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Safety Code of Practice 46:Part 4: LOCAL EXHAUST VENTILATION
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1. following drawbacks e itis amechanical system and therefore prone to failure uUniversity of Reading 2015 Page 4 Safety Code of Practice 46 Part 4 LOCAL EXHAUST VENTILATION 2nd Edition September 2014 eit only extracts from the point of source and is therefore dependent on proper set up and control e itonly moves the hazard from the work location to another area i e vented to atmosphere at high level possibly on the roof of the building or to a filter pack making the filter pack then a hazardous waste product to be disposed of LEV should be installed where practicable where airborne workplace exposure limits WELs see Ref 2 EH40 Workplace Exposure Limits EH40 2005 Table 1 are still exceeded by the process after other controls have been putin place 4 1 System procurement HSE publication HSG258 section 5 Ref 1 gives detailed guidance on the procurement process that must be followed when buying LEV systems This includes the need for the employer i e the University to identify e other elements ofthe process that contributes to controlling exposure e operator s working practices e the nature ofthe contaminants and how they may be generated e exposure limits and any appropriate benchmarks for performance of the LEV e g a fraction of a WEL The system specification must include the need for e indicators to show that the system is working effectively e the LEV to be easy to u
2. mixed or shared extract stack systems an assessment of the need to restrict the use of certain substances must be undertaken to prevent the mixing of incompatible substances in the extract stack OUniversity of Reading 2015 Page7 Safety Code of Practice 46 Part 4 LOCAL EXHAUST VENTILATION 2nd Edition September 2014 e fume cupboards should never be used to store substances the potential for an electrical or mechanical failure leading to a build up oftoxic or otherwise hazardous substances is too great Records of all training including refresher training must be kept and only those trained are authorised in writing to use the system This applies to all users whether staff or students See the suggested training topics below Guidance Suggested training topics for use of LEV systems Training should cover the basics of The harmful nature of the substances being used or generated How exposure might occur How the LEV system works Methods of working that get the best out ofthe LEV How to check the LEV is working How to recognise that there may be a problem The consequences of the LEV failing What to do if something goes wrong Suggested checks and maintenance for LEV systems from INDG 408 Supervisor technician Make weekly and monthly checks identify the need for repairs correct deviations from the standard operating procedure record findings and actions Senior technicia
3. Health amp Safety Services E Readic of Reading Safety Code of Practice 46 Part 4 2 Edition September 2014 Work Equipment LOCAL EXHAUST VENTILATION Page 1 Safety Code of Practice 46 Part 4 LOCAL EXHAUST VENTILATION 2nd Edition September 2014 Contents MEE 0 R H 2 MMF CU CUO PER nat saebetihea chenstyaubeatbgssheatianel auheuabenstuactepal qneseatbetabeatignel nubesehetibeaedenananes 3 5 cieli E E A eee ete tere ete eee tee eet eee A ete ee ee 5 3 ISG SV uj 5 2 Mobile SYSTEMS 5 edad ed eteseteiet rettet rte dete bene rdte edet aei edec ede ed bae ld ede Pede edege debe 4 4 Requirements for LEV systems ertet eterne tenens 4 4l SystemiproGUrelImellL s erret titer rnit et beet ett tiene tinent reet rnt riti nnb anteire 5 A c iiis rel cien e PC 5 4 5 Installation and commissioning sss 5 4 4 Documentation eterne tentent tenerent rte tenete tentent 6 4 4 1 EXISEIRIGSVSESEIIS Sot scd eeetdtet tens hat eetetut aee AATE 6 4 5 Thorough examination and test teretes 6 54 HVS ALI ie USE maere depu ePO dune euI EE 7 SEMI idem 8 Appendix 1 O e e EE E EE IEE TEE icio 9 University of Reading 2015 Page2 Safety Code of Practice 46 Part 4 LOCAL EXHAUST VENTILATION 2nd Edition September 2014 1 SCOPE Code of Practice 46
4. Part 1 Management and Safe Use of Work Equipment describes the procedures for purchasing using and maintaining all types of equipment used at work including local exhaust ventilation LEV This document Part 4 gives more detail on the specific requirements that apply to LEV systems This should be read in conjunction with Part 1 and Code of Practice 49 parts 1 and 2 Fume cupboards and Code of Practice 14 Part 6 Microbiological Safety Cabinets 2 INTRODUCTION The primary purpose of an LEV system is to remove or dilute a hazardous substance from the immediate work place and hence prevent people inhaling airporne contaminants that could cause short or long term damage to health The hazardous substance may be gases dust and particulates aerosols vapours fume mist or other airborne contaminants The LEV system will not eliminate the hazard it just moves it to another location nor will the LEV protect against contact hazards There are basically two types of LEV capture or extract e capture systems are normally small local systems designed to provide point extraction They remove the substance from the point of generation to a filter pack or a capture container An example would be a welding operation with a telescopic trunk leading to a filter drum e anextract system is normally a larger system often built into the building and will normally be from a fume cupboard or booth The system will normally reduce the risk by dilution
5. ef 1 4 5 Thorough examination and test All LEV systems must have a statutory thorough examination and test by a competent person to comply with COSHH Thetimescale between examinations is 14 months in practice it is best to plan for annual examinations Where wear and tear may lead to degradation of the system more frequent examinations and tests may be required The objective of the testing is to find any significant defects and to have them remedied to regain control System examiners must be competent e g via British Occupational Hygiene Society BOHS and equivalent They will normally be an engineering inspector Schools Directorates must ensure that the inspector is informed of any risks from the system under test such as health risks from residues within the system and safety risks from the mechanical parts of the LEV work at height electricity etc A Permit to Work may be required depending on the LEV system The inspector must provide a record ofthe results including any remedial actions required Any Systems that fail must be clearly identified and if necessary isolated or locked offto prevent use Such repairs as required to achieve an acceptable level of control must be undertaken before the system is brought back into use All examination and test reports must be kept for at least five years by E amp F for fixed systems and by the owning department for mobile systems unless the department can readily acc
6. ess the results by other means e g on line University of Reading 2015 Page 6 Safety Code of Practice 46 Part 4 LOCAL EXHAUST VENTILATION 2nd Edition September 2014 Guidance Current practice is that where the annual inspection and test is carried out by the University engineering inspector currently RSA the test results are sent to E amp F for onward transmission to the School Unit E amp F also retain a copy The examiner must attach a test label to each hood when tested This should state test date and next test date Where the system fails the examiner must instead attach a fail label generally red to the hood 5 OPERATIONAL USE All users must be trained in safe operation of the LEV system Without an understanding of the aim and design parameters operators cannot use the equipment effectively thereby risking their health as well as the health of those around them Users of extract systems must assess the system holistically It is common for fume cupboards in alaboratory complex to share an extract system using balanced flow systems in such cases all the fume cupboards will eventually flow through the same stack The potential for vapours fumes and dusts to intermingle in an extract system must be considered and the potential for incompatible materials to mix must be removed by planning and communication with other users If there is a potential to intermix all hoods canopies enclosures e
7. he Schools that use those systems This includes marking of systems with test pass fail labels e specification of new systems that are supplied through E amp F e the provision of documentation e g engineering schematics performance standards O amp M manuals users manuals for new systems supplied through E amp F e Schools Directorates Units are responsible for e checking with E amp F that the LEV systems that they use are included in the register of items maintained inspected by E amp F e using LEV systems in accordance with the user manual operating instructions e checking that work undertaken in linked systems i e that discharge through common ducting stacks does not give rise to the mixing of incompatible substances e ensuring that work undertaken in LEV systems such as fume hoods is consistent with the level of protection control provided by that system e g flow rates are adequate to protect the worker e training or users in correct operating procedures This includes selection ofthe correct fume hood or cabinet for the proposed work and recognising when systems are operating effectively or are out of test e providing information about the type of work and risks from substances materials used in the LEV system to E amp F on request so that risks to FMF maintenance staff contractors and engineering inspectors can be assessed and managed e making safe any LEV systems before maintenance work is undertaken i e removing haza
8. n Area Identify problems receive regular reports from the Health and Safety Co supervisor technician check that maintenance and testing is ordinator Building Manager undertaken by E amp F confirm arrangements for thorough examination and test with E amp F E amp F MSD Arrange maintenance and repair inspections and thorough examinations for fixed systems Make results available to users Take systems out of use ifthey fail inspections tests 6 REFERENCES 1 Controlling airborne contaminants at work A guide to local exhaust ventilation LEV HSG258 HSE 2008 EH40 Workplace Exposure Limits EH40 2005 HSE 2005 P602 Basic Design Principles of Local Exhaust Ventilation Systems British Occupational Hygiene Society P601 Initial Appraisal and Thorough Examination and Testing of Local Exhaust Systems British Occupational Hygiene Society OUniversity of Reading 2015 Page 8 Safety Code of Practice 46 Part 4 LOCAL EXHAUST VENTILATION 2nd Edition September 2014 Appendix 1 Version control VERSION KEEPER REVIEWED APPROVED BY APPROVAL DATE X X H amp S Every four years XXXXX XX XX XX XX H amp S Annually XXXXX XX XX XX OUniversity of Reading 2015 Page 9
9. of the substance before venting it to the atmosphere The principal legislation is the Control of Substances Hazardous to Health Regulations 2002 as amended COSHH and supported by the Provision and Use of Work Equipment Regulations 1998 PUWER See Code of Practice 28 for further information on COSHH 49 parts 1 amp 2 and HSE guidance Controlling airborne contaminants at work Ref 1 for detailed guidance on the design management and use of LEV systems In laboratories where there are microbiological hazards the use of safety cabinets is mandatory where there may be exposure to aerosols of viable biological agents Safety cabinets are a form of LEV andare subject to the requirements for regular examination and testing specified by COSHH see code of practice 14 Part 6 3 RESPONSIBILITIES 3 1 Fixed systems Schools Units that use fixed LEV systems and E amp FEstates amp Facilities E amp F have a joint responsibility for LEV systems Fixed implies systems that are integralto the structure of the building from the point of capture in a fume hood to the ducting fans and motors power supplies and stacks vents E amp F are responsible for e arrangements for maintenance inspection thorough examination and repair OUniversity of Reading 2015 Page 3 Safety Code of Practice 46 Part 4 LOCAL EXHAUST VENTILATION 2nd Edition September 2014 e ensuring that the results of inspections and tests are communicated to t
10. rdous substances decontamination fumigation where necessary Tasks such as electrical isolation is the responsibility of E amp F E amp F will consult the user School Unit about the necessity for approving repairs maintenance following a formal inspection or examination This is because in some circumstances the School may decide to take equipment out of use orrestrict the type of work that can be undertaken with it rather than having it repaired 3 2 Mobile systems Mobile systems are those which cannot be regarded as part of the infrastructure of the building e g microbiological safety cabinets which are stand alone and not connected to ducting within the building Where there is any doubt the School Unit and E amp F must agree on responsibilities 4 REQUIREMENTS FOR LEV SYSTEMS The need for LEV must be as part of a COSHH assessment it is to be considered when other means have failed to reduce the hazard Under the COSHH regulations there is a Hierarchy of Control as follows e eliminate the use of the hazardous substance wherever possible e replace it with aless hazardous substance e enclose the process to reduce the potential for exposure to the hazardous substance e control the exposure of the substance at source using engineering means such as local exhaust ventilation LEV e provide adequate protective equipment such as respiratory protective equipment LEV has the
11. se clean check and maintain e the supplier to provide training to University staff in operational and maintenance procedures e the supplier to provide a user manual that describes and explains the LEV system including how to use it check maintain and test it along with performance benchmarks e the supplier to provide a logbook for the system to record the results of scheduled checks and maintenance 4 2 System design The principles of good design for different types of LEV are given in sections 6 and 7 of HSG258 Ref 1 Competent persons must be engaged to undertake system design An appropriate qualification is P601 nitial Appraisal and Thorough Examination and Testing of Local Exhaust System British Occupational Hygiene Society Ref 3 Other routes are via UKAS and CIBSE see Ref 1 4 5 Installation and commissioning Commissioning is proving that an LEV system is capable of providing adequate control Commissioning should cover both hardware checks and work practices and include verifying that the system is installed as designed showing that the LEV system meets the specified technical performance demonstrating that the system adequately controls contaminants reporting readings as benchmarks for subsequent examination and tests OUniversity of Reading 2015 Page 5 Safety Code of Practice 46 Part 4 LOCAL EXHAUST VENTILATION 2nd Edition September 2014 The LEV commissioning report together with
12. tc within the total system must be marked with adequate warnings Operational rules and instructions must be clear relevant and understood by all who may be affected by the contaminant being extracted Depending on roles they should cover the following points e howto achieve and check for acceptable airflow and control e identification of trained employees or contractors appointed to carry out checks maintenance and repairs including alarm testing e training requirements for operators supervisors and managers in the use checking and maintenance of the system e the frequency of checks maintenance and replacement schedules in the user manual must be adhered to e for materials with acute toxicity effects how to recognise that the system has failed e g alarms and airflow indicators and emergency actions to take ifthe extract fails e ifthe process changes the LEV system must be re commissioned and the users re trained Consideration must also be given to the possible need to clean the system of any residues from previous uses e arrangements for the annual thorough examination and test e procedures for implementing promptly any recommendations in the test report unless the system is to be downgraded or taken out of use e anyLEV equipment with a red fail label must not be used e all LEV systems must be clearly marked with a valid test re test date as positive indication that it is in test e in
13. the user manual is the basis ofthe statutory thorough examination and test see section 4 5 4 4 Documentation LEV systems need both a user manual and a system logbook or equivalent record system A user manual should include e simple getting started instructions for users e detailed technical information for service providers and maintenance repair engineers An LEV system logbook or equivalent should contain schedules and forms to keep records of regular checks maintenance and repair in accordance with predefined schedules These may include daily weekly and monthly checks for each item in the LEV system including both hardware and operator s working practices Both documents must be kept up to date and be readily available for reference by users or maintainers 4 4 1 Existing systems Where existing systems do not have any documentation the School Directorate and E amp F should agree how to obtain expert advice from the supplier engineering inspector or an occupational hygienist so that procedures for inspection maintenance and use can be prepared It is possible that the report of the annual thorough examination and test see section 4 5 below will provide the basis for a system logbook As a minimum existing LEV systems with no documentation must show effective control and have performance data measured and recorded Further information on user manuals and system logbooks is given in section 9 of R
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