Use and Limitation of Dilute Ventilation

               Dilution ventilation operates simply by diluting the contaminant concentration in the general
               atmosphere to an acceptable level. This is achieved by changing  the air efficiently in the
               workplace over a given period of time; for example, a number of complete changes every
               hour.

               The workplace air will be extracted by the use of fans set in the walls or roof, with fresh air
               being pumped in.

               The system is intended to remove gas contaminants (sometimes fumes) and keep the overall
               concentration of any contaminant to below the WEL and/or the concentration of a flammable
               substance to below its lower explosive limit. Where both a harmful and flammable substance
               is encountered, such as propanone (acetone), then control of the first objective will usually
               control the second.

               Dilution  ventilation  has  fairly  limited  use  as  an  effective  control  strategy  in  occupational
               hygiene.  It  can,  however,  be  used  with  reasonable  success  provided  the  contaminants
               conform, where applicable, to the following descriptions:

               •  The WEL of the harmful substance is high.
               •  The vapour pressure of a liquid is low, that is it has a low evaporation rate.
               •  The rate of formation of the gas product is slow.
               •  Operators are not in close contact with the contamination generation point.
               •  Any hazardous substance is carried swiftly away from the operator.

               Two important criteria have to be considered when contaminants are to be removed from a
               workplace using dilution ventilation:


               The rate of contaminant generation. This condition the number of air changes per hour
               required. Relevant factors in respect of the generation of contaminated vapour from liquids
               include:
               •  The  vapour  pressure  and  potential  to  evaporate  at  the  operating temperature  of  the
                 system.
               •  The surface area of the liquid in contact with the workplace air, including the potential
                 increase in surface area from spreading; for example, contact adhesives generate vapour
                 at a much greater rate after they have been spread over a surface, and complex metal parts
                 may have quite an extensive covering of solvent after they have been removed from a
                 degreasing bath.












                 POSHE V2|                                                                          Unit IG2 – Element 7 – Chemical and Biological   38
                  Agents