China News Service, August 29. According to the website of the Ministry of Industry and Information Technology on the 29th, the Ministry of Industry and Information Technology, the Ministry of Finance, the Ministry of Commerce, the State-owned Assets Supervision and Administration Commission of the State Council, and the State Administration for Market Regulation recently issued "Accelerating the Green and Low-Carbon Innovative Development of Electric Power Equipment". action plan".
The "Plan" proposes to improve the matching level of energy efficiency of electrical equipment.
Develop products such as high power density permanent magnet motors, synchronous reluctance motors, smart motors, and ultra-efficient asynchronous motors.
Strengthen the research and development, promotion and application of high-efficiency energy-saving transformers.
Accelerate the promotion and application of high-efficiency electric boilers, electric kilns and other equipment, and expand the replacement of electric energy in the fields of industry, transportation, and construction.
Accelerate the improvement of energy efficiency of energy-using systems, and carry out energy-saving transformation and optimization of operation control for key electrical equipment systems.
Promote the improvement of the waste motor recycling system, encourage enterprises to carry out motor remanufacturing, and promote the application of remanufactured motor products.
Among them, the key directions of green and low-carbon development in the ten major fields of power equipment are clarified.
Promote the green and low-carbon development of power equipment in 10 fields including thermal power, hydropower, nuclear power, wind power, solar power, hydrogen energy, energy storage, power transmission, distribution and power consumption.
Thermal equipment.
Carry out research and application of technologies such as high efficiency and wide load, flexibility, quality and efficiency improvement, energy saving and emission reduction, deep peak regulation, unit life extension and intelligence in service units and systems.
Focus on the development of technologies and equipment such as coal-electricity multi-energy coupling, wind-solar-water storage multi-energy complementary power generation, gas turbine power generation, carbon capture, utilization and storage, coal gasification combined cycle power generation, and coal gasification fuel cell power generation.
Hydro equipment.
Focus on the development of wide-load transformation and intelligent upgrade of hydropower units, ultra-high head impact units under complex geological conditions, variable-speed pumped storage and seawater pumped storage, tidal power stations and megawatt-level tidal power generation, megawatt-level wave power generation, Technology and equipment such as capacity-enhancing, efficiency-enhancing, and quality-renovation of old hydropower units.
nuclear power equipment.
Focus on the development of nuclear-grade castings and forgings, key pump valves, control systems, nuclear-grade instruments and meters, and cobalt-based welding consumables.
Research and establish a nuclear power-specific software verification database to support the development, optimization and upgrading of the software system.
Accelerate the development of third-generation nuclear power standardization and genealogy, and continue to promote the development and application of fourth-generation nuclear power reactors such as sodium-cooled fast reactors, high-temperature gas-cooled reactors, and lead-bismuth fast reactors.
Accelerate research on cutting-edge disruptive technologies such as controllable nuclear fusion.
Wind power equipment.
Focus on the development of onshore wind turbines above 8MW and offshore wind turbines above 13MW, and develop deep-sea floating offshore wind power equipment.
Breakthroughs in new fixed support structures, main bearings and key power modules of converters for ultra-large offshore wind turbines.
Increase basic simulation software research and application of sliding bearings, and research and develop wind power blade decommissioning technical routes.
Solar equipment.
Focus on the development of high-efficiency and low-cost photovoltaic cell technology.
Research and develop high-reliability and intelligent photovoltaic modules and high-voltage, high-power, efficient heat dissipation inverters, as well as key technologies such as intelligent fault detection and rapid positioning.
Develop integrated operation and maintenance technology and intelligent photovoltaic management system based on 5G, advanced computing, artificial intelligence and other new generation information technologies.
Actively develop solar thermal power generation, and promote the establishment of multi-energy complementary integration of solar thermal power generation with photovoltaics and energy storage.
Research the implementation path of photovoltaic module resource utilization.
Hydrogen equipment.
Accelerate the research and development and application of technical equipment such as hydrogen production and hydrogen fuel cell stacks, and strengthen key components of hydrogen fuel cells and long-distance pipeline hydrogen transportation technology.
Energy storage equipment.
Significantly improve the reliability of electrochemical energy storage equipment, accelerate the development of compressed air energy storage and flywheel energy storage equipment, and develop multi-level protection technologies and equipment for fire safety in energy storage power stations.
Research and develop on-line detection, state prediction and early warning technologies and equipment for energy storage batteries and systems.
Transmission equipment.
Focus on the research and development of offshore wind power flexible DC transmission and low-frequency transmission, AC-DC hybrid distribution network systems, switching arcs, and long-term live reliability evaluation of equipment.
Breakthrough in basic components and components such as on-load tap-changers, bushings, and intelligent components of converter transformers.
Carry out the research and development of high-end electrical steel low-loss transformers, thermoplastic environmentally friendly cable materials, new low-greenhouse-effect environmentally friendly insulating gases and other related equipment.
Power distribution equipment.
Accelerate the development and application of core protection and control equipment such as digital sensors, power routers, power flow controllers, and solid-state circuit breakers.
Accelerate the integrated application of new power distribution equipment and the construction of highly autonomous power distribution systems in application scenarios such as data centers, mobile communications, and rail transit.
Electrical equipment.
Focus on the development of level 2 and above energy-efficiency motors, direct drive and integrated permanent magnet/reluctance electric drive systems, ultra-high-efficiency high-torque electromechanical system assemblies, smart motors, micro-grids and third-generation semiconductor variable frequency power supply high-efficiency motor systems and Electric drive equipment.
(Zhongxin Finance)
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