively to pewoV max with standard equipment 7 Service information 7 1 Maintenance Any procedures carried out on a PEWO system such as commissioning adjustment repair and maintenance may only be carried out by qualified specialist personnel from the heating engineering sector Danger y Working on electrical hydraulic systems poses a danger to life PEWO systems are items of technical equipment that need to undergo technical inspection and maintenance at regular intervals by an authorised expert in order to gua
4. Both networks are hydraulically separated by the plate heat exchanger used The plate heat exchanger used is made of stainless steel and covers a wide performance spectrum due to its long thermal length For optimum system control the secondary flow temperature sensor is installed against the volumetric flow directly on the plate heat exchanger A heating circuit manifold is integrated as standard The components of the pewoV max system are enclosed by a sandwich construction made of PUR foam Self supporting metal inlays in the form of stabilisers are incorporated in the back panel Fastening elements for mounting the system on the wall and drill holes for bolting the control cabinet are located here With the PUR foam insulation cover on 110 heat insulation is achieved in accordance with the Energy Saving Ordinance EnEV The control cabinet under construction can also be made lockable in combination with the insulation cover depending on the design The primary and secondary media connections are located at the top or at the bottom This design feature as well as its compact construction means that the pewoV max can also be installed in very tight soaces The connections available on site are connected to the system using a flat sealing screw joint and welding socket piece including a special high temperature O ring With the integrated strainers a fine mesh can be retrofitted on the primary and secondary side The safety valve is integra
5. FORTSCHRITT MIT ENERGIE MANUAL Installation operating and maintenance instructions for compact district and local heating stations pewoV max The illustration is presented as an example This system depicts equipment that is available at extra cost PEWO Energietechnik GmbH www pewo de Subject to errors and technical modifications pewoV max Version 1 0 09 14 Contents 1 2 2 1 2 2 413 4 2 2 1 4 2 2 2 4 2 3 4 2 4 5 1 5 1 1 5 1 2 5 1 3 5 2 5 2 1 5 2 2 0 3 0 3 1 9 3 1 1 9 3 1 2 5 3 2 5 3 3 YOUR SYSTEM FEATURES eebe reeche 5 BEFORE YOU BEGIN ee 5 Sne ele EE 5 Qualification and training Of personnel 6 DAILY WAS UCHONS SR EE tt en 6 SEINS ge EE eebe Ee 7 YOUR SYSTEM ne 9 FIONI WO it dd eee 9 Controlling mixed heating circuits cece cee cceceeeeeceeeeeseeeesseeeesseeeessaeeesaeeeesaaeees 9 Protection from overtemperature cccecccsecceeeceececeeeseeeceueeceeeceeceueeneeeseeesees 10 DHW generation with plate heat exchanger 10 OO OR a ace 10 EE D o N E MEE EE AEEA ATA AA Ce RR ee ea or ee eee E oem ere 11 Kelte Eu eil e Lean 12 INSTALLATIONS nent canette 15 ak tele leg ee nde EE 15 cener a tel d e RE 15 EE eege eege ee eege 15 Installation work and COMMISSIONING preparations 15 I CITICA CONGO E 16 SOUEEN 17 COMMOMCAD ING EEN 17 Control cabinet with terminal board 17 Control cabinet with termin
6. ained to operate the system Note It is recommended that a handover certificate is issued to the operator once the system Is installed An authorised company should be assigned with commissioning the system This is something that we at PEWO Energietechnik GmbH also undertake Please use the Order for Commissioning in the Technical documentation document Note z For long term best possible system operation we recommend entering into I a maintenance contract Any system irregularities can then be identified and remedied at an early stage 2 3 Safety instructions Failure to comply with the safety instructions and improper handling of the system which can lead to the malfunction of key system functions poses a risk to personnel This may also invalidate any warranty claims In particular if disregarded the following risks may lead to serious injury or even a life threatening situation resulting in death Danger h Risk of electric shock Danger due to water and or steam spurting out under high pressure Risk of burns due to hot water or steam or hot pipes and components Danger due to mechanical impact crushing Any procedures carried out on the system such as installation commissioning adjustment maintenance and dismantling may only be carried out by qualified specialist personnel Attention The system must only be installed in a frost proof dry and well ventilated room This room must conform to the req
7. al block ccccccceecccseeeeeeeeeeeeteeeeseeeesseeesaeesaeeeeas 20 lei alag LIN EE 20 Connection of network components 20 COMMISSIONING sde eut stade ne cat mince 22 FIMO and Mens MR MR A RSR an 22 LEONAN a eRe oe nee on ene En or eT en oo Oren eee Tn ot Deere or ere Pare 22 Balu SE 22 VOILM TIC TIOW CONMONC ss ss one ne ns nr ne ten 23 l CIHICAlCOMMISSIONINOS 2 E 23 Beleeger LS SES ne die nue nan eine a co te eu 23 Functional testing for factory wired systems sesssssesnseerrsrrrsrrerrrerrrsrrrerren 24 VOUS COMMISSIONING EE 24 Pima DIAG Late BE 24 Hydraulic balancing with control valve and differential pressure controller for flow Week leie CONTOUR Rae ee 24 Hydraulic balancing for a combined control valve with flow controller for flow Want e COMORES nn RE anni ends ete des dans tele ete ni 24 Secondary DAlANCIN G eane et ee ares a eid a 24 Hydraulic balancing of the domestic hot water heating system 25 elen Lei LN 26 7 1 7 1 1 7 1 2 7 2 7 3 7 4 SERVICE INFORMATION eessen deg 27 Vila EE Le Le 27 NAIM NAIC Ce WORK se cree ne seen eee een nie ne 0 a D ENE 27 Malfunction related or maintenance operations ccccccceeccseeeseeeseeeeaeeeneeesees 27 FTOUDISSNOOLINO BEE 28 Riet ail ne EE 29 Manufacturer information amp customer Service 30 1 Your system features pewoV max is a modular heat transfer station between the district or local heating network and the domestic heating sys
8. alve In a pipe system the shut off valve shuts off the flowing medium in the entire installation or in parts of it The shut off ball valve is a variant that is frequently used This blocks the flow of medium in pipelines or releases it again To achieve this a lever attached to the housing is operated manually by rotating it ninety degrees Due to their mechanical design ball valves are regarded as having excellent sealing properties A ball cuts off the flow using pressure Expansion vessel The expansion vessel regulates pressure conditions in a closed hydraulic system The medium in the pipe system expands at high temperatures and contracts again at low temperatures The expansion vessel compensates for this change in volume External temperature sensor The external temperature sensor is a measuring unit for determining the outside temperature The result is transmitted to a control unit or display unit The control unit uses the measured value to control the thermal behaviour of the medium in the system The sensor makes it possible for the system control to be guided by the outside temperature DDC controller Direct Digital Controller see Controller Differential pressure controller The differential pressure controller is a system component which controls the flowing medium in a pipe system without any external power supply It controls the constant value of the differential pressure between a pipe system s flow and return The differe
9. arried out further to consultation with the manufacturer Original spare parts and accessories authorised by the manufacturer PEWO Energietechnik GmbH serve to ensure safety The use of other parts may nullify the liability of the manufacturer of the system PEWO Energietechnik GmbH for any resultant consequences e Warranty Any warranty claim is subject to the system having been properly installed and commissioned in accordance with the relevant installation commissioning and operating instructions Necessary installation commissioning and maintenance work may only be carried out by competent and authorised persons e Transport and storage Transportation dimensions weights and installation openings or open space required to transport the system must be taken from the dimensional drawings The system is designed to be transported upright using a pallet truck Care must be taken that the system components and parts in the system are not damaged and that cables and wires are not yanked pinched or buckled during transport The system should be stored upright or lying on the frames in a dry frost free location We recommend covering the station with tarpaulin to protect it from dust and dirt During longer periods of storage the actuators and pumps must be moved manually in order to prevent the components becoming blocked Danger h The operational reliability of the supplied system is only guaranteed if it is used for the intended purpos
10. ave floor drainage Prior to installation check the system for any obvious damage In addition check that all detachable connections are secure and retighten them if necessary The system is flushed at the factory prior to delivery Prior to installing the system check that all pipelines for connection both from the district heating supplier and from the domestic system are flushed and free of particles Welding work must be carried out by certified welding personnel and in accordance with applicable standards Please pay particular attention to the following installation and processing instructions For welding work to be carried out correctly the earth cable return line must be connected close to the welding point Do not use bolted connections on the system for this e Ensure that no welding residues get into the pipeline e Open the shut off valve Make sure that there is sufficient heat dissipation upstream of the sealing components of the shut off valves e Pipeline connections to the system must be de energised Masonry that is capable of load bearing is required for mounting the system to the wall Dowels that are suitable for the wall should be used as fixing devices If the wall is not capable of load bearing the system must be mounted to a standing frame 4 2 Electrical connection Electrical connection work must only be carried out by qualified electricians Danger x Working on electrical systems poses a dang
11. ay mixing valve with OPP e errr eee ee 7 electric actuator Flow heating network alternative Return D heating network cass Mixed heating alternative circuit Pressure Oaug essesneererEeE EE EEE EE EE EE EE EE EE EE nee OTTEN Controller DDC controller a nnnEEERRRR RR RRE ERRR RR RR une fe Thermometer primary secondary for mmmnmunennednnnse flow return i Plate heat exchanger BER BRP PPR PRR CCC CCE EEE amp Volumetric flow controller with electric sssssseennusetuseeunucuumensusan actuator Diaphragm safety valve SnnnnnnnnnnRRRRRRRRRRRRRRRRRRKRRRRRRRRRR d in Heat meter adapter TEINT 6 Connection for external expansion yesse fnuuuuu 4uunnumn e eee d Strainer CEEEELLELLEEEEEEEEEEEEEEEEE rr rr yy tt bl Tet gw Non return valve ssesseesseemnmeemeeeee eee DST CTT CH D n da main a Venting and draining V IMISRELLELELELECEELELELELELEEELEEECCCCECEELEE ET CT TT CETTE Ball valves sonnnnnnnnnnnnnnmnnnnnnnnnnnnnnnnnnnnnnnnnnnnns TTT e Circulating DUMP LLLELELELELELEELELELELELELELEEE ELEC EEE EEE een g s n n G a ege Ball valves with thermometer sxnnnnnnnnnnnnnnnnnnnnnsnnnsnnnsnnnnnnnbnnn dr x ns l g Unmixed Return heating circuit heating network Flow heating Flow Return network heating heating circuit 2 circuit 2 Fig 1 pewoV max V75 3 3 Your system components Depending on function the components described below do not always form an integral part of your system Shut off v
12. d in the building s heating system e g hot water is no longer available contact the relevant installer or system operator for technical assistance Serial no FORTSCHRITT MIT ENERGIE Installation location eege S P rope rty pewoAqua L V ZW Description Serial No Date m 10 14 Max allowed pressure bar Max allowed temperature C prim 12 a sek 10 prim 120 sek 120 Nominal pressure bar Operating temperature C prim 16 e sek 10 prim 105 15 sek 60 10 Inspection pressure PT bar Mains volatge V prim 20 e sek 17 230V Max category accor pressure Test date equipmentART 3ABS3 Capacity KW DH DHW Nominal size DN DH 52 DHW 52 prim 15 sek 25 Property EI PEWO Energietechnik GmbH Geierswalder Stra e 13 02979 Elsterheide Germany Phone 49 3571 4898 0 Fax 49 3571 4898 28 Email info pewo de According to Modul A1 admission office 0036 Fig 7 Nameplate Our contact details Head Office PEWO Energietechnik GmbH Gewerbegebiet Neuwiese Bergen 02979 Elsterheide Germany Phone 49 3571 4898 330 Fax 49 3571 4898 28 Email service pewo de Note For long term best possible system operation we recommend entering into i N a maintenance contract Any system irregularities can then be identified and remedied at an early stage 31 FORTSCHRITT MIT ENERGIE PEWO Energietechnik GmbH
13. documented in the relevant parameter report In the event of a malfunction with the loss of controller data all the necessary information is thus immediately available again Incorrect or erroneous entries are also easier to detect and therefore prevent Flawless control of the system is guaranteed right from the start Check the settings of the limit switches if used of the connected actuators These are preset at the factory please refer to the operating instructions for the system components in the Technical documentation document Configure the capacity range of any connected pumps please refer to the operating instructions for the system components in the Technical documentation document This relates to the speed constant pressure proportional pressure and output Check that all system components actuators pumps sensors remote control alarm inputs alarm outputs etc are functioning properly 5 2 2 Functional testing for factory wired systems An insulation resistance test and protective earth continuity test are always carried out and recorded Please refer to the test log in the Technical documentation document for the readings Run through all manual functions Test all connected sensors The limit switches of the connected actuators are preset 5 3 Hydraulic commissioning Any procedures carried out on a PEWO system such as commissioning adjustment repair and maintenance may only be carried out b
14. e The limits specified on the system s nameplate must be complied with Attention The system must be transported using approved lifting equipment The system must be protected from moisture The system must always be stored in frost free conditions as residual water remains in the pipelines and system components after the system has been pressurised and flushed 2 3 1 Standards and directives PEWO systems are manufactured in accordance with the standards and directives in force Refer to the EC Declaration of Conformity in the Technical documentation document for information on this Furthermore the VDE regulations and technical connection conditions TAB of the local power supply company EVU also apply PEWO systems achieve superior heat insulation with the patented PST heat insulation PEWO Sandwich Technology They therefore conform to the principles of the Energy Saving Ordinance EnEV regarding improving the energy balance of buildings and systems for heating cooling air conditioning and lighting technology and also hot water supply Local conditions at the system installation site may affect this In this event appropriate measures must be taken to restore the required heat insulation If at customer request parts of the insulation are dispensed with the system s thermal insulation capacity changes 3 Your system The pewoV max is the connecting link between the district heating network and the domestic system
15. e facility provided Attention e Be very careful when opening the shut off valve a The primary valve is then closed After the return shut off valve has been opened slowly the primary valve is opened approximately 10 When network pressure is applied circulation must begin in the primary circuit The high pressure vent is then opened once again until there is no longer any air escaping Once the vent is closed secure it using the sealing cap supplied Both network shut off valves are then opened 5 1 3 Volumetric flow controller The flow limiter and the differential pressure are set as per the planning specifications for the domestic heating system or are defined by the operator To prepare for commissioning the volumetric flow controller e Open all valves on the consumer side Open the shut off valves first in the return line and then in the flow line 5 2 Electrical commissioning Electrical connection work must only be carried out by qualified electricians Danger x Working on electrical systems poses a danger to life 5 2 1 Parameterisation During commissioning tailor the weather compensated control system to the specific circumstances of the building heating curves usage times domestic hot water routing return flow temperature limitation sensor calibration e g in the case of an external sensor Please refer to the enclosed controller manual for the required parameter inputs Input data and parameters can be
16. e pump Actuator does not open No mains voltage Check fuse for the power supply Pre fuse in the control cabinet is Replace fuse defective Control system is not activating the Check control system also refer to the operating instructions for the control actuator system Actuator is activated Replace actuator also refer to the operating instructions for the actuator Actuators and pumps in the domestic hot water sector can be regarded as analogous to those in heating circuits If there is no heat transfer between the primary and secondary side of the domestic hot water load exchanger the respective volumetric flow rates must be adjusted Note if the load exchanger is calcified it must be replaced Control system is defective Information on the control system can be found in the manual for the specific controller 7 3 Dismantling Note system dismantling is subject to the approval of the relevant energy supply company Danger s Any procedures carried out on the system may only be carried out by qualified specialist personnel Failure to comply may result in death Prior to dismantling the system disconnect it from the mains and close the shut off devices for the primary and secondary network Do not dismantle the system until temperatures are lt 40 C Danger s Extremely hot system components Danger due to electric current 7 4 Manufacturer information amp customer service If any irregularities are detecte
17. ed to one another see hydraulic diagram in the Technical documentation document Depending on the service area storage tanks with internal heat exchanger pipe bundle storage tank double jacket storage tank etc can also be used For the balancing please observe the p V diagram for the system components in the Technical documentation document e Heat exchanger charging circuit The required volumetric flow rate is set at the sectioning valve of the heat exchanger charging circuit e Storage tank charging circuit The required volumetric flow rate is set at the sectioning valve of the storage charging circuit e Circulation The circulation system must incorporate backflow prevention in accordance with DIN 1988 200 This is to ensure that there is no drawing off of cold water via the circulation pipe Hydraulic balancing should also be possible in the circulation pipe due to the installation of circuit controls This ensures that all taps are uniformly supplied with the smallest possible volumetric flow circulating 6 Specifications The following table lists the specifications for the systems pewoV max V15 through to pewoV max V150 V15 V30 V50 V60 Flow temperature primary 120 C 150 C secondary 120 C Nominal pressure primary 16 bar 25 bar secondary 10 bar Flow rate primary 2 5 m3 h secondary 3 1 m h Nominal pipe size primary d secondary d Flat sealing connections primary 5 4 ET secondary 5
18. en the control valve Use the flow adjustment screw to set the volumetric flow at the differential pressure controller to the value specified in the planning documents for the domestic heating system Read off the value at the heat meter If reading off is not possible use the Volumetric flow setpoints table or the adjustment diagram for the differential pressure controller in the Technical documentation document H Direct system Open the thermostatic valves for all radiators connected to the domestic heating system Then proceed as described in Indirect system 5 3 1 2 Hydraulic balancing for a combined control valve with flow controller for flow limitation control Open the control valve Use the flow adjusting screw to set the volumetric flow at the differential pressure controller to the value specified in the planning documents for the domestic heating system Read off the value at the heat meter If reading off is not possible use the Volumetric flow setpoints table or the adjustment diagram for the differential pressure controller in the Technical documentation document 5 3 2 Secondary balancing Hydraulic balancing of the entire circuit is a basic prerequisite for the secondary heating circuits to be able to function optimally Set the pumps as per the plan for the domestic heating system pipe network calculation Documentation relating to this can be obtained from the planning office or from the sys
19. er to life Prior to beginning installation all components that need to be installed by the customer must be connected In particular this relates to the power supply via the terminal point in the customer s central electricity supply system Attention J The PEWO system should not run via site power supply Failure to observe a will void the warranty Note The system s mains cable and lines for system components which require i external wiring e g external temperature sensor are pre installed on the system and are routed separately to the outside If an extension is necessary this must be carried out professionally 4 2 1 Mains connection Mains connection work must only be carried out by qualified electricians in accordance with the local regulations the conditions laid down by the relevant energy supply company and the VDE regulations L1 phase e N neutral e PE protective earth Fig 2 mains connection terminals Danger x In the event of controlled circulating pumps only FI circuit breakers type B Lit may be used to protect the mains connection FI circuit breakers type A may not trip in time and therefore must not be used to protect personnel Further details are provided in DIN EN 50178 VDE 0160 4 2 2 Control cabinet Electrical wiring of the power supply and system components to the controller is implemented in two variants terminal board and terminal block E 1 CSS d HMR Ronro
20. ines the flow setpoint from the actual value of the outside temperature in the case of weather compensated systems even more readings e g wind and intensity of sun radiation and the heating characteristics You can find explanations about the heating characteristics in the controller user manual in the Technical documentation document The figures correspond to the system components of the P amp ID included in the Technical documentation document The flow temperature sensor 75 records the actual value of the flow temperature From this and the flow setpoint the controller determines the required control path for the actuator 72 of the three way valve This accomplishes a greater or lesser degree of admixture of the required flow temperature The return temperature sensor 75 is only provided on request This can be used to implement return temperature limitation In the event that a determined maximum return temperature is exceeded the control valve is force operated The flow temperature is reduced by force Once a day the controller carries out a forced pump mixer and valve operation This is particularly necessary during the summer months in order to be able to guarantee the mobility of the control elements at the start of the heating season Therefore the system also needs to be electrically connected and activated during the summer break 3 1 2 Protection from overtemperature If the permissible domestic system tempe
21. ll heat meter system should not be operated without heat meter See Primary valve does not open Check fuse for the power supply Replace fuse Set TR to control temperature Set STM to max temperature Check control system also refer to the operating instructions for the control system Replace actuator also refer to the operating instructions for the actuator Fix source of error reset pressure limiter See No primary flow See No secondary flow Primary and secondary volumetric flow rates must be configured Primary differential pressure controller or combined valve Secondary circuit controls After determining the causes open shut off valves again Set sectioning valve to the correct volumetric flow rate Clean the strainer in the secondary flow see Circulating pump is not running Checking of radiator valves and circuit controls by the customer Search for leakages and seal them then fill system please heed max pressure Check control system also refer to the operating instructions for the control system Replace fuse Check pump control also refer to the operating instructions for the circulation pump Fault Possible cause Countermeasure Pump mechanically locked due to Release pump by turning the shaft prolonged idle periods Pressure or temperature monitoring if Disengage pressure or temperature monitoring used triggered Pump is defective Replac
22. n Be e H Sana CHOLET Ela ase TT SC Or PE f EA 4 4 Haal 3 d wy B is G wd A H 3 vu Wl MY g i ce d KE ae ees vay ET Wa As SNR 7 emt E A Re L We E XV FO bas 3 TS ee ad i d KC CERTA EE g e i Mer F LC i AON a V oo 8 A di d M e f ee aer DAA E s kW SP D is x e s Sa Ri A Ki HR ER Dre RA lt Jet ASUS KR WA AM EC wit Le Al ZS ve S CH mit 4 z CH 23 f L F Tea DS ET LR A ee Kaf NH Hee Ra Fig 3 pewoV max control cabinet with terminal board left and with terminal block right In the control cabinet of the pewoV max all factory installed system components are prewired to the controller Additional components e g temperature sensor can be electrically connected in the control cabinet via the terminal board or terminal block 4 2 2 1 Control cabinet with terminal board On the terminal board are the electrical connections to the power supply for the system components and the connections for the temperature sensor The electrical connections to the power supply for the system components are arranged on the left hand side of the terminal board The grey terminals are for the electrical connection electrical conductor the blue terminals for N neutral conductor and the green terminals for PE protective earth The connections for the temperature sensor are arranged on the right hand side of the terminal board The connecti
23. ng basis This causes the cold medium to warm up and the hot medium to cool down Controller The controller also DDC controller uses a configurable programme to control the behaviour of the system Inputs are logically linked to outputs The system can be adapted to the local conditions by configuring the limits setpoints system type and other control characteristics Check valve Switching operations by system components result in varying flow velocities of the medium within pipe systems This can lead to unwanted reversal of the flow direction of the medium This results in great mechanical stress on the system components and pipe system The check valve prevents reversal of the medium flow direction The mechanical stress on the system is minimised Strainer Impurities can build up or get into pipe systems with flowing media This results in obstacles moving throughout the system clogging up system components Hence the need for strainers to ensure adequate protection With this type of fitting a filter medium is arranged at an angle against the direction of flow Wire cloth is used for this Safety temperature monitor STM The safety temperature monitor is a temperature limitation device It keeps the temperature in the domestic heating system below a maximum permissible value Automatic reset occurs upon activation after the sensor temperature has fallen below the set limit value by an amount equal to the differential gap A safety
24. ntial pressure is determined when planning the domestic heating system The differential pressure controller is normally employed in a valve in combination with a volumetric flow controller limiter Straightway valve In a straightway valve the flow rate of a medium within the pipe system is controlled via a valve cone The flow coefficient is determined by the geometric shape of the cone Continuous flow control is possible Filling and draining valve The filling and draining valve is used to fill the system for commissioning The individual pressure of the domestic heating system at the relevant pressure gauge must be noted during this process This must not be exceeded This valve can be used to empty the system for maintenance work Ball valve See shut off valve Adapter The adapter is pre installed at the factory as a placeholder in the system It s easy to install an additional system component at a later stage pewoTFS The PEWO Thermo Fluid System is a dynamic robust thermostatic temperature control system for DHW and space heating Plate heat exchanger The plate heat exchanger transfers thermal energy from a hot medium to a cold medium The energy is transferred between two physically separate material flows by means of a thermally conductive material They are separated by plates which are attached to each other Chambers are formed due to the constructive form of the plates Hot and cold media flow through these on an alternati
25. on terminals for a sensor are in the top and bottom row in pairs The inputs are indicated by B1 to B10 and the ground connection by COM Fig 4 pewoV max terminal board Note You can also find the following information on the terminal diagram glued i inside the control cabinet of the pewoV max Left terminal row connections Heat meter gt Safety thermostat 2 Pump heating circuit 1 Safety thermostat 2 Sera a Pump heating circuit 2 or circulation y pump in the case of controller PCRO6 Safety thermostat 1 Valve heating circuit 2 open L1 Valve heating circuit 2 closed Emergency stop valve 1 Storage tank charging pump Pump heating circuit 2 in the case of Valve heating circuit 1 open controller PCROG Valve heating circuit 1 closed Remove the prewired jumper when using a safety temperature monitor 18 Right terminal row connections External sensor 1 Release 2 Flow sensor secondary 1 Return flow sensor heating circuit 2 Return flow sensor primary 1 Storage tank sensor top 1 Room sensor heating circuit 1 Storage tank sensor bottom 2 Room sensor heating circuit 2 Release 1 External demand normally open contact e g for input of an external relay Flow sensor heating circuit 2 Note Please carry out visual inspection LA If the controller jt Samson TROVIS 5573 21 5 und X4 15 legan is used a jumper must be connected between the terminals X1 5 and X1 15
26. r must be observed To commission the system the following conditions must be fulfilled e The commissioning must be authorised by the district heating supplier e All bolted connections and attachments must be tightened e The system must be properly connected in terms of the pipework e All impurities and assembly residues must be removed from the pipelines e The district heating medium must be in contact with the primary shut off valves with the required parameters Attention The system may only be put into operation once a competent person from the energy supply company EVU or an expert has checked that the system is in good working order and once a competent person representing the domestic system installer or an expert from the trade supervisory office has checked that the domestic system is in good working order i du Note It is recommended that a handover certificate is issued to the operator once i the system is installed An authorised company should be assigned with commissioning the system This is something that we at PEWO Energietechnik GmbH also undertake Please use the Order for Commissioning in the Technical documentation document 5 1 Filling and venting Attention Please ensure that the system s shut off valves are closed at the start of commissioning This prevents any unwanted filling emptying of the system any potential pressure hammers are intercepted and slowly opening the valves du
27. r limiter is a system component which controls or limits the flowing medium in a pipe system without any external power supply The flow rate of a medium within a pipe system is controlled or limited The flow rate is the volume of medium that flows through a local cross section of the pipe system during a certain period of time The flow rate corresponds to the volumetric flow rate The volumetric flow controller limiter is usually used in combination with the differential pressure controller 4 Installation 4 1 Hydraulic connection 4 1 1 General information Note i When connecting to the district or local heating network the technical connection conditions TAB of the energy supply company EVU must be observed PEWO systems come with a high degree of prefabrication at the construction site This ensures that installation is quick and inexpensive All pipeline connections must be de energised Only use appropriate tooling so as to prevent mechanical damage to the system and eliminate the risk of injury Ensure that the system is installed in the correct position and that the connections are all leak tight Note Use sealing material specified by the operator or implement VDI Guideline 2035 Sheets 1 and 2 to determine the appropriate sealing material Prior to commissioning all primary connections to the local or district heating network all secondary heating circuits expansion vessels and where necessary hot water tank cold
28. rantee flawless function The system should be serviced at regular intervals at least once a year Danger Extremely hot system components Danger due to electric current 7 1 1 Maintenance work During maintenance work please observe the maintenance instructions and where applicable the separate maintenance cycles of components from the relevant manufacturer Regular maintenance includes e visual inspection for mechanical damage and corrosion in the system e checking the operating pressure of the system e inspecting the strainer e checking that the system s bolted connections are secure checking the inlet pressure in the expansion vessel only top up with nitrogen cleaning the house service connection room checking the electrical connections and inspecting the regulator valves including the regulator 7 1 2 Malfunction related or maintenance operations Any maintenance or inspection work carried out must be documented and the written proof deposited at an appropriate location in the equipment room or with the system operator When requesting the assistance of the PEWO factory s customer service the fitter must be provided on request with the maintenance and system documentation for inspection purposes In the event of system malfunctions whose causes are determined to be due to a lack of maintenance work or maintenance work that has been carried out incorrectly warranty claims cannot be accepted 7 2 Fault
29. rature is the same as or higher than the maximum network flow temperature then temperature protection of the domestic system is not needed If the domestic system temperature is lower than the maximum network flow temperature then the domestic system must be protected from overtemperature in accordance with DIN 4747 1 type tested temperature controllers or safety temperature limiters These components must then trigger an actuator with a safety function emergency function which closes currentless against the system pressure when triggered switching off the system 3 1 3 DHW generation with plate heat exchanger This DHW generation variant enables the provision of greater quantities of DHW such as those required in apartment blocks Its advantage lies in the relatively small dimensions of the system and relatively small storage tanks for providing large quantities of DHW The DHW is heated in the flow by the plate heat exchanger with hot water reserves available in the buffer tank even during peak periods The dimensions of the plate heat exchanger are such that when providing the necessary hot water temperature usually 60 C the exchanger s primary temperature does not need to go above 65 C maximum value 70 C which means that scaling in the exchanger is prevented or minimised even in the event of increased water hardness pewoV max systems feature thermal disinfection At a specified point in time the DHW secondary is hea
30. ring commissioning can ensure a faster response to any leaks 5 1 1 Secondary The secondary side of the system is filled via the installed safety filling device in the return line Air pockets may form in the domestic heating system during this process Please ensure that the system is vented For this please use a vent valve at a high point in the domestic heating system If a DHW charging system is connected this also needs to be vented The secondary side is filled to the intended operating pressure of the system If there is a minimum pressure limiter in the system this must be reset Attention 7 Air pockets in the domestic heating system can cause the pumps to run dry CSN This could end up destroying them please refer to the operating instructions for the system components Pay attention to the set pressure of the safety valve 5 1 2 Primary lf using a primary non return valve the system can only be filled via the network flow To prevent evaporation ensure that the system is filled with the flow shut off valve only slightly open Close the system s flow and return valves Open the primary valve and the differential pressure controller if used to the maximum stroke please refer to the operating instructions for the system components in the Technical documentation document then fill up the system by slowly opening the flow return isolation valve The enclosed air then escapes via the opened high pressure vent in th
31. sult the information given in the Safety instructions section as well as the notes highlighted in the individual sections 2 1 symbols used Danger signs and warnings are specifically indicated in the manual They must be read very carefully and taken into account Danger 7 This is a danger sign It indicates imminent danger If disregarded this can lead to serious injury or even a life threatening situation resulting in death Attention This is a warning It indicates potential danger If disregarded this can lead to serious injury or even a life threatening situation resulting in death Note i This is a general note It contains additional information on the section of text Danger signs and warnings directly attached to the system must also be read carefully and taken into account Care must be taken to ensure that these remain fully legible 2 2 Qualification and training of personnel All specialist personnel authorised by the operator who are involved in operation maintenance inspection and installation must be suitably qualified to carry out this work Personnel responsibilities competence and supervision must be clearly defined by the operator Personnel who do not have the necessary expertise must be trained and instructed If required the operator of the system may commission PEWO Energietechnik GmbH to take care of such training Furthermore the operator must ensure that authorised specialist personnel have been tr
32. ted into the structure with an exhaust pipe The control cabinet is made of sheet metal and designed with IP54 protection Installing certain controller models in the door panel results in IP40 protection The control cabinet has spare space for additional equipment for example a WLAN modem The controller and the thermometers for the primary and secondary side are embedded in the control cabinet door panel recesses and are therefore easy to read or operate from the outside The integrated controller model is preselected for the operations on site All systems are equipped with a weather compensated heating control system as standard The heat meter can be freely accessed and read from the outside 3 1 How it works The hydraulic set up of the pewoV max depends on the technical connection conditions of the district heating supplier and the technical requirements due to the district heating network parameters and the domestic system Selected functions of the pewoV max are described below 3 1 1 Controlling mixed heating circuits The flow temperature is controlled via the return admixture principle The control valve 72 on the three way valve bi is activated in a targeted way so that the required quantity of return water is added to the flow water This lowers the flow temperature in a controlled manner The external temperature sensor 6 provides the current outside temperature reading to the electronic controller 7 The controller determ
33. ted to a temperature of over 60 C for a specified period of time This greatly reduces the risk of legionella You can find more information in the controller user manual in the Technical documentation document 3 1 4 Heat meter The heat meter is set predominantly by the energy supplier The installation point for this is implemented as a placeholder in the system at the factory Devices for mounting the temperature sensor of the heat meter threaded socket immersion sleeve etc are also integrated in the transfer section When installing please observe the instructions and notes in the heat meter documentation 3 2 Set up The wide range of system variants that we offer means that we can fulfil customer requirements quickly and efficiently The following illustration is therefore an example of our pewoV max product line Please refer to the hydraulic circuit diagram P amp ID in the Technical documentation document to see the components and functions of your pewoV max system In the illustration the pewoV max V75 is shown with 1 mixed heating circuit and 1 unmixed heating circuit The system relevant components are identified Features size pipe layout etc may vary widely from the system that you have purchased Flow Return heating circuit 1 heating circuit 2 Ball valves with thermometer RnnnRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRelnnnnnb Circulating DUMP LLLELLEE ELLE ELEC ELEC ELEC ELEC EEE ELEC ELEC EEON CEE CCE 3 w
34. tem This is separated from the heating network by a plate heat exchanger heating circuit manifold is integrated as standard The primary and secondary media connections are located at the top or at the bottom Suitable modules such as heating circuits or domestic hot water heating can easily be connected to the pewoV max You can obtain these modules directly from us at PEWO Energietechnik pewoV max is manufactured using PEWO Sandwich Technology PST Pipelines and components are housed three dimensionally in a non corrosive sandwich style cabinet made of closed cell polyurethane foam Superior heat insulation is therefore achieved in accordance with the Energy Saving Ordinance EnEV If at customer request parts of the insulation are dispensed with the system s thermal insulation capacity changes pewoV max is supplied as a wall mounted version and where appropriate with free standing installation frames In both installation versions all the system components and operating elements remain accessible from the front maintaining ease of servicing post installation lf you have any questions please do not hesitate to contact us Your PEWO Team 2 Before you begin This manual contains basic information on setting up operating and maintaining the system As the operator s authorised specialist personnel please read it carefully Keep the manual with the system at all times so that information can be found quickly Please con
35. tem operator lf no documentation is available set the pumps so that 0 3 bar is available at the domestic heating system and 0 1 bar at the PEWO system As a general rule the pumps are set to proportional pressure In some applications e g underfloor heating constant pressure must be used Check that there is sufficient supply to the entire domestic heating system In the event of any irregularities e g noises or shortage of supply balance the system again If it is not possible to set each individual outgoing feeder separately then the total volumetric flow of the heating circuits must be set as a minimum requirement Note When operating with circulating pumps in the heating circuit the differential i pressure of the pump must be set before adjusting the sectioning valve Further details are provided in the separate instructions for the system components in the Technical documentation document 5 99 Hydraulic balancing of the domestic hot water heating system One of the most important requirements in district heating is a low return temperature At the smallest possible volumetric flow with big differentials the DHW production should be completed in a short charging time Energy should be transported no water In order to fulfil this requirement stratified storage tank charging systems should preferably be used The volumetric flow rates in the exchanger charging circuit and the storage charging circuit must be adjust
36. temperature monitor STM is a temperature monitor TM with enhanced security Diaphragm safety valve The diaphragm safety valve prevents the mechanical destruction of the domestic heating system in the event of increased thermal expansion of the flowing medium As a rule the diaphragm safety valve is closed If the system pressure increases inadmissibly the valve responds The set pressure is permanently set at the factory Once the system returns to permissible pressure the diaphragm safety valve automatically closes storage tank charging pump The storage tank charging pump is used to store the thermal energy of the flowing medium in a storage tank for DHW generation lf the setpoint at the storage tank sensor drops due to the consumer withdrawing DHW the storage tank charging pump is activated Actuator The actuator converts an electrical or hydraulic signal into a mechanical signal The flow of medium in a pipe system is controlled via mechanical impact on an actuating element in rotary or linear motion Temperature sensor The temperature sensor is a measuring unit for determining the temperature The result is transmitted to a control unit or display unit The control unit uses the measured value to control the thermal behaviour of the medium in the system The external temperature sensor makes it possible for the system control to be guided by the outside temperature Volumetric flow controller limiter The volumetric flow controlle
37. uirements of the district heating supplier and should be equipped in accordance with the design guidelines of the AGFW German District Heating Working Group The actuators on the valves must not be dismantled during operation This could result in them being destroyed Dismantling should only be carried out when the shut off valves are closed and when the system has cooled down The system must not be put into operation while it is dismantled The PEWO system should not run via site power supply Failure to observe will void the warranty Note i In terms of its electromagnetic properties the system is suitable for both the residential and commercial sectors e Safe working practice lt is essential to comply with the safety instructions listed in this manual the existing national regulations on accident prevention and the operator s own internal work operating and safety regulations lf there is any risk due to hot system components the customer must protect these components from being touched Make sure that there are no electrical power hazards VDE and local energy supply company regulations must be observed The operator is responsible for ensuring that all maintenance inspection and installation work is carried out by authorised and qualified specialist personnel who are completely familiar with the Technical documentation e Unauthorised conversion and spare parts use Any conversions or modifications to the system may only be c
38. ve the ground for multi storey buildings approximately in the upper half of the second storey Make sure that the sensor is not installed above windows doors or exhaust units and not beneath a balcony or the roof guttering Cables with a copper conductor cross section of 0 5 mm should not exceed 100 m in length A 2 core cable e g NYM O 2 x 0 5 mm2 is required Please refer to the controller user manual in the Technical documentation document Storage tank sensor For systems with domestic hot water heating insert the supplied cable sensors with heat conducting paste into the immersion sleeves of the hot water tank Room sensor room panel Information on connecting the room sensor or the room panel can be found in the controller user manual Circulation pump The circulation pump must be connected to the prescribed connection terminals in the control cabinet or controller as the pump is controlled by the control system Thus the circulation pump may not be operated during the stratified storage tank charging for example The output for the circulation pump is designed for a connected load of 1 A 230 V For larger outputs a connecting relay must be interposed where appropriate D Commissioning The primary circuit district heating side is commissioned by the energy supply company EVU The commissioning instructions in the operating instructions for the primary circuit valves differential pressure flow controller heat mete
39. water connections and circulation pipes must be connected Attention All secondary circuits must be flushed before being connected to the system When connecting a DHW heating system please observe DIN 1988 200 4 1 2 Hydraulic circuit diagram The system s operating principle is illustrated in graphical form in the hydraulic circuit diagram P amp ID The individual system components are specified in the circuit diagram This forms an integral part of the Technical documentation document Please refer to the Drawings section 4 1 3 Installation work and commissioning preparations Attention E Following welding work please ensure that the system s shut off valves are 5 closed This prevents any unwanted filling emptying of the system during commissioning any potential pressure hammers are intercepted and slowly opening the valves during commissioning can ensure a faster response to any leaks The system is delivered ready for connection mounted on a base frame It must only be installed in a frost proof dry and well ventilated room This room must conform to the requirements of the district heating supplier and should be equipped in accordance with the design guidelines of the AGFW German District Heating Working Group The system must be installed in such a way that there is sufficient space available for maintenance and operation The maximum room temperature must not exceed 40 C The installation room needs to h
40. y qualified specialist personnel from the heating engineering sector Following the initial application of temperature or pressure check that all connections are leak tight and retighten them if necessary Hydraulic balancing of the entire system is essential in order to achieve a fully functional heating system Only by precisely adjusting the volumetric flow rates can you achieve optimum power transmission and the best possible control system This is also the only way to guarantee the specified temperature differences and eliminate flow noise 5 3 1 Primary balancing The required primary side volumetric flow is set during commissioning by a representative from the energy supply company and if necessary secured against unintentional adjustment by sealing the valves 5 3 1 1 Hydraulic balancing with control valve and differential pressure controller for flow limitation control Indirect system Open the control valve 25 percent The flow limiter at the differential pressure controller must be fully open factory setting Set the differential pressure to the value specified in the planning documents for the domestic heating system Read this off at the corresponding pressure gauge If reading off is not possible use the setpoint adjustment diagram for the differential pressure controller in the Technical documentation document The setpoint cannot be changed in the case of a differential pressure controller with fixed setpoint Op

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