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Implementation Guidelines for Energy Conservation and Carbon Reduction Transformation and Upgrading in the Ferroalloy Industry: 1. Basic Information: The ferroalloy industry is an important component of China's metallurgical industry. The main energy consumed by ferroalloys is electricity and coke. The overall energy consumption of the ferroalloy industry is relatively large, and there is a significant gap in energy efficiency levels among enterprises. The industry has great potential for energy-saving and carbon reduction transformation and upgrading. According to the "Energy Efficiency Benchmark and Benchmark Levels in Key Fields of High Energy Consumption Industries (2021 Edition)", the energy efficiency benchmark level of a unit product of ferrosilicon alloy is 1770 kilograms of standard coal/ton, and the benchmark level is 1900 kilograms of standard coal/ton; The benchmark level of energy efficiency per unit product of manganese silicon iron alloy is 860 kilograms of standard coal

Implementation Guidelines for Energy Conservation and Carbon Reduction Transformation and Upgrading in the Coking Industry: 1. Basic Information: The coking industry is indispensable in China's economic construction, and its product coke is an essential fuel and reducing agent for long-term blast furnace ironmaking. As of the end of 2020, about 2% of the coking industry's energy efficiency was better than the benchmark level, and about 40% of the production capacity was lower than the benchmark level.

Implementation Guidelines for Energy Conservation, Carbon Reduction, and Upgrading of the Steel Industry: 1. Basic Information: The steel industry is an irreplaceable basic raw material industry for the development of China's national economy and an indispensable and important support for building a modern strong country. The steel industry in China is mainly based on the long process production of blast furnace converter, and the primary energy consumption structure is mainly coal. There is great potential for energy-saving and carbon reduction transformation and upgrading. According to the "Energy Efficiency Benchmark and Benchmark Levels in Key Fields of High Energy Consumption Industries (2021 Edition)", the energy efficiency benchmark level of the blast furnace process is 361 kilograms of standard coal/ton, and the benchmark level is 435 kilograms of standard coal/ton; The energy efficiency benchmark level of the converter process is -30 kg of standard coal/ton, and the benchmark

Regarding the proposal for high-power internal combustion low-carbon and efficient clean power generation using blue carbon exhaust gas, the blue carbon exhaust gas in the blue carbon industry is used for the production of LNG, ammonia, methanol, hydrogen extraction and other utilization methods. Due to the low calorific value, low hydrogen content, high requirements for deep purification, large investment, and slow efficiency of blue carbon exhaust gas, it is less applied in the majority of small and medium-sized blue carbon enterprises in the market, and is generally used for power generation, with less investment and stable power generation returns, And the vast majority of small thermal power generation methods adopt the direct combustion of blue carbon exhaust gas to produce steam and steam turbine power generation. In the context of increasingly strict environmental requirements and the national dual carbon goals, small thermal power plants with high energy consumption, water con

Report on High Power Internal Combustion Low Carbon, Efficient and Clean Power Generation of Yulin Blue Carbon Tail Gas: Yulin Municipal Government, Ecological Environment Bureau, and Industry and Information Technology Bureau: The blue carbon tail gas in Yulin's blue carbon industry is used for the production of LNG, ammonia, methanol, hydrogen extraction, and other utilization methods. Due to the low calorific value, low hydrogen content, high requirements for deep purification, large investment, and slow efficiency of the blue carbon tail gas, it is rarely used in the majority of small and medium-sized blue carbon enterprises in the market and is generally used for power generation, Low investment, stable power generation returns, and the vast majority of small thermal power generation methods adopt the direct combustion of blue carbon tail gas to produce steam and steam turbine power generation. In the context of increasingly strict environmental requirements and the national dual