Technologische Richtung der Wasserstoffenergie und des Kraftstoffs Lithiumbatterie - Lithium-Ionen-Batterieausrüstung
09 Okt 2022
Recently, the National Development and Reform Commission and the National Energy Administration issued the Action Plan for Energy Technology Revolution and Innovation (2016-2030) within the system, and simultaneously released the Roadmap for Key Innovation Actions in Energy Technology Revolution, proposing 15 key innovation tasks, including innovation in clean and efficient utilization of coal, advanced nuclear energy technology, hydrogen energy and fuel power cell technology, advanced energy storage technology Energy Internet technology innovation, etc.
The reporter learned its specific contents from relevant channels. The following are the key tasks, strategic directions, innovation goals and specific contents of innovation actions for hydrogen energy and fuel power cell technology.
Key tasks
1. Research hydrogen production technology based on renewable energy and advanced nuclear energy, new generation of coal catalytic gasification hydrogen production and methane reforming/partial oxidation hydrogen production technology, distributed hydrogen production technology, hydrogen purification technology, develop key materials and technical equipment for hydrogen storage and transportation, realize the integration of large-scale, low-cost hydrogen production, storage, transportation and application, and standardize and promote the application of hydrogen storage and hydrogen production modes at the hydrogenation station site.(Lithium - Ion Battery Equipment)
2. Research hydrogen/air polymer electrolyte membrane fuel power cell (pEMFC) technology, methanol/air polymer electrolyte membrane fuel power cell (MFC) technology, solve the major demand of new energy power supply, and realize the demonstration operation and promotion application of pEMFC electric vehicles and MFC incremental electric vehicles.
3. Research the distributed power generation technology of fuel power cell, and realize demonstration application and promotion.
Strategic direction
1. Hydrogen production, storage and transportation and hydrogenation station. Focusing on large-scale hydrogen production, distributed hydrogen production, hydrogen storage and transportation materials and technologies, as well as hydrogen refueling stations, etc.
2. Advanced fuel power cell. Focus on research and development and tackling key problems in hydrogen/air polymer electrolyte membrane fuel power cell (pEMFC), methanol/air polymer electrolyte membrane fuel power cell (MFC), etc.
3. Fuel power cell distributed power generation. Focusing on the integrated design and system integration of proton exchange membrane fuel power cell (pEMFC), solid oxide fuel power cell (SOFC), metal air fuel power cell (MeAFC), and distributed hydrogen production and fuel power cell (pEMFC and SOFC).
Innovation objectives
1. 2020 target. Establish and improve the design, process and detection platform for large-scale application of hydrogen energy and fuel power cells. Basically master key technologies such as efficient hydrogen preparation, purification, storage and transportation, and hydrogenation station, as well as low-cost long-life electric catalyst technology, polymer electrolyte membrane technology, low platinum loading porous electrode and membrane electrode technology, high consistency stack and system integration technology, break through key technologies such as key materials, core components, system integration, and process control, and realize the application of hydrogen energy and fuel power cell technology in power supply, extended range power supply Demonstration operation or large-scale promotion and application in mobile power supply, distributed power station, hydrogenation station and other fields. Among them, the rated output power of the pEMFC power system is 50~100kW, the system specific power is ≥ 300Wh/kg, the specific power of the stack is more than 3000W/L, and the service life is more than 5000hr; The MFC power supply system achieves rated output power of 5~10kW, system specific energy ≥ 345Wh/kg, and service life of more than 3000hr; Develop hydrogen storage materials or technologies that are close to the operating temperature of proton membrane fuel power cells and have hydrogen storage capacity higher than 5wt%, as well as long-distance and large-scale hydrogen storage and transportation technologies.
2. 2030 target. Realize the integration of large-scale hydrogen production, storage, transportation and application, and realize the standardization, promotion and application of on-site hydrogen storage and production modes of hydrogen refueling stations; Fully master the core key technologies of fuel power cells, establish a complete industrial chain for the preparation and production of fuel power cell materials, components and systems, and realize the large-scale promotion and application of fuel power cells and hydrogen energy.
The reporter learned its specific contents from relevant channels. The following are the key tasks, strategic directions, innovation goals and specific contents of innovation actions for hydrogen energy and fuel power cell technology.
Key tasks
1. Research hydrogen production technology based on renewable energy and advanced nuclear energy, new generation of coal catalytic gasification hydrogen production and methane reforming/partial oxidation hydrogen production technology, distributed hydrogen production technology, hydrogen purification technology, develop key materials and technical equipment for hydrogen storage and transportation, realize the integration of large-scale, low-cost hydrogen production, storage, transportation and application, and standardize and promote the application of hydrogen storage and hydrogen production modes at the hydrogenation station site.(Lithium - Ion Battery Equipment)
2. Research hydrogen/air polymer electrolyte membrane fuel power cell (pEMFC) technology, methanol/air polymer electrolyte membrane fuel power cell (MFC) technology, solve the major demand of new energy power supply, and realize the demonstration operation and promotion application of pEMFC electric vehicles and MFC incremental electric vehicles.
3. Research the distributed power generation technology of fuel power cell, and realize demonstration application and promotion.
Strategic direction
1. Hydrogen production, storage and transportation and hydrogenation station. Focusing on large-scale hydrogen production, distributed hydrogen production, hydrogen storage and transportation materials and technologies, as well as hydrogen refueling stations, etc.
2. Advanced fuel power cell. Focus on research and development and tackling key problems in hydrogen/air polymer electrolyte membrane fuel power cell (pEMFC), methanol/air polymer electrolyte membrane fuel power cell (MFC), etc.
3. Fuel power cell distributed power generation. Focusing on the integrated design and system integration of proton exchange membrane fuel power cell (pEMFC), solid oxide fuel power cell (SOFC), metal air fuel power cell (MeAFC), and distributed hydrogen production and fuel power cell (pEMFC and SOFC).
Innovation objectives
1. 2020 target. Establish and improve the design, process and detection platform for large-scale application of hydrogen energy and fuel power cells. Basically master key technologies such as efficient hydrogen preparation, purification, storage and transportation, and hydrogenation station, as well as low-cost long-life electric catalyst technology, polymer electrolyte membrane technology, low platinum loading porous electrode and membrane electrode technology, high consistency stack and system integration technology, break through key technologies such as key materials, core components, system integration, and process control, and realize the application of hydrogen energy and fuel power cell technology in power supply, extended range power supply Demonstration operation or large-scale promotion and application in mobile power supply, distributed power station, hydrogenation station and other fields. Among them, the rated output power of the pEMFC power system is 50~100kW, the system specific power is ≥ 300Wh/kg, the specific power of the stack is more than 3000W/L, and the service life is more than 5000hr; The MFC power supply system achieves rated output power of 5~10kW, system specific energy ≥ 345Wh/kg, and service life of more than 3000hr; Develop hydrogen storage materials or technologies that are close to the operating temperature of proton membrane fuel power cells and have hydrogen storage capacity higher than 5wt%, as well as long-distance and large-scale hydrogen storage and transportation technologies.
2. 2030 target. Realize the integration of large-scale hydrogen production, storage, transportation and application, and realize the standardization, promotion and application of on-site hydrogen storage and production modes of hydrogen refueling stations; Fully master the core key technologies of fuel power cells, establish a complete industrial chain for the preparation and production of fuel power cell materials, components and systems, and realize the large-scale promotion and application of fuel power cells and hydrogen energy.
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