Ventilation performance in A drying room

This project is the results OF one simulation from A more larger program OF work commissioned by Glaxo SmithKline ton study A proposed Design upgrade for existing Drying Room of facilities into the UK. This which the roofridge time that the group had envisaged the use OF search novel technology ton challenge A new Design before finally building and testing. Two factors were OF particular importance. Firstly, that the actual engineers involved facility readily understood the form OF the results OF thesis simulation the into the commissioning and operation OF. Secondly and most important, the costs were considerably less than the traditional alternative. Into normally use at operator works into the room processing the product. Into this instance the operator is carrying A tray OF "product". The "product" has been dried in A vacuum tray drier and is being taken tons of A sieve.If the product is spilt RK any time as the operator of handles it, or GET into the air during sieving itself, it CAN cause potentially hazardous contamination. The product is only safe once it is finally sealed into the bag or keg. This project enabled Glaxo SmithKline make some crucial Design decisions optimizing the ventilation performance prior ton the build and test phase. The approach has ton take into account Design constraints. Into this particular case the building already existed, limiting the room height and ACCESS locations. FLOVENT simulation determined how wave any airborne spillage is contained, allowing the designers and user ton minimize the risk ton the operator and maximize the safe working AREA within the budgetary constraints. Flomerics Ltd. address Germany Torsten Jaeschke, Dipl. Ing.