Granular Carbon
Granular Carbon
Granular Carbon
Granular Carbon
Granular Carbon
Granular Carbon
With surface areas ranging from 500 to 3000 m²/g, activated carbon serves diverse applications. Granular types, ideal for gas-phase use, are microporous (<2 nm), while powdered forms, suited for liquid-phase applications, are mesoporous (2–50 nm). Both are pivotal in wastewater treatment, excelling in decolorization, odor and gas removal, metal recovery, and organic adsorption.
With surface areas ranging from 500 to 3000 m²/g, activated carbon serves diverse applications. Granular types, ideal for gas-phase use, are microporous (<2 nm), while powdered forms, suited for liquid-phase applications, are mesoporous (2–50 nm). Both are pivotal in wastewater treatment, excelling in decolorization, odor and gas removal, metal recovery, and organic adsorption.
With surface areas ranging from 500 to 3000 m²/g, activated carbon serves diverse applications. Granular types, ideal for gas-phase use, are microporous (<2 nm), while powdered forms, suited for liquid-phase applications, are mesoporous (2–50 nm). Both are pivotal in wastewater treatment, excelling in decolorization, odor and gas removal, metal recovery, and organic adsorption.
With surface areas ranging from 500 to 3000 m²/g, activated carbon serves diverse applications. Granular types, ideal for gas-phase use, are microporous (<2 nm), while powdered forms, suited for liquid-phase applications, are mesoporous (2–50 nm). Both are pivotal in wastewater treatment, excelling in decolorization, odor and gas removal, metal recovery, and organic adsorption.
With surface areas ranging from 500 to 3000 m²/g, activated carbon serves diverse applications. Granular types, ideal for gas-phase use, are microporous (<2 nm), while powdered forms, suited for liquid-phase applications, are mesoporous (2–50 nm). Both are pivotal in wastewater treatment, excelling in decolorization, odor and gas removal, metal recovery, and organic adsorption.
Products
Products
Products
Products
Products
Air and Gas Purification
Air and Gas Purification
Air and Gas Purification
Air and Gas Purification
Air and Gas Purification
Granular types, ideal for gas-phase use, are microporous (<2 nm), while powdered forms, suited for liquid-phase applications. These advanced solutions effectively target a wide range of contaminants, ensuring cleaner air and improved environmental safety.
Granular types, ideal for gas-phase use, are microporous (<2 nm), while powdered forms, suited for liquid-phase applications. These advanced solutions effectively target a wide range of contaminants, ensuring cleaner air and improved environmental safety.
Granular types, ideal for gas-phase use, are microporous (<2 nm), while powdered forms, suited for liquid-phase applications. These advanced solutions effectively target a wide range of contaminants, ensuring cleaner air and improved environmental safety.
Granular types, ideal for gas-phase use, are microporous (<2 nm), while powdered forms, suited for liquid-phase applications. These advanced solutions effectively target a wide range of contaminants, ensuring cleaner air and improved environmental safety.
Granular types, ideal for gas-phase use, are microporous (<2 nm), while powdered forms, suited for liquid-phase applications. These advanced solutions effectively target a wide range of contaminants, ensuring cleaner air and improved environmental safety.
Water Treatment
Water Treatment
Water Treatment
Water Treatment
Water Treatment
Globally, the drinking water industry is responding to new developments and increased regulations. Microbial removal, treatment of inorganic contaminants, disinfection byproduct control, and improved analytical methods that can detect potentially harmful contaminants at part-per-trillion levels add to increased demands on water treatment.
Globally, the drinking water industry is responding to new developments and increased regulations. Microbial removal, treatment of inorganic contaminants, disinfection byproduct control, and improved analytical methods that can detect potentially harmful contaminants at part-per-trillion levels add to increased demands on water treatment.
Globally, the drinking water industry is responding to new developments and increased regulations. Microbial removal, treatment of inorganic contaminants, disinfection byproduct control, and improved analytical methods that can detect potentially harmful contaminants at part-per-trillion levels add to increased demands on water treatment.
Globally, the drinking water industry is responding to new developments and increased regulations. Microbial removal, treatment of inorganic contaminants, disinfection byproduct control, and improved analytical methods that can detect potentially harmful contaminants at part-per-trillion levels add to increased demands on water treatment.
Globally, the drinking water industry is responding to new developments and increased regulations. Microbial removal, treatment of inorganic contaminants, disinfection byproduct control, and improved analytical methods that can detect potentially harmful contaminants at part-per-trillion levels add to increased demands on water treatment.
Defence Application
Defence Application
Defence Application
Defence Application
Defence Application
Impregnated activated carbons are used for respiratory protection against super toxic nerve, blister, blood and choking agents in the military. They are also used in nuclear, biological and chemical (NBC) filters for collective protection, and in NBC canisters, as part of individual gas masks, for personal protection.
Impregnated activated carbons are used for respiratory protection against super toxic nerve, blister, blood and choking agents in the military. They are also used in nuclear, biological and chemical (NBC) filters for collective protection, and in NBC canisters, as part of individual gas masks, for personal protection.
Impregnated activated carbons are used for respiratory protection against super toxic nerve, blister, blood and choking agents in the military. They are also used in nuclear, biological and chemical (NBC) filters for collective protection, and in NBC canisters, as part of individual gas masks, for personal protection.
Impregnated activated carbons are used for respiratory protection against super toxic nerve, blister, blood and choking agents in the military. They are also used in nuclear, biological and chemical (NBC) filters for collective protection, and in NBC canisters, as part of individual gas masks, for personal protection.
Impregnated activated carbons are used for respiratory protection against super toxic nerve, blister, blood and choking agents in the military. They are also used in nuclear, biological and chemical (NBC) filters for collective protection, and in NBC canisters, as part of individual gas masks, for personal protection.
© 2025 Active Carbon™ India. All rights reserved.
Designed by Karthik Mourougane
© 2025 Active Carbon™ India. All rights reserved.
Designed by Karthik Mourougane
© 2025 Active Carbon™ India. All rights reserved.
Designed by Karthik Mourougane
© 2025 Active Carbon™ India. All rights reserved.
Designed by Karthik Mourougane
© 2025 Active Carbon™ India. All rights reserved.
Designed by Karthik Mourougane
© 2025 Active Carbon™ India. All rights reserved.
Designed by Karthik Mourougane
© 2025 Active Carbon™ India. All rights reserved.
Designed by Karthik Mourougane