Promoting the Development of New Energy Storage
Promoting the development of new energy storage and welcoming a new era of energy transformation
Against the backdrop of global energy transformation, the development of new energy storage technologies has become a key link. In recent years, the supply capacity of new energy storage products with high safety, high reliability, high energy efficiency, long life and economic feasibility has continued to rise, striving to better meet the application needs of many fields such as electricity, industry, energy, transportation, construction, communications, and agriculture.
Technological innovation drives the diversified development of new energy storage
Technical exploration of multiple time scales and application scenarios
Facing the needs of multiple time scales and diverse application scenarios such as medium-, short-, and long-term electrical energy storage, it is imperative to accelerate the diversification of new energy storage technologies. This not only helps to improve the safety, reliability, and economic feasibility of new energy storage products and technologies, but also significantly improves energy conversion efficiency. For example, in the peak and valley regulation of urban power grids, medium- and short-term energy storage technologies can respond quickly and balance power supply and demand; while in distributed energy systems in remote areas, long-term energy storage technologies can ensure a continuous and stable supply of energy.
Upgrading mature technologies and disruptive innovation
Relatively mature technologies such as lithium batteries and supercapacitors need to be continuously iterated and upgraded. By continuously optimizing materials and improving processes, the performance of the products will be improved to a higher level, and the supply capacity of high-end products will be enhanced. At the same time, we will vigorously support disruptive technological innovation and inject new vitality into the field of energy storage. For example, exploring a new battery material system may bring about a breakthrough in energy density.
Emerging technology research and long-term energy storage development
Actively promote the engineering and application technology research of emerging technologies such as sodium batteries and flow batteries. These technologies have unique advantages, such as low cost of sodium batteries, high safety and long life of flow batteries, and are expected to play an important role in different application scenarios. In terms of long-term energy storage, we will develop technologies such as compressed air, and accelerate the improvement of its technical economy and system energy conversion efficiency by optimizing system design and improving equipment performance. For example, compressed air energy storage can use abandoned mines and other spaces to store a large amount of energy and release it during peak electricity consumption.
Advanced layout and forward-looking technology research
Moderately advance the layout of ultra-long-term energy storage technologies such as hydrogen energy storage. Hydrogen energy storage has the advantages of high energy density and long storage time, and is an important development direction for future energy storage. It is encouraged to explore and develop multi-type hybrid energy storage technologies in combination with actual application needs, give full play to the strengths of different energy storage technologies, and achieve complementary advantages. In addition, increase investment in basic research on forward-looking technologies such as new system batteries, heat storage and cold storage, and lay a solid foundation for the long-term development of energy storage technology.
Expand demonstration application scenarios and tap into the potential of energy storage
Energy storage expansion on the power supply and grid side
Actively encourage thermal power to reasonably configure new energy storage. Thermal power combined with energy storage can effectively improve the flexibility of the unit and explore the development of new energy storage combined with peak load regulation, frequency regulation and other multi-scenario applications. When electricity consumption is low, the energy storage system stores excess electricity; when electricity consumption is high, it releases electricity to help thermal power better adapt to changes in grid load. At the same time, vigorously expand new energy application scenarios such as wind and solar hydrogen storage, open up the green electricity-green hydrogen-green ammonia/green alcohol industry chain, and promote the efficient use of multi-energy complementarity. For areas such as deserts, Gobi, and wastelands where new energy is rich but local absorption capacity is low, explore the use of renewable energy to produce hydrogen, convert excess electricity into hydrogen energy for storage, and realize the cross-time and space transfer of energy.
Shared energy storage and promotion of alternative energy storage
Accelerate the promotion of shared energy storage mode, which can integrate resources, enhance the auxiliary service capacity of energy storage to the power system, and reduce the construction and operation costs of energy storage. In areas with tight land resources or remote areas, accelerate the promotion of alternative energy storage and strengthen the construction of facilities and equipment such as substations and emergency power supplies. Alternative energy storage can be adapted to local conditions, adopt small and flexible energy storage methods, enhance the security capacity of the power grid, and ensure stable and reliable power supply in these areas.
Ultrasonic spraying, adding bricks and tiles to the development of energy storage
In the wave of development of new energy storage technology, ultrasonic spraying technology has shown unique application value and advantages. Taking Cheersonic ultrasonic spraying as an example, in the field of battery pole spraying, ultrasonic spraying can achieve high-precision and uniform coating spraying. In lithium battery production, uniform electrode coating can improve the consistency and stability of the battery, thereby improving the battery’s charge and discharge efficiency and cycle life. For emerging sodium batteries and flow batteries, ultrasonic spraying technology can also accurately control the coating thickness and composition to optimize battery performance.
In the production of proton exchange membrane fuel cells related to hydrogen energy storage, ultrasonic spraying can spray the catalyst evenly on the membrane electrode. This not only improves the utilization rate of the catalyst and reduces costs, but also enhances the performance and durability of the fuel cell. At the same time, in terms of coating protection of hydrogen storage containers, Cheersonic ultrasonic spraying can provide high-quality coatings, enhance the corrosion resistance of containers, and ensure the safety of hydrogen storage.
In terms of thermal management of energy storage systems, ultrasonic spraying can evenly coat heat dissipation materials on the surface of key components, improve heat dissipation efficiency, and ensure that energy storage equipment can operate stably under different working conditions.
In summary, the development of new energy storage technologies covers multiple levels of technological innovation and application expansion, and ultrasonic spraying technology, with its unique advantages, plays an important role in all aspects of the energy storage industry and contributes to the vigorous development of new energy storage. We should actively grasp these technological development trends, accelerate the widespread application of new energy storage in various fields, and help the global energy transformation to a new height.
About Cheersonic
Cheersonic is the leading developer and manufacturer of ultrasonic coating systems for applying precise, thin film coatings to protect, strengthen or smooth surfaces on parts and components for the microelectronics/electronics, alternative energy, medical and industrial markets, including specialized glass applications in construction and automotive.
Our coating solutions are environmentally-friendly, efficient and highly reliable, and enable dramatic reductions in overspray, savings in raw material, water and energy usage and provide improved process repeatability, transfer efficiency, high uniformity and reduced emissions.
Chinese Website: Cheersonic Provides Professional Coating Solutions
