Appendix 1 - University of Nottingham
Contents
1. circulating ducted Maise M Hand held tool Microbiological Safety eas extraction system Cabinet or recirculating j i fume cupboard gt k 4 Capturing hoods high velocity Vehicle exhaust extraction system Glove box Transportable extraction system e g Nilfisk Welding fume extract system Downdraught tables e g W ON N dissection table Weigh safe type system Note that this type of equipment is not suitable Fixed extraction Ducted extracted for controlling exposure to system S chemical storage woodworking hazardous substances cupboards machinery use for nuisance dust only c Uy ny Ti Wall window 4 mounted fans Spray booth i specifically provided to extract contaminants Solder fume extract system Page 9 of 12 Appendix Il INFORMATION REQUIRED FOR PROVISION AND DESIGN OF LOCAL EXHAUST VENTILATION School Dept Research group Responsible PI School Div Safety Officer The following information must be supplied by the PI to the SSO DSO in order to ensure that LEV is the correct means of controlling exposure and to provide the designer with the necessary information to ensure the LEV will be fit for purpose Proposed location of work Name and brief description of the Process es to be undertaken Details of2. The need for LEV should be identified as a result of risk assessment of the entire process This will include considering the following Hazardous properties of the substances and any intermediates involved Physical properties of the substances intermediates The quantities used Experimental procedures that may increase risk e g aerosol generation Equipment required for the process and its maintenance Foreseeable future changes to the process A risk assessment will be required in the following circumstances e Introducing a new process using one or more hazardous substances e Changing an existing process to use more hazardous substances e Purchasing new equipment or employing new techniques e Re siting or re locating an existing process equipment that uses extraction Page 3 of 12 e Re using existing ventilation equipment for a different purpose than it was designed for 3 Responsibilities The Head of School or management unit has ultimate responsibility for safety within the School or facility The Head of the Research Group Principle Investigator Pl is responsible for the safety of staff or students working with the process and consequently has responsibility for ensuring that any LEV identified as required by risk assessment is e fit for purpose i e designed installed and commissioned by competent persons e used correctly e subject to thorough examination testing and routine maintenance TExTM by competent persons
3. as required by the COSHH Regulations e subject to ongoing monitoring checks locally at suitable frequency as determined by risk assessment A preliminary risk assessment should be carried out for the process by the process owner Principal Investigator and or Head of the Research Group Appendix II will assist in ensuring that the relevant information is provided This assessment must then be made available to the School Safety Officer SSO who may draw on advice from the Safety Office in order to establish the correct means of controlling exposure This information will also form the basis of the information that will be provided to the LEV designer The result of this initial assessment could indicate that no additional extract is required and that natural ventilation will suffice or it may identify the need for some form of LEV 4 Design Where LEV is identified as being required it must be designed by a professional company that is competent in designing LEV systems and be able to provide evidence of this Suitable evidence would include membership of the following bodies e Chartered Institution of Building Services Engineers CIBSE www cibse org The main professional engineering body offering qualifications and membership to ventilation engineers e Building and Engineering Services Association www b es org formerly Heating and Ventilating Contractors Association HVCA www hvca org uk The main representative organisation for c
4. airflows has taken place The supplier will provide commissioning records to demonstrate that the equipment is effective 8 Commissioning Performance Tests Following installation it will be necessary to carry out various commissioning and performance tests to Verify that the system has been installed as per the initial design and Verify that the system meets the specified technical performance Verify that the system provides adequate control of the contaminants Provide benchmark readings for subsequent examinations and tests This LEV commissioning report should be undertaken by a company other than the designer supplier of the LEV This report together with the suppliers user manual is the basis for the ongoing annual TexTM A copy of the commissioning report user manual and log book must be given to the safety officer for inclusion in the School safety system 9 Documentation Following successful commissioning and performance tests the following documentation must be provided by the supplier to the end user A report that includes diagrams and a description of the LEV including test points details of the LEV performance specification results such as pressures and velocities at stated points calculations Page 6 of 12 e written descriptions of the commissioning the tests undertaken and the outcome Where necessary this should include air sampling results e a description of how operators should use the system so
5. explains the LEV system how to use check maintain and test it along with performance benchmarks and schedules for replacing parts Require the supplier to provide a logbook for the system to record the results of checks and maintenance 6 Supply Having specified a design the specification may be sent to a number of suppliers approved for the supply and installation of the equipment and to provide the information documentation and training specified in the design The designer may also act as a supplier Suppliers are to e Bea Specialist in the supply of LEV to laboratories and research institutions e Have successfully applied LEV to similar processes or activities e Be able to provide references testimonials or examples showing successful installation of LEV systems e Be members of a suitable trade association and subject to independent assessment such as the Building and Engineering Services Association formerly HVCA The suppliers or designer s more detailed specification should e provide technical drawings of the system e state the type of hood for each source its location or position face velocity static pressure Page 5 of 12 e include information on any constraints e g the maximum number of hoods in use at any one time e describe the ducts material dimensions transport velocity if appropriate and volume flow rate e include details of how the airflows in different branches of the LEV will be balan
6. inhaled 38 Irritating to skin 331 Toxic if inhaled 39 Danger of very serious irreversible effects 332 Harmful if inhaled 40 Limited evidence of a carcinogenic effect 334 May cause allergy or asthma symptoms or breathing difficulties if inhaled 41 Risk of serious damage to the eyes 335 May cause respiratory irritation 42 May cause sensitisation by inhalation 336 May cause dizziness or drowsiness 43 May cause sensitisation by skin contact 340 May cause genetic defects route if relevant 45 May cause cancer 341 Suspected of causing genetic defects route if relevant 46 May cause heritable genetic damage 350 May cause cancer route if relevant 48 Danger of serious damage to health by 351 Suspected of causing cancer route if prolonged exposure relevant 49 May cause cancer by inhalation 360 May damage fertility or the unborn child effect if known route if relevant 60 May impair fertility 361 Suspected of damaging fertility or the unborn child effect if known route if relevant 61 May cause harm to the unborn child 362 May cause harm to breast fed children 62 Risk of impaired fertility 370 Causes damage to organs organ if known route if relevant 63 Possible risk of harm to the unborn child 371 May cause damage to organs organ if known route if relevant 64 May cause harm to breastfed babies 372 Causes damage to organs through prolonged or repeated exposure organ if known route if relevant 65 Harmful may cause lung d
7. Risk Phrases RP and Hazard Statements HS and Workplace Exposure Limits WEL are contained within the Material Safety Data Sheets MSDS which is supplied with the substance Appendix I gives more detail of the RP amp HS The MSDS section 9 also contains information on physical properties of liquids e g flammability Solid substances usedinthe RP HS process WEL Dustiness low med high Is the particle size of the substance lt 100nm in 1 or 2 dimensions give detail Is the material a respirable fibre as defined in note below give detail Typical quantities used in process Does the process involve vigorous mixing shaking in open partially open vessel if YES give details Details Note The World Health Organisation defines a respirable fibre as an object with a length gt 5um width 3um and a length width aspect ratio gt 3 1 Page 10 of 12 Liquid s RP HS WEL Boiling Temp of Vapour pressure vapour density Flammability Explosive Typical quantities Volume of point reaction relative to air F HF EF limits used in process room Does process involve having large items of equipment Details which need to be accommodated within the enclosure if YES give detail where possible provide associated documentation e g brochure manual Does the process involve vigorous mixing shaking in Details open par
8. amage if 373 May cause damage to organs through swallowed prolonged or repeated exposure organ if known route if relevant 66 Repeated exposure may cause skin EU66 Repeated exposure may cause skin dryness or cracking dryness or cracking 67 Vapours may cause drowsiness and EU70 Toxic by eye contact dizziness 68 Possible risk of irreversible effects EU71 Corrosive to the respiratory tract Page 12 of 12
9. ced e describe any air cleaner specification volume flow rate and static pressure ranges at inlet outlet and across the cleaner e describe the fan or other air mover specification volume flow rate static pressure at inlet and direction of rotation of fan e describe how and where extract air is to be discharged safely out of the building or for systems that return air to the workplace provide information on air cleaner efficiency and sensors describe the indicators and alarms to be provided in the system provide information on the installation requirements provide adequate training in using checking and maintaining the LEV system provide both a user manual and a logbook 7 Installation The designer may also build and install the system or this may be carried out by another suitably competent organisation The contractor chosen to install the equipment must provide a suitable risk assessment and method statement for the work and appropriate risk assessments The operatives carrying out the work must be suitably trained and competent and must have undergone Estate Office Contractor Training In addition they must receive suitable safety induction training for the building where they are working from the School Safety officer or other nominated individual before work commences On installation the supplier should test the LEV to ensure it is working according to the specification and that any necessary balancing of the
10. f The University of Nottingham Reviewed November 2013 UNITED KINGDOM CHINA MALAYSIA POLICY AND GUIDELINES THE DESIGN INSTALLATION AND ONGOING MAINTENANCE amp TESTING OF LOCAL EXTRACT VENTILATION Contents Introduction amp Scope 2 Legislation 3 Responsibilities 4 Design 5 Specification 6 Supply 7 Installation 8 Commissioning Performance Tests 9 Documentation 10 Training 11 Thorough Examination testing amp Maintenance 11 1 Test frequency 11 2 Preparation 11 3 Information 11 4 University Arrangements 11 5 Routine Checks 12 Decommissioning 13 References 14 Appendix Types of LEV in University Appendix Il INFORMATION REQUIRED BY DESIGNERS Page 2 of 12 1 Introduction amp Scope This document has been written to ensure that the University complies with The Control of Substances Hazardous to Health COSHH Regulations 2005 and in accordance with HSE Guidance Controlling Airborne Contaminants at Work A Guide to Local Exhaust Ventilation HSG 258 Local Extract Ventilation LEV is the name given to equipment used to protect an operator from hazardous substances including dusts chemicals or micro organisms LEV can take a variety of forms depending on the type of contaminant process that it is to control exposure to Appendix shows a variety of different tyoes of LEV that may be in use within the University to control exposure and there
11. fore that will fall within the scope of this policy Contaminants which require exposure control may be in the form of gas vapour mist dust powders and nano materials and can include chemical substances carcinogens mutagens toxins flammable solvents and micro organisms 2 Legislation The requirements for control of exposure to dusts chemicals and micro organisms is detailed in The Control of Substances Hazardous to Health Regulations 2004 COSHH which set out a hierarchy for the means to control risk as follows In order of priority Eliminate the use of a harmful product or substance and use a safer one Use a safer form of the product e g paste rather than powder or a substance of lower risk Change the process to emit less of the substance Enclose the process so that the product does not escape Extract emissions of the substance near the source Reduce the number of people exposed Provide personal protective equipment PPE such as gloves coveralls and respiratory protective equipment RPE Note that PPE is the last resort and should not be considered as a substitute for the other control measures outline above RPE may be appropriate for emergency response situations or in addition to LEV to control residual risk NOaRONM gt Where it has not been possible to reduce risks using control approaches 1 3 above LEV may therefore be used in combination with an enclosure to meet the requirements of the COSHH Regulations
12. gner or process owner should produce a drawing of the area and the processes to be controlled The designer should visit the site to see the processes and any other extract equipment in the vicinity as these may affect the operating characteristics of the design or the equipment already installed If the design for the new equipment is to be incorporated into part of the existing extraction systems this must not compromise the effectiveness of the existing system nor allow contaminants to spread to other areas if the main extract system is not operational The design must take account of the supply and make up air systems as these can significantly affect the operation and containment capabilities of the LEV system 5 Specification The specification produced by the designer should Describe the process the contaminant its hazards and the sources to be controlled and how stringent the control needs to be The important chemical and flammable properties of substances and products appear in the Safety Data Sheet Require indicators to be fitted to show that the system is working properly Require the LEV to be easy to use check maintain and clean taking account of other risks e g accessibility skin contamination and waste removal and filter changing without spreading contamination Specify that the supplier provides training in how to use check and maintain the LEV system Require the supplier to provide a user manual that describes and
13. it works effectively A user manual with a general specification of what the LEV system is designed to control and how it achieves control It should include a description of the system with diagrams drawings as installed performance information from commissioning a description of checks and maintenance and replacement schedules including frequency a listing of replaceable parts and part numbers a detailed description of the specific statutory thorough examination and test requirements and exposure targets signs of wear and control failure e adescription of how operators should use the system so it works effectively A logbook that includes schedules for regular checks and maintenance records of regular checks maintenance replacements and repairs checks of compliance with the correct way of working with the LEV system the name of the person who made these checks Relevant sections of this information provided should be incorporated into the Standard Operating Procedure SOP for the process 10 Training Technical staff and operators must be trained by the supplier in how the LEV works and how to check and maintain it Training should cover the basics of the harmful nature of the substances used how exposure may occur how the LEV system works methods of working that get the best out of the LEV how to check the LEV is working the consequences of the LEV failing what to do if something goes
14. n the examiner must be informed accordingly about this and any PPE requirements to protect the examiner 11 3 Information Wherever possible the examiner should be provided with the following information e Commissioning report amp figures e User manual e System logbook e Confirmation there have been no changes to LEFV layout or process since last test On completion of the tests the examiner will attach the a test label to each LEV system hood which shows the date the test was undertaken date of next test and the name of the examiner They must also provide a written report for the local Safety Officer Where a LEV system fails the test the examiner must label the LEV accordingly and also verbally inform the local Safety officer technical manager that the equipment has failed 11 4 University Arrangements for LEV Testing Currently the Estate Office arrange for annual TExTM for ducted fume cupboards in all areas except embedded units in hospitals QMC amp CH which are organised by NUHT Estates Testing of all other LEV recirculating FCs Microbiological Safety Cabinets ducted amp recirculating capture hoods receiving hoods is arrange and managed locally by Schools departments 11 5 Routine checks at suitable intervals daily weekly monthly as determined by risk assessment must be undertaken by a suitable trained worker The nature of the routine tests will depend on the type of LEV but must be defined in the log book and re
15. ompanies installing ventilation systems including LEV e British Occupational Hygiene Society BOHS www bohs org For help with process and source assessment and LEV design and specification as well as qualifications in designing and testing LEV For general advice on choosing LEV systems e Safety Assessment Federation SAFED www safed co uk Represents many insurance companies doing independent engineering inspection and certification of machinery and equipment including LEV systems e Independent National Inspection and Testing Association INITA www inita org uk Represents companies doing independent engineering inspection and certification of machinery and equipment including LEV systems e Solids Handling and Processing Association SHAPA www shapa co uk Represents the major employers in LEV manufacturing Page 4 of 12 The designer should e Bea specialist in the supply of LEV to laboratories and research institutions e Have successfully applied LEV to similar processes or activities e Be able to provide references testimonials or examples showing successful installation of LEV systems e Be able to offer independent advice The process owner PI Head of Research Group will provide the designer with details of the work to be done and information about any environmental or fire and explosion requirements including safety data sheets and hazard information SOPs and details of all the plant and equipment to be used The desi
16. sults recorded The results of test measurements such as face velocities should be compared to the data provided at annual TExTM and any loss of performance or other defects reported immediately to the appropriate manager and the equipment taken out of use 12 Decommissioning Where LEV is no longer required and needs to be removed consideration must be given to the decontamination of the equipment The extent and type of decontamination required will depend on the nature of substances extracted by the system and the accessibility to the various parts of the system Decontamination of the LEV may be undertaken internally by suitably competent contractors or a combination of both A suitable risk assessment must be undertaken and information about the nature and quantities of substances used must be made available to those undertaking this process Where decontamination of any part of the system is undertaken in house this must be confirmed in writing to the contractor who will carry out the decommissioning works Page 8 of 12 13 References HS G 258 Controlling airborne contaminants at work A guide to local exhaust ventilation LEV INDG 408 Clearing the air A simple guide to buying and using local exhaust ventilation LEV L5 The Control of Substances Hazardous to Health Regulations 2004 14 Appendices APPENDIX Typical Examples of LEV that may be found in UoN Fully partial enclosing cabinet e g re
17. tially open vessel if YES give details Gases include gases used in the process and any RP HS WEL Flammability Explosive limits vapour Rate of release of Volume of waste gases produced by the process F HF EF density process gases and room relative to waste gases air Does process involve having large items of equipment Details which need to be accommodated within the enclosure if YES give detail where possible provide associated documentation e g brochure manual Page 11 of 12 R CHIP R phrases H CLP GHS Hazard H statements 20 Harmful by inhalation 300 Fatal if swallowed 21 Harmful in contact with skin 301 Toxic if swallowed 22 Harmful if swallowed 302 Harmful if swallowed 23 Toxic by inhalation 304 May be fatal if swallowed and enters airways 24 Toxic in contact with skin 310 Fatal in contact with skin 25 Toxic if swallowed 311 Toxic in contact with skin 26 Very toxic by inhalation 312 Harmful in contact with skin 27 Very toxic in contact with skin 314 Causes severe burns and eye damage 28 Very toxic if swallowed 315 Causes skin irritation 34 Causes burns 317 May cause an allergic skin reaction 35 Causes severe burns 318 Causes serious eye damage 36 Irritating to eyes 319 Causes serious eye irritation 37 Irritating to respiratory system 330 Fatal if
18. wrong 11 Thorough Examination Testing amp Maintenance TExTM The COSHH Regulations require that LEV systems provided to control exposure must be subject to thorough examination testing and maintenance at intervals to ensure that they remain effective at all times These tests must be carried out in accordance with any relevant British Standard or other Technical Standard by a competent contractor Suitable evidence of competence would be attainment of the BOHS P601 Module Initial appraisal and through examination and testing of LEV systems 11 1 Testing frequency The maximum time between such tests is considered as 14 months for most systems which in practical terms is taken to mean annually However if the wear and tear on the system is such that it is liable that effectiveness will degrade between tests or if the LEV is used to control exposure in very high risk processes e g processes using Hydrofluoric acid the tests should be carried out more frequently Page 7 of 12 11 2 Preparation for TExTM The LEV owner and examiner will need to co operate to ensure that risk are minimised for both the examiner and any local workers who may be affected by the work of the examiner LEV should be cleaned by the owner as far as reasonably practicable and suitable documentation provided to the examiner to this effect See Entry into Hazardous Areas policy Where residues that may be harmful to the examiner cannot be effectively removed the
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