Introducing the CamCarb XG, now fully UL 900 approved to meet the most stringent fire and safety codes. Mitigate risk in your facility's HVAC system without compromising on the broad-spectrum VOC and odor removal you've come to expect from our activated carbon technology.A conical, corrosion resistant molecular filter filled with Camfil's activated alumina or activated carbon. They are the most versatile gas-phase air filters installed in supply, recirculation, and exhaust air systems for commercial, industrial, and process applications. The design provides the lowest total cost of ownership for the removal of corrosive, odorous, and irritant gases.
| Item Type | Airflow (m3/h) | Pressure drop Initial (Pa) | Nominal weight (kg) | Nominal weight (lbs) | Optimum RH (%) | Optimum temperature (°C) | Optimum temperature (°F) | ISO 10121 Ozone | ISO 10121 NO₂ | ISO 10121 SO₂ | ISO 10121 Toluene |
|---|---|---|---|---|---|---|---|---|---|---|---|
| CC XG 2600 VOC_O3_NO2_SO2^³ | 2500 | 85 | 2.3 | 5.1 | 0-70 | Max. 40 | Max. 104 | HD 95 | HD 70 | HD 85 | HD 95 |
| CC XG 2600 SO2_H2S^³ | 2500 | 85 | 3.5 | 7.8 | 40-90 | 10-60 | 50 -140 | - | - | - | - |
| CC XG 2600 Acids_H2S^³ | 2500 | 85 | 3.5 | 7.8 | 40-90 | 10-60 | 50 -140 | - | - | - | - |
| CC XG 2600 VOC | 2500 | 95 | 2.3 | 5.1 | 0-70 | Max. 40 | Max. 104 | - | - | - | - |
| CC XG 2600 H2S_Mercaptans | 2500 | 95 | 2.4 | 5.3 | 40-90 | 10-60 | 50-140 | - | - | - | - |
| CC XG 2600 Acids | 2500 | 95 | 2.7 | 6.0 | 40-90 | 10-60 | 50-140 | - | - | - | - |
| CC XG 2600 VOC_O3_Acid_H2S^³ | 2500 | 95 | 2.9 | 6.4 | 40-70 | 10-40 | 50-104 | - | - | - | - |
| CC XG 2600 Bases | 2500 | 95 | 2.7 | 6.0 | 40-90 | 10-60 | 50-140 | - | - | - | - |
| CCXG2600 ALDEHYDES^³ | 2500 | 85 | 3.5 | 7.8 | 40-90 | 10-60 | 50 -140 | ||||
| CCXG2600 FORMALDEHYDE^³ | 2500 | 85 | 3.5 | 7.8 | 40-90 | 10-60 | 50 -140 | ||||
| CCXG2600 Acids_SO2_H2S | 2500 | 85 | 3.5 | 7.8 | 40-90 | 10-60 | 50 -140 | ||||
| CCXG2600 ETHYLENE^³ | 2500 | 85 | 3.5 | 7.8 | 40-90 | 10-60 | 50 -140 | ||||
| CCXG2600 VOC_O3_H2S_SO2^³ | 2500 | 95 | 2.9 | 5.1 | 40-70 | 10-40 | 50-104 | ||||
| CCXG2600 O3^³ | 2500 | 85 | 2.3 | 5.1 | 0-70 | Max. 40 | Max. 104 | HD 95 | HD 85 | HD 70 | HD 95 |
| CCXG2600 Terpenes^³ | 2500 | 85 | 2.3 | 5.1 | 0-70 | Max. 40 | Max. 104 | HD 95 | HD 85 | HD 70 | HD 95 |
| CCXG2600 Decontaminate^³ | 2500 | 85 | 2.3 | 5.1 | 0-70 | Max. 40 | Max. 104 | HD 95 | HD 85 | HD 70 | HD 95 |
| CC XG 3500 VOC_O3_NO2_SO2^³ | 3400 | 125 | 2.9 | 6.4 | 0-70 | Max. 40 | Max. 104 | HD 95 | HD 70 | HD 85 | HD 95 |
| CC XG 3500 SO2_H2S^³ | 3400 | 120 | 4.4 | 9.8 | 40-90 | 10-60 | 50-140 | - | - | - | - |
| CC XG 3500 Acids_H2S^³ | 3400 | 120 | 4.4 | 9.8 | 40-90 | 10-60 | 50-140 | - | - | - | - |
| CC XG 3500 VOC | 3400 | 125 | 2.9 | 6.4 | 0-70 | Max. 40 | Max. 104 | - | - | - | - |
| CC XG 3500 H2S_Mercaptans | 3400 | 125 | 3.0 | 6.7 | 40-90 | 10-60 | 50-140 | - | - | - | - |
| CC XG 3500 Acids | 3400 | 125 | 3.3 | 7.5 | 40-90 | 10-60 | 50-140 | - | - | - | - |
| CC XG 3500 VOC_O3_Acid_H2S^³ | 3400 | 125 | 3.7 | 8.2 | 40-70 | 10-40 | 50-104 | - | - | - | - |
| CC XG 3500 Bases | 3400 | 125 | 3.4 | 7.5 | 40-90 | 10-60 | 50-140 | - | - | - | - |
| CCXG3500 ALDEHYDES^³ | 3400 | 120 | 4.4 | 9.8 | 40-90 | 10-60 | 50-140 | ||||
| CCXG3500 FORMALDEHYDE^³ | 3400 | 120 | 4.4 | 9.8 | 40-90 | 10-60 | 50-140 | ||||
| CCXG3500 Acids_SO2_H2S | 3400 | 120 | 4.4 | 9.8 | 40-90 | 10-60 | 50-140 | ||||
| CCXG3500 ETHYLENE^³ | 3400 | 120 | 4.4 | 9.8 | 40-90 | 10-60 | 50-140 | ||||
| CCXG3500 VOC_O3_H2S_SO2^³ | 3400 | 125 | 2.9 | 6.4 | 0-70 | Max. 40 | Max. 104 | HD 95 | HD 85 | HD 70 | HD 95 |
| CCXG3500 O3^³ | 3400 | 125 | 2.9 | 6.4 | 0-70 | Max. 40 | Max. 104 | HD 95 | HD 85 | HD 70 | HD 95 |
| CCXG3500 Terpenes^³ | 3400 | 125 | 2.9 | 6.4 | 0-70 | Max. 40 | Max. 104 | HD 95 | HD 85 | HD 70 | HD 95 |
| CCXG3500 Decontaminate^³ | 3400 | 125 | 2.9 | 6.4 | 0-70 | Max. 40 | Max. 104 | HD 95 | HD 85 | HD 70 | HD 95 |
CamCarb XG - engineered for energy and maintenance cost savings in molecular contamination control applications
Electronics and optics Commercial and public buildings Food and beverage
S.Silpa Co., Ltd., Thailand faced constant odor nuisance and high VOC levels in their factory. This is due to the usage of various chemicals in the printing process that generate volatile organic compounds (VOCs) when exposed to heat, such as thinner solutions, alcohols, inks, cleaning solvents, vinyl sheets.
Air quality Manufacturing and machinery Case studies
Awareness and regulations in the life sciences 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 sciences industries, cleanrooms and laboratories are often used for various purposes. These cleanrooms are subject to a high level of cleanliness of numerous particles and molecules
To answer this question, let's look at the difference between a land based gas turbine and a jet engine.
For several years, Hornsgatan has been designated Sweden's dirtiest street when it comes to air pollution. Hornsgatan is an exposed street when it comes to harmful particles in the air. How does this affect residents?
Aftermath of flooding driver government office to turn to CamCleaner vertical air cleaners for eliminating mold odor
If you are looking to expand your knowledge on the impact of air filtration on your gas turbines and other turbomachinery, look no more!
The test rig has been calibrated according to standards EN 779, ISO 16890 and ASHRAE 52.2 and was developed for air filter testing simulating the harsh climate conditions where gas turbines are often located.
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