CR2430 battery

Two ministries release strategic direction planning goals for hydrogen energy and CR2430 battery technology

Recently, the National Development and Reform Commission and the National Energy Administration issued the "Energy Technology Revolution Innovation Action Plan (2016-2030)" within the system, and at the same time released the "Energy Technology Revolution Key Innovation Action Roadmap", proposing 15 key innovation tasks, including clean and efficient coal utilization technology innovation, advanced nuclear energy technology innovation, hydrogen energy and CR2430 battery technology innovation, advanced energy storage technology innovation, energy Internet technology innovation, etc.

Electric Vehicle Resource Network learned its specific content from relevant channels. The following are the key tasks, strategic directions, innovation goals and specific content of innovation actions for hydrogen energy and CR2430 battery technology.

Key tasks

1. Research hydrogen production technology based on renewable energy and advanced nuclear energy, new generation 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 large-scale, low-cost hydrogen production, storage, transportation, and application integration, and standardize and promote the application of hydrogen storage and hydrogen production modes at hydrogen refueling stations.

2. Research hydrogen/air polymer electrolyte membrane CR2430 battery (PEMFC) technology and methanol/air polymer electrolyte membrane CR2430 battery (MFC) technology to meet the major demand for new energy power sources, and realize the demonstration operation and promotion of PEMFC electric vehicles and MFC extended-range electric vehicles.

3. Research CR2430 battery distributed power generation technology, realize demonstration application and promotion.

Strategic direction

1. Hydrogen production, storage and transportation and hydrogen refueling stations. Focus on research and development and key breakthroughs in large-scale hydrogen production, distributed hydrogen production, hydrogen storage and transportation materials and technologies, and hydrogen refueling stations.

2. Advanced CR2430 batterys. Focus on research and development and key breakthroughs in hydrogen/air polymer electrolyte membrane CR2430 batterys (PEMFC) and methanol/air polymer electrolyte membrane CR2430 batterys (MFC).

3. CR2430 battery distributed power generation. Focus on research and development and key breakthroughs in proton exchange membrane CR2430 batterys (PEMFC), solid oxide CR2430 batterys (SOFC), metal air CR2430 batterys (MeAFC), and the integrated design and system integration of distributed hydrogen production and CR2430 batterys (PEMFC and SOFC).

Innovation goals

1. 2020 goals. Establish and improve the design, process and testing platform for large-scale application of hydrogen energy and CR2430 batterys. Basically master key technologies such as efficient hydrogen preparation, purification, storage and transportation, and hydrogen refueling stations, as well as low-cost and long-life electrocatalyst technology, polymer electrolyte membrane technology, low-platinum-loaded porous electrodes and membrane electrode technology, high-consistency stacks and system integration technology, break through key materials, core components, system integration, process control and other key technologies, and realize the demonstration operation or large-scale promotion and application of hydrogen energy and CR2430 battery technology in the fields of power supply, extended-range power supply, mobile power supply, distributed power stations, hydrogen refueling stations, etc. Among them, the PEMFC power system has a rated output power of 50~100kW, a system specific power ≥300Wh/kg, a stack specific power of 3000W/L or more, and a service life of 5000hr or more; the MFC power system achieves a rated output power of 5~10kW, a system specific energy ≥345Wh/kg, and a service life of 3000hr or more; develop hydrogen storage materials or technologies close to the operating temperature of proton membrane CR2430 batterys and with a hydrogen storage capacity higher than 5wt%, as well as long-distance, large-scale hydrogen storage and transportation technologies.

2. 2030 goals. Realize the integration of large-scale hydrogen production, storage, transportation, and application, and realize the standardization and promotion of hydrogen storage and production modes at hydrogen refueling stations; fully master the core key technologies of CR2430 batterys, establish a complete preparation and production industry chain of CR2430 battery materials, components, and systems, and realize the large-scale promotion and application of CR2430 batterys and hydrogen energy. Among them, the service life of PEMFC distributed power generation systems reaches more than 10,000hr, the service life of SOFC distributed power generation systems reaches more than 40,000hr, and the service life of MeAFC distributed power generation systems reaches more than 10,000hr.

3. Outlook for 2050. Achieve the popularization and application of hydrogen energy and CR2430 batterys, and achieve breakthrough progress in new explorations of hydrogen energy production and utilization.

Innovative Actions

1. Large-scale hydrogen production technology. Research low-cost hydrogen production technology based on renewable energy and advanced nuclear energy, focus on breakthroughs in key technologies such as solar photolysis and thermal decomposition, and build demonstration systems; break through high-temperature iodine-sulfur cycle water decomposition hydrogen production and high-temperature electrochemical hydrogen production, and complete the design of commercial high-temperature nuclear energy water decomposition hydrogen production scheme. Develop a new generation of coal catalytic gasification hydrogen production and methane reforming/partial oxidation hydrogen production technology.

2. Distributed hydrogen production technology. Research the integrated technology of renewable energy power generation and proton exchange membrane/solid oxide battery water electrolysis hydrogen production, break through the core technologies of materials and components such as high-efficiency catalysts, polymer membranes, membrane electrodes and bipolar plates, master the high-efficiency medium-pressure electrolysis hydrogen production electrolytic cell technology that adapts to the rapid load change of renewable energy, build a demonstration of renewable energy water electrolysis hydrogen production and promote its application; research the high-efficiency catalytic hydrogen production technology and process of distributed natural gas, ammonia, methanol, liquid hydrocarbons and other traditional energy and chemical products, as well as high-efficiency and low-cost membrane reactor hydrogen production and hydrogen purification technology, form a standardized hydrogen station on-site hydrogen production mode and demonstrate its application.

3. Hydrogen storage and transportation technology. Develop 70Mpa grade carbon fiber composite materials and hydrogen storage tank equipment technology, hydrogen station hydrogen high pressure and liquid hydrogen storage technology; research and develop nitrogen-based, boron-based, aluminum-based, magnesium-based and carbon-based lightweight element hydrogen storage materials with low research and development cost, good cycle stability and use temperature close to the operating temperature of CR2430 batterys; develop long-distance, large-scale hydrogen storage and transportation technology with liquid compounds and ammonia as hydrogen storage media, and design and develop high-activity, high-stability and low-cost hydrogenation/dehydrogenation catalysts.

4. Hydrogen/air polymer electrolyte membrane CR2430 battery (PEMFC) technology. In response to the great demand for clean and efficient new energy power sources, the key breakthroughs are made in PEMFC's low-cost and long-life electrocatalysts, polymer electrolyte membranes, ordered membrane electrodes, high-consistency stacks and bipolar plates, modular system integration, intelligent process detection and control, hydrogen source technology and other core key technologies, solving key issues such as PEMFC performance, life, and cost, and realizing the demonstration operation and promotion of PEMFC electric vehicles.

5. Methanol/air polymer electrolyte membrane CR2430 battery (MFC) technology. In response to the great demand for clean and efficient new energy power sources, the key breakthroughs are made in MFC's high-temperature and long-life electrocatalysts, new high-temperature resistant polymer electrolyte membranes, ordered membrane electrodes, integrated organic fuel reforming, stack system integration optimization under high temperature conditions, intelligent control and other core key technologies, and realizing the demonstration operation and promotion of MFC applications in electric vehicles (without hydrogen production, hydrogen storage, or hydrogen refueling stations).

6. CR2430 battery distributed power generation technology. The focus is on the research and development of proton exchange membrane CR2430 batterys (PEMFC) and hydrogen source technology, solid oxide CR2430 battery technology (SOFC), and metal air CR2430 battery (MeAFC) technology. Under the conditions of decentralized power station operation, breakthroughs will be made in key technologies such as key materials, core components, system integration, and mass-energy balance management of PEMFC, SOFC, and MeAFC CR2430 batterys, and a distributed power generation industrialization platform will be established to promote the application of kilowatt to 100-kilowatt PEMFC systems in communication base stations and decentralized power stations; the demonstration application of 100-kilowatt to MW SOFC power generation distributed energy systems will be achieved, with a power generation efficiency of more than 60%, and distributed power stations suitable for remote cities and industrial and mining enterprises will be developed; the demonstration operation or large-scale application of MeAFC systems in smart microgrids, communication base stations, and emergency relief will be achieved.

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