Cooking Coal, also known as Metallurgical Coal, is a critical raw material used in steel production. It is specially processed to produce coke, which serves as a fuel and reducing agent in blast furnaces, ensuring high-quality steel with superior strength and durability.
Petroleum coke is a solid by-product of petroleum refining and is used in the production of carbon electrodes for the aluminum industry, graphite electrodes for steel making, as fuel in power generation, and as fuel for cement kilns. Petroleum coke is a chunky powdered carbon product derived from petroleum. If petroleum coke is heated to a high temperature, it may emit volatiles such as polynuclear aromatic hydrocarbons, which could be suspect carcinogens. Such exposures can occur in coke oven workers. North American production of petroleum coke or petcoke, as it's commonly known, has been steadily increasing since the late 80s. But innovations in bitumen extraction have allowed petcoke production to shoot up in recent years.
Lignite Coal, also known as brown coal, is a low-grade coal with high moisture content. It is primarily used for electricity generation due to its relatively low energy output compared to higher-grade coals, offering an affordable fuel option for power plants and industrial applications.
Bituminous Coal is a versatile, mid-grade coal known for its high carbon content and energy efficiency. Widely used in power generation, industrial processes, and as a raw material in coke production, it offers excellent heat output and reliability.
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Petroleum coke, often abbreviated as petcoke, is a byproduct of the oil refining process. It is produced when heavy crude oil undergoes a distillation process that separates it into various components like gasoline, diesel, and jet fuel. During this process, residual oil is left behind, which is then further refined to produce petroleum coke.
Petroleum coke is primarily used as a fuel source and in the production of anodes for aluminum smelting. It is known for its high carbon content, making it an efficient and cost-effective fuel for power generation and industrial processes. There are two main types of petroleum coke: calcined and green coke. Calcined petroleum coke has been heat-treated to drive off volatile substances and impurities, while green coke is typically used as a fuel source in industrial applications without undergoing calcination.
Pet coke represents a valuable secondary product that can be exported to markets where it is in demand, such as in the aluminum and steel industries. Its usage as a fuel also makes it relevant for energy markets, particularly in regions where there is a need for affordable and reliable sources of industrial fuel.
Anthracite Coal is the highest grade of coal, known for its high carbon content, low impurities, and energy efficiency. It burns cleaner and hotter than other types of coal, making it ideal for heating, industrial applications, and producing high-quality coke for steel manufacturing.
Steam Coal, also known as thermal coal, is primarily used for power generation and industrial heating. With its high energy content and combustion efficiency, it is a reliable source of fuel for steam boilers and electricity production, providing consistent performance in energy-intensive industries.
Anthracite Filter Media is thoroughly selected from anthracite which yields the highest percentage of carbon. It is then
hydraulically classified to reduce mineral matter and ash to a minimum, and finally screened and washed to ensure suitability for
filtration purposes.
Anthracite filter coal or Anthrafilt is commonly used as sub-fill and as a component of multi-media filters. Anthracite filter
media is a durable media with long life and a wide temperature range. It contains no silica to interfere in the production of
ultra pure water. Anthracite promotes higher service flow rates and longer filter runs with less head loss than single media
filter beds. Backwash rates are reduced as well. Low uniformity coefficient anthracite filter media extends the life of your
filter before the media must be changed out. Higher service flows and longer filter runs than equivalent sand filters.
â?¢ Unique density allows Anthracite to be combined with other filtration media in multi-media filters.
â?¢ Lower uniformity coefficient has less oversized and undersized particles resulting in a highly uniformed bed.
â?¢ Due to its medium density, Anthracite can be used in multi-media bed filters providing a unique pre-filtration layer.
Anthracite coal filter media Application
Anthracite Filter Media is widely used in the process of water quality treatment before and after the production of chemical,
metallurgical, thermoelectric, pharmaceutical, papermaking, printing and dyeing, food and so on.
Activated carbon, also known as activated charcoal, is a form of carbon processed to have small, low-volume pores that increase its surface area. This increased surface area makes activated carbon highly effective for adsorptionâ??a process by which molecules and ions adhere to the surface. Here are some key points about activated carbon:
Production: Activated carbon is typically produced by heating carbonaceous materials, such as wood, peat, coconut shells, or sawdust, in the presence of a gas that does not react with the material, creating a porous structure.
Porous Structure: The activation process creates a highly porous structure with a large surface area. This structure allows activated carbon to adsorb a wide range of substances onto its surface.
Adsorption Properties: Activated carbon is widely used for adsorbing various impurities and contaminants from liquids and gases. It can effectively remove organic compounds, chemicals, odors, and even some metals.
Applications: Activated carbon finds diverse applications in various industries, including water treatment, air purification, food and beverage processing, pharmaceuticals, and environmental cleanup. It is used in water filters, air purifiers, gas masks, medical treatments, and more.
Water Purification: Activated carbon is commonly used in water treatment processes to remove impurities, chlorine, organic contaminants, and undesirable odors, improving the taste and quality of water.
Air Purification: In air purification systems, activated carbon filters can capture and remove volatile organic compounds (VOCs) and other airborne pollutants, contributing to cleaner air.
Medical Uses: Activated carbon is used in certain medical treatments and poison control efforts. It can be administered orally to absorb toxins in the gastrointestinal tract.
Gold Recovery: Activated carbon is also used in the gold mining industry for the recovery of gold from cyanide solutions.
Environmental Remediation: Activated carbon is employed in environmental cleanup efforts to adsorb pollutants from soil and water, aiding in the remediation of contaminated sites.
Reactivation: Activated carbon can sometimes be regenerated or reactivated after use by exposing it to high temperatures to remove adsorbed impurities, allowing it to be reused.
Activated carbon's versatility and adsorption capabilities make it a valuable material in numerous applications where purification and removal of contaminants are essential.
