Shanghai aims at new tracks to promote the development of green and low-carbon industries action plan (2022-2025)

　1. Overall requirements

　 (1) Basic principles

　 Energy Cleanliness. Further increase the proportion of renewable energy such as solar energy, wind energy, ocean energy, and geothermal energy as well as clean energy such as nuclear energy and hydrogen energy, and expand the use of potential alternative energy sources such as ammonia energy.

Low-carbon raw materials. Accelerate the substitution of low-carbon raw materials in key industries such as petrochemicals and steel, increase the proportion of natural gas, light hydrocarbons, biomass and other raw materials in the petrochemical industry, increase the scrap ratio in the steel industry, and promote the replacement of carbon with hydrogen in the smelting process.

Material functionalization. Promote the lightweight, highly reinforced and functional materials, support the improvement of conversion efficiency of new energy equipment, and promote the mass production and application of key materials in the fields of new energy, energy conservation and environmental protection.

Process efficiency. Promote the transformation and upgrading of energy-using systems such as motors, refrigeration, water pumps, and air compressors, optimize the production processes of key industries such as electric power, steel, and chemicals, and promote the application of new technologies in data centers.

Terminal electrification. Guided by electrification and intelligence, promote the upgrading of terminal energy consumption patterns and improve the level of electrification in industry, construction, transportation and other fields.

Resource recycling. Improve the utilization level of renewable resources, promote technology using carbon dioxide as raw material, and increase the cascade utilization of used power batteries and the co-processing of urban waste.

　(2) Main objectives

　The industrial scale is growing rapidly. By 2025, the scale of green and low-carbon industries will exceed 500 billion yuan, and a development pattern of industrial clusters with 2 billions, 5 billions, and several billions will be basically formed.

The innovation capability has been steadily improved. Focusing on "new technologies, new processes, new materials, new equipment, and new energy", we strive to cultivate 10 manufacturing innovation centers and enterprise technology centers at or above the municipal level, 5 R&D and inspection verification platforms, 5 large enterprise research institutes and New R&D institutions. A number of forward-looking technologies and key core technologies have achieved breakthroughs, and the level of technology has been significantly improved.

Market entities are gradually growing. Promote the "Ten, Hundred, Thousand" project and cultivate more than 10 green and low-carbon leading enterprises, more than 100 core enterprises and 100More than 0 characteristic enterprises and more than 200 green manufacturing demonstration units have been established.

The park system is sound and complete. Focusing on hydrogen energy, high-end energy equipment, low-carbon metallurgy, green materials, energy conservation and environmental protection, carbon capture, utilization and storage (CCUS) and other fields, we strive to create five characteristic industrial parks and accelerate the cultivation of several characteristic parks or high-quality micro parks.

2. Green and low-carbon industry cultivation actions

(1) Focus on the high-end of the industry and lead the advantageous track

1. Cutting-edge technology. Support enterprises to continue to carry out basic research on low-carbon/zero-carbon/negative carbon, and increase innovation in disruptive production processes and alternative products. Carry out research on technologies such as multiple conversion of electricity, artificial photosynthesis, transformative carbon dioxide utilization, and non-carbon dioxide greenhouse gas emission reduction. Accelerate breakthroughs in key technologies and core equipment such as new-generation nuclear energy technology, ultra-efficient photovoltaic/photothermal technologies such as new high-efficiency silicon-based photovoltaic cells, and deep-sea floating wind farms and tidal energy. Carry out research on mechanical energy storage, electrochemical energy storage, etc.

2. High-end equipment. Promote the development and application of key components and service technologies for heavy-duty gas turbines. Accelerate research on advanced nuclear energy systems and independent nuclear energy equipment, and form stable manufacturing capabilities for third- and fourth-generation nuclear power equipment components. Promote research on core components such as wind power drives and blades, accelerate the modular design of wind power, and form cost competitive advantages. Explore the remanufacturing business of key engine parts, automobiles, high-end medical equipment, etc., and form the agglomeration advantage of remanufacturing enterprises such as auto parts, engineering machinery, etc.

3. Extreme energy efficiency. Promote the innovation and application promotion of technological equipment in key energy-consuming industries, and accelerate the replication and promotion of ultra-low coal consumption power generation technology in the power industry; strengthen process waste heat, residual pressure recovery and energy cascade utilization in the petrochemical and chemical industry; promote the use of liquid cooling, artificial intelligence operation and maintenance in data centers, etc. Technology reduces power usage effectiveness (PUE). Promote high-efficiency equipment such as magnetic levitation refrigerators, permanent magnet air compressors, and high-temperature and high-efficiency heat pumps. Promote digital transformation and upgrading, guide enterprises to establish energy management centers, and promote the development of industrial software in the energy field. Promote new models such as “one-stop” comprehensive energy-saving services, third-party environmental pollution management, and environmental trusteeship services.

4. Low-carbon metallurgy. Support enterprises to tackle hydrogen-rich carbon cycle blast furnaces, hydrogen-based shaft furnaces and other processes. Strengthen green quality steel, consolidate the technical advantages of high-efficiency silicon steel, nuclear power steel, high-temperature alloys and other products, and make breakthroughs in technologies such as steel for new energy vehicle drive motors and batteries, and core soft magnetic materials for high-efficiency transformers. Cultivate a low-carbon metallurgical industry ecology and form a manufacturing process equipment and cycle based on hydrogen energy, new materials, and smart manufacturing.Steel-related green and low-carbon industries dominated by the economy.

　(2) Promote the development of clusters, broaden and run the track

　5. New energy vehicles. Build a key component technology and product supply system, accelerate breakthroughs in key power battery technologies, and promote the integrated, high-density, and intelligent development of drive motors and control systems. Give full play to the pulling effect of leading new energy vehicle companies and attract a number of key parts and components "unicorn" companies. Develop the decommissioned power battery recycling industry, build the city's power battery industry chain traceability and management recycling network system, and promote the development of power battery recycling technology, technology, equipment, and industrial agglomeration.

6. Hydrogen energy industry. Support commercial demonstration applications in multiple scenarios and fields such as fuel cell heavy-duty trucks, buses, and cold chain logistics vehicles, and drive the development of upstream industrial chains such as fuel cell systems and core components. Make full use of industrial by-product hydrogen resources to build major hydrogen supply bases in Jinshan and Baoshan; build industrial practice areas in Lingang, Jiading and Qingpu to enrich application scenarios; carry out integration of new energy sources such as megawatt wind power and photovoltaics to produce hydrogen by electrolyzing water and Application demonstration and pilot application of "ammonia-hydrogen" green energy. Breakthroughs in key technologies such as high-energy-efficiency hydrogen fuel cell systems, long-life stacks, membrane electrodes, and proton exchange membranes. Promote the application of multiple storage and transportation technologies such as high-pressure hydrogen supply and hydrogenation equipment and 70 MPa hydrogen storage bottles.

　(3) Expand application scenarios and seize emerging tracks

　7. Green materials. Promote the mass production of low-cost large tow carbon fiber, breakthroughs in the industrialization of high-strength and high-modulus carbon fiber above T800 level, research on carbon fiber-specific resin technology, and explore the application of carbon fiber in new carbon-core energy-saving wires, hydrogen storage containers and other fields. Promote high-temperature superconducting cables and support the application of high-temperature superconducting technology in nuclear fusion and other fields. Carry out research and application of photocatalysis in pollution control and other fields. Develop low-carbon chemical industry and promote the application demonstration of synthesis gas production from natural gas and carbon dioxide and light hydrocarbon cracking technology.

8. Carbon trading and carbon finance. Rely on the national carbon trading system to enrich market trading entities, introduce carbon trading credit guarantee insurance, establish a carbon inclusive mechanism, and guide enterprises to continuously improve their carbon asset management capabilities; establish and improve the carbon trading standard rule system. Focus on the development of financial products such as carbon funds, carbon bonds, carbon pledges, and carbon insurance. Encourage the development of financial leasing business for major energy-saving, low-carbon and environmentally friendly equipment. Standardize the development of supply chain financial products and promote innovation in carbon financial derivatives in an orderly manner.

(4) Strengthen integrated innovation and achieve overtaking in corners

9.Carbon capture and applications. Promote the application of a new generation of phase-change carbon dioxide capture technology, break through key indicators such as solvent loss and regeneration heat consumption, and reduce capture costs. Accelerate research on carbon dioxide conversion technologies such as biology, chemicals, materials, and mineralization, promote the industrialization pilot of carbon dioxide to produce carbon nanotubes and other high-value chemicals, and carry out demonstrations of 10,000-ton carbon dioxide capture and methanol production. Promote the expansion of carbon capture, utilization and storage (CCUS) application scenarios into other industries such as chemical industry and steel, and accelerate the integrated development with energy storage, hydrogen energy and other technologies.

10. Smart grid. Accelerate the deployment of new energy terminals and smart grid facilities, give full play to the demonstration role of new energy microgrids, smart carbon reduction virtual power plants and other projects, and promote the application of smart grids such as photovoltaic storage, direct-to-flexible power plants. Promote the development of smart grids and distributed energy equipment toward high voltage and intelligence, and carry out the application of energy storage devices such as large-capacity long-life safety batteries and solid-state batteries. Strengthen smart energy services and promote the application of photovoltaic energy storage microgrid technology, battery artificial intelligence technology, lithium battery energy storage systems, and DC microgrid systems.

3. Characteristic park upgrade actions

(1) Aiming at cluster development, accelerating the construction of hydrogen energy demonstration practice District

Promote the construction of Jiading Hydrogen Port, form a cluster of key components, systems, complete vehicles and other industries, establish a national platform for hydrogen fuel cell vehicle measurement and testing, and build the entire hydrogen fuel cell vehicle industry chain to create a fuel cell vehicle industry ecosystem with complete infrastructure. Relying on the Lingang International Hydrogen Energy Valley, we will focus on the manufacturing of fuel cell vehicles, heavy-duty gas turbines, and aircraft engines, accelerate the construction of integrated hydrogen production, storage, and refueling stations, carry out the industrialization and pilot testing of electrolysis water equipment, and carry out hydrogen energy applications in transportation. Pilot demonstrations of comprehensive utilization in , energy, construction and other fields.

　 (2) Using high-end development as the driving force, comprehensively build a "Lingang Power City"

　Accelerate the development of the full power sector of the Lingang New Area, Create a power cluster of "air, space, land and sea energy" in aviation, aerospace, automobile, ocean and energy. Accelerate the layout of key links in the industrial chain and develop high value-added links such as R&D, design, production and maintenance services of high-end power key components and complete sets of equipment. Accelerate the development of core equipment products and promote the research and development and industrialization of high-performance aero engines and heavy-duty gas turbines.

(3) Taking innovative development as the direction, accelerating the construction of "Baowu (Shanghai) Carbon Neutral Industrial Park"

Relying on relevant enterprises and professionals Institutional and industrial alliances focus on hydrogen-rich carbon cyclesWe will tackle key technical issues such as blast furnaces and hydrogen-based shaft furnaces, create a pilot demonstration of carbon-neutral characteristic industry agglomeration, introduce the world's top 500 R&D institutions and business sectors, establish a low-carbon and carbon-reduction R&D transformation platform, attract "specialized, specialized and innovative" enterprises, and introduce diversified transform social capital.

(4) With low-carbon hydrogen sources + new materials as the core, accelerate the construction of the "Shanghai Chemical Industry Zone Green Low-carbon Demonstration Park"

In Shanghai The chemical industry zone has formed a diversified hydrogen source supply model, increased the utilization of by-product hydrogen, carried out biogas hydrogen production, and explored electrolytic hydrogen production from renewable energy sources such as wind energy. Focusing on building the Shanghai International Chemical New Materials Innovation Center, we will accelerate the incubation and application of lightweight and high-strength materials, new energy materials, hydrogen storage and transportation materials, fuel cell materials, and carbon dioxide resource utilization technologies. Promote the application of natural gas and light hydrocarbons to replace coal and petroleum as chemical raw materials, and encourage enterprises to increase the proportion of bio-based and waste-based raw materials.

　 (5) Cultivate and construct a number of potential parks through step-by-step promotion

Lay out a number of potential parks, increase efforts in cultivation and improvement, and promote It becomes a characteristic park or a boutique micro park. The Carbon Capture and Utilization Demonstration Park carries out technological research on next-generation carbon dioxide capture and promotes demonstrations of carbon dioxide production of carbon nanotubes and composite materials. Qingpu Hydrogen Economic Ecological Park builds a hydrogen automobile industry chain. Lingang Remanufacturing Industrial Park develops the remanufacturing of automobile parts, engineering machinery, medical equipment, gas turbines and other equipment. Changxing Low-Carbon Innovation Industrial Park promotes the research and development of tidal energy power generation technology, LNG ship production and manufacturing, and develops green marine equipment and green transportation industries. Promote the construction of carbon-neutral innovation technology platforms, give full play to the role of various scientific and technological innovation platforms in the city, increase cooperation between industry, academia and research, and promote common technology research and achievement transformation.

IV. Actions to improve industrial ecology

(1) Create a highland for technological innovation

Give full play to the original innovative role of universities and colleges, focus on common technologies, cutting-edge technologies and disruptive technologies, increase scientific research efforts, and create platforms such as carbon capture, utilization and storage technology research centers and low-carbon metallurgical technology innovation centers. Give full play to the main role of enterprises in innovation, strengthen cooperation between industry, academia and research, and improve the conversion rate of results. Promote the deep integration of technological innovation and the real economy, and give full play to the role of functional platforms such as manufacturing innovation centers.

　(2) Promote the coordinated development of the industrial chain

　 Give play to the leading role of leading enterprises and enhance the professional collaboration and supporting capabilities of small and medium-sized enterprises. Support enterprises to deeply explore the national carbon neutral market and use advanced technology andProfessional services increase market share. Create a number of green supply chains and encourage core enterprises to drive the high-end and green development of enterprises in the chain. Build a number of inspection, testing, evaluation and certification service platforms to promote the healthy and standardized development of the industry.

　 (3) Promote the construction of the standard system

Promote the formulation of standards that reach domestic leading and internationally advanced levels, and build Shanghai's green and low-carbon standard system. Encourage leading enterprises to drive upstream and downstream supporting small and medium-sized enterprises to jointly carry out standardization work, and explore the establishment of industry chain standardization alliances.

5. Safeguard measures

(1) Strengthen overall coordination

Relevant departments in the city have strengthened coordination and cooperation to form a joint force. Each district and park implements various policies and measures for industrial development to ensure the supply of project implementation elements. Encourage enterprises, industry organizations, research institutions, etc. to strengthen cooperation in technological research, product research and development, standard formulation, application demonstration, etc.

　 (2) Increase relevant policy support

Build a policy system to support the development of green and low-carbon industries in this city, focusing on the transformation of results and scenario application and bottleneck problems in the project implementation process, and carry out pilot trials. Implement the national green and low-carbon development policy, comprehensively use fiscal, financial, investment, land and other policies, make full use of national and city special funds for energy conservation and emission reduction, promote high-quality industrial development, and strategic emerging industries to support the city's green and low-carbon development Technological breakthroughs, industrial development and characteristic park construction.

　(3) Accelerate the construction of talent team

　Increase the introduction and training of talents in green and low-carbon industries to form hierarchical and multi-channel talents training system. Introduce compound talents with international innovation and leadership, select a group of leading talents and young talents through the selection of high-level industrial elites, give full play to the role and advantages of universities and research institutes in cultivating outstanding innovative talents, and expand the industry Team.

　(4) Deepen international and domestic cooperation

Relying on the integrated high-quality development of the Yangtze River Delta, further promote green and low-carbon development with relevant domestic regions cooperation. Make full use of Shanghai's advantages as a window and bridge for opening up to the outside world, better leverage the functional advantages of the Pilot Free Trade Zone, Lingang New Area, and Hongqiao International Open Hub, and strengthen international cooperation in green technology innovation, green finance, and response to climate change.

(5) Strengthen green and low-carbon guidance

Take the National Energy Saving Publicity Week, Low Carbon Day, Carbon Expo, etc. as opportunities to spread the concept of green and low-carbon development. Create a good atmosphere for the development of green and low-carbon industries through multi-level and multi-form publicity such as special forums, technology displays, and exchange meetings. Promote the application of green and low-carbon technologies and products and promote green and low-carbon consumption.