Filtre moléculaire cylindrique, résistant à la corrosion, rempli d'alumine activée ou de charbon actif Camfil. Il s'agit du filtre à air pour phase gazeuse le plus polyvalent, installé dans les systèmes d'alimentation, de recirculation et d'évacuation d'air pour les applications commerciales, industrielles et de transformation. Leur conception permet d'obtenir le meilleur coût total d’exploitation pour l'élimination des gaz corrosifs, odorants et irritants.
Article | Débit (m3/h) | Diamètre 1 (mm) | Longueur 1, Cylindrique (mm) | Perte de charge initiale (Pa) | Poids nominal (kg) | Poids nominal (lbs) | Humidité relative optimale (%) | Température optimale (°C) | Température optimale (°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.
Agroalimentaire Qualite de l air Batiments commerciaux et publicsQuel filtre à air pour quels polluants
Batiments commerciaux et publics Normes reglementations Formation experience Innovation technologie rechercheCase 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.