In order to thoroughly implement the spirit of General Secretary Xi Jinping's important speeches and instructions on Carbon Dafeng's carbon neutral work series, fully and accurately implement the major strategic decision-making arrangements of the Party Central Committee, the State Council and the Autonomous Region on Carbon Dafeng's carbon neutrality, and promote the industrial field of the Autonomous Region in a solid and orderly manner Carbon peak work, formulate this plan.

1. General requirements

(1) The guiding ideology is guided by Xi Jinping Thought on Socialism with Chinese Characteristics for a New Era, fully implements the spirit of the 19th National Congress of the Communist Party of China and the previous plenary sessions of the 19th National Congress, deeply implements Xi Jinping’s thought on ecological civilization, and fully, accurately and comprehensively implements the new development concept, Unswervingly follow the new path of high-quality development oriented by ecological priority and green development, adhere to the system concept, coordinate and handle the relationship between industrial development and energy conservation and carbon reduction, overall and partial, short-term and medium- and long-term, so as to deepen the supply-side structural Reform is the main line, with "total control, inventory optimization, and structural adjustment" as the key, with the fundamental purpose of achieving the peak of carbon in the industrial sector of the autonomous region, and with the implementation of special actions such as the implementation of key industrial industries to reach the peak, to build an efficient and circular economy. The modern green industrial system characterized by low carbon and low carbon promotes the high-end, intelligent and green development of the industry in our region, and strives to achieve the goal of carbon peak in the industrial field of the autonomous region by 2030.

(2) Basic principles

Steady and orderly, systematic advancement. Under the premise of promoting the steady increase of the proportion of the region's manufacturing industry and maintaining the safety of the region's industrial chain and supply chain, the goal of carbon neutrality in the carbon peak will run through the entire process and every link of the industrial chain supply chain, and actively and steadily promote the tasks of the carbon peak , Promote the comprehensive green and low-carbon transformation of industries in the region. Inside

Prioritize saving and control the source. Prioritize the conservation of energy and resources, improve utilization efficiency, optimize the structure of energy and raw materials, strengthen industrial coupling links between enterprises, industries, and regions, continue to reduce energy resource consumption and carbon emissions per unit of output, and reduce carbon dioxide emissions from the source. Book

Driven by innovation, empowered by digital. Adhere to innovation as the first driving force, strengthen scientific and technological innovation and system innovation, focus on promoting the implementation and application of major energy-saving and low-carbon technologies, strengthen the innovative application of new-generation information technology in green and low-carbon fields, and empower greenization with digitalization and intelligence. Cultivate and expand green and low-carbon new kinetic energy.

Market-led, policy-led. Give full play to the decisive role of the market in resource allocation, and improve the market-oriented mechanism to promote green and low-carbon development. Actively give play to the guiding role of the government, and strive to break down the institutional barriers that restrict carbon peaking. Improve the incentive and restraint mechanism oriented to carbon emission reduction, guide market players to actively participate in the work of carbon peaking, strengthen the supply of green products and services, and promote the realization of carbon peaking.

(3) Overall goal

During the "14th Five-Year Plan" period, the industrial structure and energy consumption structure of the region's industrial fields were significantly optimized, and the proportion of non-fossil energy consumption increased significantly. The utilization efficiency of energy resources in key industries has been greatly improved, new progress has been made in the promotion and application of green, low-carbon, zero-carbon and negative-carbon technologies, equipment, processes, and products, the green manufacturing system has been basically improved, and carbon dioxide emissions per unit of industrial added value have dropped significantly. target task. Content/Content By 2030, significant progress will be made in the adjustment of the industrial structure and energy consumption structure in the industrial sector in the region, the utilization efficiency of energy resources in key energy-consuming industries will reach the domestic advanced level, the green and low-carbon circular development system in the industrial sector will be basically sound, and the industrial sector will be realized as scheduled. Carbon peak target.

2. Key tasks

(1) Raise the entry threshold of the industry and strictly control the scale of industry production capacity

1. Control the production capacity scale of key industries. Strictly control the production capacity scale of key carbon emission industries, strictly prohibit new restricted and eliminated projects in the "Industrial Structure Adjustment Guidance Catalogue", unblock the channels for capacity transfer, explore the establishment of energy consumption indicators, carbon quota indicators and the transfer mechanism of production capacity indicators, and encourage the concentration of production capacity develop. (The Development and Reform Commission of the Autonomous Region, the Department of Ecological Environment, and the Department of Industry and Information Technology are responsible according to the division of responsibilities)

2. Improve industry access standards. Further increase the entry threshold for new renovation and expansion projects in key industries. Strictly implement policies and regulations such as capacity replacement, project filing, environmental impact assessment, and energy conservation review. For new reconstruction and expansion of high-energy-consuming projects, on the premise of meeting the requirements of dual control of energy consumption in the region, the process technology and equipment must reach the domestic advanced level, and the energy utilization efficiency must reach the national advanced standard (national energy efficiency benchmark level, advanced value of energy consumption limit standard) Or the advanced level of the industry, the same below). (The Development and Reform Commission of the Autonomous Region, the Department of Ecological Environment, and the Department of Industry and Information Technology are responsible according to the division of responsibilities)

3. Optimize and improve the project management of "two highs". Take strong measures to implement inventory management, classified disposal, and dynamic monitoring of "two high" projects. Strictly control the access of "two high" projects, strictly check and record projects, and strengthen the review of energy conservation of fixed asset investment, environmental impact assessment and management of pre-water use procedures. For existing projects that are lower than the benchmark level of industry energy efficiency, they are required to reach the national benchmark level through technical transformation; for stock projects with energy efficiency between the benchmark level and the benchmark level, they are encouraged to implement transformation and upgrading with reference to the national benchmark level, and strive to enter the industry energy efficiency The list of "leaders"; for projects under construction, if the energy efficiency level is lower than the industry's benchmark level, rectify according to relevant regulations, and strive to reach the benchmark level; scientifically evaluate the proposed projects, and for industries with saturated production capacity, they must follow the "reduction and replacement" "The principle is to reduce production capacity. For industries that have not yet saturated production capacity, they must follow the requirements of the national layout and approval and filing, raise the access standard to the national advanced standard, and design and build according to the national energy efficiency benchmark level. (The Development and Reform Commission of the Autonomous Region, the Department of Ecological Environment, and the Department of Industry and Information Technology are responsible according to the division of responsibilities)

(2) Renovate and upgrade traditional industries to release energy-saving and carbon-reducing potential

1. Accelerate elimination and resolve backward and excess production capacity. Formulate a plan to resolve excess capacity, guide the orderly withdrawal of restricted production capacity in the steel, ferroalloy, calcium carbide, coke, and graphite electrode industries, and implement capacity replacement and upgrading. (The Department of Industry and Information Technology of the Autonomous Region, the Development and Reform Commission, and the Department of Ecological Environment are responsible for the division of responsibilities)

Column 1 "14th Five-Year Plan" to accelerate the elimination of backward and excess production capacity

Iron and steel: pig iron blast furnaces for steelmaking with an effective volume of less than 1,200 cubic meters, steelmaking converters with a nominal capacity of less than 100 tons, and electric arc furnaces with a nominal capacity of less than 100 tons (alloy steel is 50 tons). Book

Ferroalloy: 25,000 kVA and below submerged arc furnace (except special ferroalloy)

Calcium carbide: submerged arc furnaces below 30,000 kVA.

Coke: Top-loaded coke ovens with a carbonization chamber height of less than 6.0 meters, stamped coke ovens with a carbonization chamber height of less than 5.5 meters, and coking projects with a capacity of less than 1 million tons per year.

Graphite electrodes: general-power and high-power graphite electrode pressing equipment, roasting equipment and production lines, and graphite electrode production lines with a diameter of less than 600 mm (not included).

Virtual currency mining: comprehensively clean up and shut down virtual currency mining projects.

2. In-depth promotion of energy-saving technological transformation. Accelerate energy-saving transformation and upgrading, focus on key industries such as iron and steel, petrochemicals, non-ferrous metals, and building materials, formulate implementation plans for energy-saving technological transformation, determine the list of technological transformation enterprises, strengthen the reserve of energy-saving technological transformation projects, steadily promote the organization of enterprises to implement transformation, and scientifically evaluate the implementation of transformation As a result, industrial enterprises in the region have been promoted to carry out energy-saving technical transformation based on the national benchmark level (advanced standard). Through the implementation of energy-saving transformation, the energy consumption per unit of products in key industries such as iron and steel, non-ferrous metals, chemicals, and building materials has dropped significantly, and the production capacity that has reached the benchmark level exceeds 30. %. Accelerate the innovation, popularization and application of energy-saving technologies such as advanced high-efficiency technology and utilization of low-grade waste heat and pressure to reduce energy consumption in production processes. Accelerate the technological upgrading and green transformation of major products in traditional industries, and continuously optimize the structure of industrial products. Eliminate high-energy-consuming mechanical and electrical equipment in an all-round way, and promote energy-saving transformation of key energy-consuming equipment systems such as industrial kilns, boilers, motors, compressors, pumps, and transformers. (The Department of Industry and Information Technology of the Autonomous Region, the Development and Reform Commission, the Department of Science and Technology, and the Market Supervision Bureau are responsible according to the division of responsibilities)

Column 2   Energy-saving and low-carbon technologies

Iron and steel industry: promotion of by-product coke oven gas or natural gas direct reduction ironmaking, hydrogen smelting, blast furnace oxygen-enriched smelting, smelting reduction, high-parameter CDQ, intelligent control of coke oven heating, sintering flue gas circulation, endless rolling, smelting Steel regenerative baking, heating furnace energy-saving technology and blast furnace top pressure equalization gas recovery, steel slag waste heat recovery and comprehensive utilization, coke oven process riser waste heat recovery, sintering, steelmaking, steel rolling process waste heat steam recovery and utilization, low temperature smoke Low-quality waste heat recovery technologies such as gas and circulating cooling water.

Non-ferrous industry: promotion of large-scale aluminum electrolytic cells and alumina production lines, flash and continuous blowing of copper smelting, regenerative vertical tank magnesium smelting, calcium-free dissolution of alumina, carbon fixation and alkali removal of red mud, low-carbon smelting of primary aluminum, etc. technology. New energy-saving technology for steady flow and thermal insulation aluminum electrolytic cell, aluminum smelting waste heat recovery and utilization technology, intelligent shelling and intelligent blanking technology, direct welding technology for aluminum and steel, stable technology for iron-phosphorus casting components, reduced iron-carbon pressure drop, and fully graphitized cathode technology , High-efficiency recovery and utilization technology of waste heat from anode furnace flue gas in copper smelting industry; high-efficiency recovery and utilization technology of waste heat from reduction furnace flue gas in magnesium smelting industry.

Chemical industry: Promote large-scale pulverized coal pressurized gasification, olefin raw material lightening, coal water slurry gasification, nitric acid comprehensive treatment, high-efficiency fluid transmission, high-efficiency and low-energy synthesis urea technology; high-efficiency coal gasifier, synthesis reactor, high-efficiency Rectification system, intelligent control system, high-efficiency falling film evaporation technology; coke oven raw gas sensible heat recovery and utilization, dry quenching, coke oven carbonization chamber waste gas recovery and automatic pressure adjustment, coking coal humidity control winnowing technology, tank voltage optimization Control, water film evaporation heat transfer cooling technology; waste acid separation technology, concentrated sulfuric acid cleaning technology. Book

Building materials industry: promotion of energy saving and consumption reduction of firing system, co-processing of cement kiln, oxygen-enriched combustion of cement, transformation of raw material mill (vertical mill to roller press), raw material pretreatment, cement grinding system, coal mill system, cement plant automation information Energy-saving technologies such as intelligent system, high solid-gas ratio clinker calcination, non-spherical grinding, high-thrust multi-channel combustion, glass melting furnace heat preservation and energy saving, glass melting furnace full-oxygen combustion and pure oxygen combustion.

Terminal energy-consuming equipment. Motor system: Promote motor systems such as permanent magnet synchronous servo and eddy current flexible transmission motors, high-voltage frequency conversion speed regulation, and Francis turbines for cooling towers. Power distribution system: Promote amorphous alloy transformers, on-load capacity and voltage regulation, system reactive power compensation and parameter optimization systems. Furnace system: Promote technologies such as oxygen-enriched combustion, regenerative combustion, and anti-scaling and efficiency-enhancing circulating water systems.

3. Vigorously promote industrial water conservation. Strengthen water-saving management in key industrial water-use industries, strengthen water-use intensity control, strengthen water-saving standardization, speed up the formulation and revision of standards related to industrial water-saving technologies, management, and evaluation, strengthen publicity and implementation of relevant standards, and guide enterprises to meet water efficiency standards and improve water efficiency. Promote the application of a batch of advanced water-saving equipment and technologies, organize and carry out water-saving technological transformation in high-water-consuming industries such as iron and steel, nonferrous metals, chemicals, building materials, food, and fermentation, support the recycling of industrial wastewater, and formulate implementation plans for water-saving technological transformation. Establish a list of technological transformation projects, select advanced and applicable technologies and equipment to carry out technological transformation, encourage enterprises with advanced water efficiency to match the industry benchmark level and water efficiency "leaders", and build a group of water-saving enterprises and water-saving benchmark enterprises. By 2025 The water consumption per 10,000 yuan of industrial added value will drop by 13% compared with 2020. (The Department of Industry and Information Technology of the Autonomous Region, the Department of Water Resources, the Development and Reform Commission, the Department of Science and Technology, and the Market Supervision Bureau are responsible according to the division of responsibilities)

Column 3 Water-saving renovation technology

Iron and Steel Industry: Promote multi-functional and efficient quenching of high-quality steel pipes, high-efficiency recycling of the five effects of "combustion-heat-electricity-water-salt", zero-discharge treatment of waste water, and integrated technology for recycling and reuse of comprehensive iron and steel sewage.

Non-ferrous industry: Promote advanced treatment and recycling of fluorine-containing wastewater in the aluminum industry, zero discharge of copper smelting wastewater, and resource recycling and utilization of non-ferrous metal smelting wastewater.

Chemical industry: Promote chemical wastewater recycling, acid wastewater treatment and recycling equipment, comprehensive wastewater treatment and reuse of oil refining catalysts, advanced treatment and reuse of oil refining wastewater, reuse of ion membrane chelating resin tower regeneration wastewater, coal chemical wastewater treatment and reuse, Solid alkali evaporation and alkaline condensate treatment, petrochemical sewage air flotation biochemical filtration regeneration and recycling complete set, petrochemical water saving and emission reduction complete set of integrated process, chemical wastewater production coal water slurry process integration, concentrated water recycling and utilization of chlor-alkali enterprises, PVC mother liquor wastewater Zero-emission integration, high-salt chemical wastewater recycling membrane integration, double-membrane PVC centrifuge mother liquor reuse technology.

Building materials industry: Promote sewage treatment and reclaimed water recovery systems, zero-discharge concrete mixing devices for waste water and waste residues, and short-process water-saving technology for ceramic brick new dry pulverization.

Food industry: Promote digital cluster drying room and condensed water recovery system, high-efficiency recyclable pretreatment device, bottle washing water cycle purification and sterilization device, comprehensive utilization of beer reclaimed water, membrane biological treatment and reuse of fermented organic wastewater, water cycle of sugar factory and wastewater regeneration Water-saving and recycling of milk-containing beverages, continuous ion exchange in the production of fermentation industry, fully closed-circuit water circulation of amino acids and advanced treatment and reuse, and comprehensive utilization of high-concentration sugar-containing wastewater.

4. Effectively strengthen the supervision and management of energy conservation. Continue to carry out national industrial special energy-saving supervision and daily supervision, formulate energy-saving supervision work plans, focus on key enterprises and key energy-consuming equipment, strengthen supervision and inspection of the implementation of energy-saving laws and regulations, and mandatory energy-saving standards, investigate and deal with illegal energy-use behaviors in accordance with laws and regulations, and strengthen Supervise and guide and rectify within a time limit. Improve the three-level energy conservation supervision system of autonomous regions, league cities, and banner counties, innovate supervision methods, further promote energy conservation diagnosis services, and encourage key enterprises to adopt contract energy management, energy trusteeship and other models to implement transformation. Implement the energy efficiency "leader" action in key energy-consuming industries. (The Department of Industry and Information Technology of the Autonomous Region, the Development and Reform Commission, and the Market Supervision and Administration Bureau are responsible according to the division of responsibilities)

(3) Vigorously develop emerging industries and promote low-carbon energy consumption

1. Optimize the industrial structure layout. Strengthen the leading role of carbon emission reduction in industrial development, implement high-end, intelligent, and green industrial development requirements, and cultivate five advanced manufacturing industries with obvious low-carbon transformation effects: green agricultural and livestock product processing, modern equipment manufacturing, new chemical industry, new materials, and biomedicine Industrial clusters, to create advanced industrial chains with advantages and characteristics such as agricultural and animal product processing, new energy equipment manufacturing, new energy vehicle manufacturing, biomedicine, modern coal chemical industry, fine chemical industry, and new materials. Regional layout projects aimed at realizing carbon peak carbon neutrality ahead of schedule. By 2025, the output value of the modern equipment manufacturing industry will account for about 10% of the industrial output value, and the output value of new materials will account for about 13% of the industrial output value. (The Department of Industry and Information Technology of the Autonomous Region, the Development and Reform Commission, the Energy Bureau, and the State-owned Assets Supervision and Administration Commission are responsible according to the division of responsibilities)