Customization: | Available |
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Ash Content: | 11 |
Density: | High Density |
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1. Coke stands as the most crucial product of the coking process, with over 90% of it used for blast furnace ironmaking in many countries. It has historically replaced charcoal in iron smelting, laying the foundation for modern large-scale blast furnace operations and marking a significant milestone in metallurgy.
2. In addition to ironmaking, coke is essential for casting and the smelting of non-ferrous metals such as copper, lead, zinc, titanium, and antimony. It serves as a reducing agent, heat source, and structural support during these processes.
3. In the smelting industry, coke finds limited applications in producing calcium carbide, carbon disulfide, phosphorus, and other elements. Within steel joint ventures, coke powder serves as a sintering fuel, and it is also a key raw material for water gas production, which is used in various synthesis processes.
4. To optimize the technical and economic performance of blast furnace operations, smelting coke (metallurgical coke) must possess specific chemical and physical properties, including robust thermal characteristics essential to the smelting process.
5. Beyond its extensive use in iron and non-ferrous metal smelting, coke (metallurgical coke) is also invaluable in casting, the chemical industry, the production of calcium carbide, and ferroalloys.
This superior metallurgical coke can substantially replace refinery coke or stone grinds, offering considerable cost savings. With a calorific value exceeding 9386K/KG, it serves as an efficient fuel and a viable substitute for burnt carbon, which requires exportation quotas. Thus, the cost advantages of this carburizing agent are clearly evident.