2023 New Food Grade High Quality Pharmaceutical Grade Coconut Shell Activated Carbon Pellet Product Specification Index Project YT101 YT102 Grain 10-24meshsize 2.0-0.8mm % â?¥ 98 â?¥96 Iodine value Mg/g â?¥1000 â?¥900 Methyl blue decolorizing ability Ml/g â?¥10 â?¥8 Hardness % â?¥98 â?¥96 Moisture % â?¤10 â?¤10 Ash % â?¤3 â?¤5 Bulk density g/m�³ 0.45-0.55 0.45-0.55 PH / 6-8 6-8 Supply Ability 20 Ton/Tons per Day Packaging Details 25kg/bag Can be customized according to requirements
Name of product-Coconut shell Activated carbon/ Activated carbon/Activated carbon for Gold recovery/Activated carbon for water treatment/Activated carbon for Gas treatment Key Specifications/Special Features: Iodine- 900 to 1400 , CTC - 45 to 100 we can able supply Mesh Size: 4x8,6x12,8x16,8x30,12x40,12x30,20x50,30x60,50x100,50x200, below100 Mesh, 90% Pass Below 200 Mesh, minus 325
Mazut M100 is a type of heavy fuel oil used in various industrial and power generation applications. It is a residual product derived from the refining of crude oil and is characterized by its high viscosity and energy content. Mazut M100 is commonly employed in large-scale industrial boilers, marine engines, and power plants. Key Features: Composition: Mazut M100 is a residual fuel oil with a high carbon content and a significant amount of sulfur. It is a heavy and viscous fuel that requires preheating before use to ensure proper flow and combustion. Viscosity and Density: This grade of mazut is known for its high viscosity and density, which can affect handling and storage requirements. It is typically classified based on its specific gravity and viscosity measurements. Applications: Power Generation: Mazut M100 is used as a fuel for power plants, particularly in regions where cheaper, high-energy fuels are preferred. It is burned in large-scale boilers and turbines to generate electricity. Industrial Use: In industry, Mazut M100 serves as a fuel for high-temperature processes and equipment, including furnaces and kilns, due to its high energy content. Marine Fuel: It is also utilized as a marine fuel in some large ships and vessels, providing a cost-effective option for powering marine engines. Environmental and Operational Considerations: Sulfur Content: Mazut M100 typically has a high sulfur content, which can lead to significant emissions of sulfur dioxide (SOâ??) and other pollutants. This has environmental implications, including contributing to air pollution and acid rain. Handling and Storage: Due to its high viscosity, Mazut M100 requires careful handling and storage practices. It often needs to be heated to facilitate pumping and combustion, which can involve additional infrastructure and energy. Regulatory and Market Context: Regulations: The use of Mazut M100 is subject to increasing regulatory scrutiny due to environmental concerns. Many regions are implementing stricter emissions standards, which may impact its usage and encourage the adoption of cleaner fuels. Pricing: Mazut M100 pricing is influenced by global crude oil markets, production costs, and regional demand. Its cost-effectiveness compared to lighter fuels can make it an attractive option in certain applications. Conclusion: Mazut M100 is a heavy fuel oil with significant applications in power generation, industrial processes, and marine engines. While it offers high energy content and cost advantages, its high sulfur content and viscosity require careful management to address environmental and operational challenges. As environmental regulations evolve, the use of Mazut M100 may be increasingly scrutinized in favor of cleaner alternatives.
JP-54 Aviation Kerosene is a high-performance jet fuel used in military and some civilian aircraft. It is a type of kerosene with specifications similar to Jet A1 but tailored for specific aviation needs. JP-54 features a low freezing point to ensure fluidity at high altitudes and a high flash point to enhance safety during handling and storage. Its formulation includes hydrocarbons refined from crude oil and may contain additives to prevent freezing and improve stability. Used primarily in military jets and high-performance aircraft, JP-54 offers high energy density essential for efficient engine operation. As with other fossil fuels, efforts are underway in the aviation industry to explore more sustainable alternatives to reduce environmental impact.
Aviation Turbine Fuel (Jet A1) Jet A1 is a high-performance aviation turbine fuel designed for use in commercial and military aircraft. It is a type of kerosene-based fuel widely used in jet engines and is known for its reliability and efficiency in various flight conditions. Key Features: Specification: Jet A1 meets the stringent standards set by the International Civil Aviation Organization (ICAO) and is recognized globally. It has a maximum freeze point of -47C (-53F) and a minimum flash point of 38C (100F), ensuring safety and performance in diverse climatic conditions. Composition: Jet A1 is primarily composed of hydrocarbons derived from crude oil. It includes a blend of straight-run kerosene and hydrotreated distillates, which contribute to its low freezing point and high energy content. Additives: The fuel typically contains additives to prevent microbial growth, enhance stability, and improve performance. These additives ensure that Jet A1 maintains its quality and reliability over time. Performance and Safety: Freezing Point:Jet A1 low freezing point ensures that it remains fluid at high altitudes, where temperatures can drop significantly. This characteristic is crucial for maintaining fuel flow and engine performance during flight. -Flash Point: A higher flash point compared to some other fuels minimizes the risk of accidental ignition, enhancing safety during handling and storage. -Energy Content:Jet A1 has a high energy density, providing the necessary thrust and efficiency required for aircraft operation. Applications: Jet A1 is used in a wide range of aircraft, including commercial airliners, cargo planes, and military jets. Its consistent quality and performance make it the standard choice for jet propulsion systems worldwide. Environmental Considerations: While Jet A1 is a fossil fuel, the aviation industry is increasingly focusing on sustainable alternatives, such as biofuels and synthetic fuels, to reduce carbon emissions and environmental impact. The transition to these greener options is part of ongoing efforts to make aviation more sustainable. Conclusion: Jet A1 is a critical component in aviation, ensuring the safe and efficient operation of jet engines across various aircraft types. Its adherence to international standards and performance characteristics makes it a reliable choice for the aviation industry.
To suit the requirements of water purification, modern approach is to filtering huge volumes of water contaminated with many organic and inorganic contaminants but in form of blocks along with reverse osmosis, UV irradiation, mineral addition, etc. Carbon blocks are engineered and manufactured using compression molding or extrusion for different applications such as dechlorination, bad taste and odour removal, chloramines and organic materials removal, VOC removal, heavy metal removal, etc. Carbon blocks provide effective and versatile filtration for a wide range of different applications such as sediment and chemical removal. - Manufactured from coconut shell based low ash, micro porous Activated Carbon. - Designed to be used in most standard size housings. - High adsorptive capacity & high Iron, HMR & VOC removal Capacity - Simultaneously removes chlorine, bad taste, odour and organic contaminants from water. - Provides particular filtration and high dirt capacity. Size & Diameter can be customised as per the Buyers requirements
Activated carbon has very high capacity to adsorb organics, inorganics, bad taste and odour material. Adsorption capacity is enhance by modifications such as acid washing because this modification removes the acid soluble inorganic materials from the carbon and make it more porous, efficient and useful for various liquid process applications such as waste water treatment, water purification, decolourisation process in chemical and pharmaceutical industries, food and beverage industry for many purposes such as decolourization of sugar, dechlorination, decaffeination, purification of organic compounds, etc. Some of the benefits of Acid Wash carbon include Dechlorination of water, better taste, removal of bad odors, removal of color from water, removal of organic substances, etc. Available in different mess Size as per customer requirement.
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
CHM REMOVAL BLOCK (Heavy Metal Removal) - Heavy metal (HM) is any metallic chemical element are highly toxic for both animals and human beings, and can be bio-accumulated through biological chains and are non-biodegradable and persistent. Their toxicity may occur due to industrial emission that contaminates waterways, nearby streams and rivers, contamination of irrigation water, the application of fertilizer and metal-based pesticides, harvesting process, transportation, storage, or sale. Elements, such as Cadmium and Chromium, are considered carcinogenic, while Iron, Copper, Manganese, Zinc, and Nickel are considered essential trace elements. Arsenic is also another heavy metal which is available in almost 70% bore well water. Therefore, it is essential to purify the water to make it potable. The conventional methods for heavy metal removal from waste water which includes chemical precipitation, reverse osmosis, and solvent extraction are expensive. Adsorption on adsorbent such as active carbon or modified active carbon is an alternative method, because it is cost effective and simple to design. Size & Diameter can be customised as per buyer's requirement.
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.
VOC REMOVAL BLOCK - Activated Carbon filters effectively Removes Volatile organic compounds (VOC) from water causing irritation in the eyes, nose, and throat, headaches, loss of coordination, and nausea. RO does not provide the adequate removal of VOCs. The adsorption properties of the activated carbon filter suit to remove the carbon-based VOC. No better defense mechanism against VOCs is offered than carbon as active carbon based on coconut shell is microporous and micropores can only house them suitably. To enhance the adsorption capacity of active carbon block we provide modified active carbon with nano alumina. These VOCs Blocks can be manufactured in different size for different applications. Size & Diameter can be customised as per buyer's requirement.
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.
(Color Taste Odor Removal) - We are leading exporter of Activated Carbon Blocks, made from high Surface Area, low ash coconut based Activated Carbon with high adsorption efficiency and contaminant removal capacity. The CTO Blcks have high adsorptive capacity that simultaneously removes chlorine, bad taste, odor and organic chemicals that contribute to bad taste. They are suitable for use as Pre and Post Reverse Osmosis Systems in CTO BLOCKS (Color Taste Odor Removal) residential and commercial water purification. Size & Diameter can be customised as per buyer's requirement.
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.
Exhaust gases from several industrial and production units where coal or sulfide ores are used, contain sulfur-containing toxic gases and vapors such as sulfur dioxide, hydrogen sulfide, carbon disulfide, and several organosulfur compounds. These industrial gases need to be desulfurized effectively before mixing with the environment. Sulfur can also be removed with the use of activated carbons. Flexus Global speciality activated carbons are promising adsorbents for SO2 and sulfur-containing toxic gas removal due to their high efficiency and regenerative capacity.
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.
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.