One of the main applications of granular activated carbon is the purification of water. Its function is the retention of organic contaminants and the elimination, by chemical reaction, of the free residual chlorine that remains in the water after the disinfection stage. In order to inhibit bacterial growth, the surface of the carbon is impregnated with 0.1% metallic silver to make carbon bacteriostatic using ionic silver to enable it to bind strongly with carbon surface to make it suitable to function and purify large volumes of water. - High efficiency - Negligible silver leaching - No health hazards to humans - No loss in Bacteriostatic property up to 6000 litres water - Available in Granular and block form
Mercury and its compounds are cumulative toxins that are harmful even when taken in very small amounts. Itâ??s unique properties allow widespread applications across the paper and pulp industry, chemical processors, & other various manufacturers. Activated carbons are an excellent solution to control the widespread discharge of elemental mercury and its salts. Flexus Global provides Specially designed Carbon to treat a variety of flue gas compositions, high adsorption capacity for many pollutants with exceptional mercury removal rates and low carbon usage. Most commonly used adsorbents for removal of pollutants and treatment of wastewater. Available in Different Mesh Sizes.
Carbon monoxide (CO) is a very toxic gas with TLV of 35 ppm and it is to be removed from the air in mines, enclosed spaces, fire breaking places. Active carbon can not hold the CO due to physisorption and therefore palladium impregnated carbon was developed which became even more active due to high RH. This again one of the very specialized carbon exported by us for air purification and CO removal. It almost works like the turn over catalyst and offers very high protection against CO. This carbon has High Surface area providing almost offers endless protection against CO, Works in any RH but becomes more active at high RH.
Formaldehyde and other aldehydes are the main pollutants in indoor air. Formaldehydes are mainly obtained from paint, polymerizing plates, bindings, chemical fibers and even cigarette smoke Activated carbon adsorbents are the most promising adsorbents when adsorption of traces of gases and vapors is concerned. Our impregnated activated carbons offer effective chemisorption of formaldehyde from air.
Whetlerite carbons are Cu, Cr and Ag impregnated activated carbons used for respiratory protection against super toxic nerve, blister, blood and choking agents in the military. Whetlerite carbons are used in nuclear, biological and chemical (NBC) filters for collective protection, and in NBC canisters, as part of individual gas masks, for personal protection. Flexus Global exports impregnation of active carbon and whetlerite carbon to various countries.
Activated carbon, also known as activated charcoal, is a highly porous form of carbon with a large surface area. It is created by processing carbon-rich materials, such as coconut shells, wood, or coal, at high temperatures to activate their adsorption properties. Activated carbon is widely used for adsorption and purification processes, including water treatment, air purification, and removal of contaminants from gases and liquids. It is known for its ability to adsorb a wide range of impurities, including toxins, pollutants, and odors.
IRON REMOVAL BLOCK - Iron is one of the major problem in ground water of many areas in India. Excessive levels of iron above 0.3 mg/l in water, may lead to many problems in usage and also adverse health effects. Iron will be in the form of Fe2+, Fe3+ and as few more other compounds in dissolved state in water. Iron imparts color in water if it is excessive, which leads to aesthetic effects in water. If it is used for laundry application, affects the color of the white fabric. Size & Diameter can be customised as per buyer's requirement.
Among its numerous sources, coconut shells have gained significant attention as a sustainable and efficient raw material for producing high-quality activated carbon. Coconut shell-based steam-activated Carbon is mainly used for the removal of chlorine, organic contaminants, color and odor from drinking water to make it suitable for human consumption. Being microporous in internal structure, coconut shell activated carbon is well suited for organic chemical adsorption, including volatile organic chemicals. - One of the prominent applications of coconut shell-based activated carbon is in water treatment processes. It effectively removes impurities, organic contaminants, and heavy metals, ensuring clean and safe drinking water. - It acts as a decolorizing agent, removing impurities and unwanted odors from edible oils, beverages, and food products finding its application in the food and beverage industry. Additionally, it is employed in the purification of sugar syrups, ensuring high-quality and clear syrup for various confectionery and beverage manufacturing processes. - It serves as an excellent adsorbent in the production of drugs, where it eliminates unwanted impurities, colorants, and traces of heavy metals making it ideal choice in pharmaceutical industry too. The high purity and porosity of coconut shell-based activated carbon make it a preferred choice for pharmaceutical manufacturers to ensure product quality and safety.
Natural Sisal Fiber Type 1 Type 2 Type 3 Type 4 Sisal Fiber UG Grade Length: 110CM-130CM with a tolerance of 20%. Moisture: 10%-13% Impurity: 0-3% Classification per Grade: TYPE 1 - Colour whitish/soft cream, well brushed humidity maximum 14% without knots. Color: natural white, Brown and between white and brown. TYPE 2 - Colour cream/yellowish, well brushed humidity maximum 14% without knots. TYPE 3 - Colour cream/yellowish, well brushed humidity maximum 14%, without knots. REFUGOS (REJECT) - Colour brownish/green, humidity maximum 14%, presence of knots and high percentage of impurities. BUCHA (TOW) - Colour yellowish/brownish, humidity maximum 14%, presence of knots and a very high level of dust.
ES fiber is a sheath-core composite fiber obtained by successfully combining low-melting components and high-melting components on a single fiber. It has excellent thermal bonding properties. The low melting point component in ES fiber melts under heat treatment conditions higher than its melting point, and bond with other materials to form a binder-free environmentally and friendly non-woven fabric. ES fiber has various advantages such as soft, fluffy, low-temperature processing, heat-bonding, plasticity, non-toxic, non-irritating, and lightweight. It is mainly used to manufacture high-quality sanitary products such as sanitary napkins and diapers. And it is also high-quality materials used to make medical products such as medical protective cloth and medical protective masks, and so on. There are two main types of ES fibers. The first kind is a composite of PE and PP. Its sheath layer is PE (polyethylene, melting point 130�°C), and its core layer is PP (polypropylene, melting point 165�°C). The second kind is a composite of PE and PE. Its sheath layer is PE, and the core layer is PET (polyester, melting point 255â??), which is an upgraded version of PE/PP. ES is divided into EP and ET in terms of material and functionally divided into the hydrophilic, water-repellent, hydrophilic, and weak parent, single parent, multi-parent.In addition, it also can be divided into whitening, general whitening, high holding, medium holding, and low holding. The specifications are 1.5D38mm, 2D38mm, 4D51mm, and so on. In the future, the trend will gradually develop towards fine deniers. SPECIFICATION: PE+PET ES Fiber: Optical White & Super Hydrophile 2D*38mm, Optical White & Hydrophile 2D*38mmï¼? Optical White & Water Repellency 2D*38mmï¼? RAW White & Water Repellency 2D*38mmï¼? Optical White & Super Hydrophile 1.5D*38mmï¼? Optical White & Water Repellency 1.5D*38mmï¼? RAW White & Water Repellency 1.5D*38mï¼? Hydrophile 2D*38mmï¼? Water Repellency 2D*38mm PE+PP ES Fiber: Hydrophile (P2Q) 2D*38mm