A conical, corrosion resistant molecular filter filled with Camfil's activated alumina or activated carbon. They are the most versatile gas-phase air filter installed in supply, recirculation, and exhaust air systems in commercial, industrial, and process applications. The design provides the best total cost of ownership for the removal of corrosive, odorous, and irritant gases.
Item Type | Airflow (m3/h) | Diameter 1 (mm) | Length 1, Cylindrical (mm) | Pressure drop Initial (Pa) | Nominal weight (kg) | Nominal weight (lbs) | Optimum RH (%) | Optimum temperature (°C) | Optimum temperature (°F) |
---|---|---|---|---|---|---|---|---|---|
CamCarb XG 2600 SO2_H2S^³ | 2500 | 146 | 452 | 85 | 3.5 | 7.8 | 40-90 | 10-60 | 50 -140 |
CamCarb XG 2600 Acids_H2S^³ | 2500 | 146 | 452 | 85 | 3.5 | 7.8 | 40-90 | 10-60 | 50 -140 |
CamCarb XG 2600 VOC | 2500 | 146 | 452 | 95 | 2.3 | 5.1 | 0-70 | Max. 40 | Max. 104 |
CamCarb XG 2600 H2S_Mercaptans | 2500 | 146 | 452 | 95 | 2.4 | 5.3 | 40-90 | 10-60 | 50-140 |
CamCarb XG 2600 Acids | 2500 | 146 | 452 | 95 | 2.7 | 6.0 | 40-90 | 10-60 | 50-140 |
CamCarb XG 2600 VOC_O3_Acid_H2S | 2500 | 146 | 452 | 95 | 2.9 | 6.4 | 40-70 | 10-40 | 50-104 |
CamCarb XG 2600 VOC_O3_NO2_SO2 | 2500 | 146 | 452 | 85 | 2.3 | 5.1 | 0-70 | Max. 40 | Max. 104 |
CamCarb XG 2600 Bases | 2500 | 146 | 452 | 95 | 2.7 | 6.0 | 40-90 | 10-60 | 50-140 |
CamCarb XG 3500 SO2_H2S^³ | 3400 | 146 | 595 | 120 | 4.4 | 9.8 | 40-90 | 10-60 | 50-140 |
CamCarb XG 3500 Acids_H2S^³ | 3400 | 146 | 595 | 120 | 4.4 | 9.8 | 40-90 | 10-60 | 50-140 |
CamCarb XG 3500 VOC | 3400 | 146 | 595 | 125 | 2.9 | 6.4 | 0-70 | Max. 40 | Max. 104 |
CamCarb XG 3500 H2S_Mercaptans | 3400 | 146 | 595 | 125 | 3.0 | 6.7 | 40-90 | 10-60 | 50-140 |
CamCarb XG 3500 Acids | 3400 | 146 | 595 | 125 | 3.3 | 7.5 | 40-90 | 10-60 | 50-140 |
CamCarb XG 3500 VOC_O3_Acid_H2S | 3400 | 146 | 595 | 125 | 3.7 | 8.2 | 40-70 | 10-40 | 50-104 |
CamCarb XG 3500 VOC_O3_NO2_SO2 | 3400 | 146 | 595 | 125 | 2.9 | 6.4 | 0-70 | Max. 40 | Max. 104 |
CamCarb XG 3500 Bases | 3400 | 146 | 595 | 125 | 3.4 | 7.5 | 40-90 | 10-60 | 50-140 |
Restaurants have odours coming from a variety of sources and they all have one thing in common, they spread 'air pollution'. Odours are one of the leading causes of air pollution at restaurants or food courts and the odour profile from a kitchen depends on various factors.
Food and beverage Commercial and Public buildings Air qualityAwareness and regulations in the life science and pharmaceutical processes are essential as critical molecules in the mistaken place can cause failure of the production process which can be extremely harsh to the outcome. In the pharmaceutical and life science industries, clean rooms and laboratories are often used for various purposes. These cleanrooms are subject to a high level of cleanliness of numerous particles and molecules
Life science and healthcare Air qualityCase Study: Cannabis Cultivation. This key player in the industry operates one of the largest facilities in Canada, with over 150,000 square feet of space licensed for medical marijuana production. The process of growing cannabis produces a strong smell.
Case Study: Odour Solution For Pharmaceutical Company. There was a distinct odour in the manufacturer's lab and cold storage area, and employee complaints of nuisance odour eventually circulated to management where the concern was escalated.
Aftermath of flooding driver government office to turn to Camcleaner vertical air cleaners for eliminating mold odor