Page 1 Page 2 Page 3 Page 4 Page 5 Page 6 Page 7 Page 8 Page 9 Page 10 Page 11 Page 12 Page 13 Page 14 Page 15 Page 16 Page 17 Page 18 Page 19 Page 20 Page 21 Page 22 Page 23 Page 24 Page 25 Page 26 Page 27 Page 28 Page 29 Page 30 Page 31 Page 32 Page 33 Page 34 Page 35 Page 36 Page 37 Page 38 Page 39 Page 40 Page 41 Page 42 Page 43 Page 44 Page 45 Page 46 Page 47 Page 482 5 I ndustrial workspaces containing processes like commercial printing, saw- mills, and chemical and steel production, have emissions from equipment that is potentially both a health hazard to workers, and a workplace hazard for a flammable, explosive or corrosive atmosphere. Large-volume ventilation systems are a common solution. In high purity manufacturing environments, such as microelectronics or medical devices, high-efficiency, clean room filtration is employed. In microelectronics manufacturing, particulates are kept at an absolute minimum. Workers wear breathable jumpsuits made of filtration materials to keep skin flakes and other particles out of the clean room environment. We live in urban environments and air quality must be monitored and remediated when it becomes unhealthy. Filtration and separation technolo- gies, such as air ionizers are one of the many solutions. Automotive applications are numerous. Depending on the vehicle, as many as one hundred different filters may be deployed. Some filters are changed frequently, such as oil filters, intake air filters and cabin air filters, while other filters may last the life of the vehicle. Critical filters are used in diesel fuel/ water separators, fuel injectors, and fuel vapor recovery systems. All of these filters require different pore sizes and surface characteristics to meet the stringent specifications. 2 5 The largest filtration market segments in North America including separation and coalescing applications