Promote the Development of New Energy Storage

Promote the Development of New Energy Storage – Fuel Cell Coating – Cheersonic

The supply capacity of new energy storage products with high safety, high reliability, high energy efficiency, long life and economic feasibility has continued to improve in recent years. Promote the new energy storage manufacturing industry to better meet the application needs of multiple fields such as electricity, industry, energy, transportation, construction, communications, and agriculture.

1. Implement new energy storage technology innovation actions and develop diversified new energy storage technologies. Facing the needs of multiple time scales and multiple application scenarios such as medium, short and long-term electrical energy storage, accelerate the diversified development of new energy storage technologies, and improve the safety, reliability, economic feasibility and energy conversion efficiency of new energy storage products and technologies. Accelerate the iterative upgrading of mature technologies such as lithium batteries and supercapacitors, support disruptive technological innovation, and enhance the supply capacity of high-end products. Promote the engineering and application technology research of sodium batteries, liquid flow batteries, etc. Develop long-term energy storage technologies such as compressed air, and accelerate the improvement of technical economy and system energy conversion efficiency. Moderately advance the layout of ultra-long-term energy storage technologies such as hydrogen energy storage, encourage the exploration and development of multi-type hybrid energy storage technologies in combination with application needs, and support forward-looking basic research on new system batteries, heat storage and cold storage.

2. Implement demonstration application scenario expansion actions to promote the application of energy storage on the power supply and grid side. Actively encourage thermal power to reasonably configure new energy storage, and explore the application of new energy storage in multiple scenarios such as peak regulation and frequency regulation. Expand the application scenarios of new energy 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. Explore the use of renewable energy to produce hydrogen in areas such as deserts, Gobi, and wasteland where new energy is rich and local absorption capacity is low. Accelerate the promotion of shared energy storage and enhance the auxiliary service capabilities of energy storage for the power system. Accelerate the promotion of alternative energy storage in areas with tight land resources or remote areas, strengthen the construction of facilities and equipment such as substations and emergency power supplies, and enhance the security capabilities of the power grid.

In the view of industry insiders, as an ideal clean energy in the future, hydrogen energy is gradually becoming one of the important carriers of global energy transformation and development, and plays a vital role in promoting the realization of the “dual carbon” goal and promoting energy transformation. With the intensive introduction of green hydrogen support policies in many places, the demand for electrolyzer bidding has doubled. With industrial decarbonization and consumption demand, the importance of hydrogen energy in policy planning is expected to increase. The launch of wind and solar projects will also accelerate the bidding process, focusing on hydrogen production, storage and transportation.

Hydrogen production by electrolysis of water is the most advantageous method for producing hydrogen. Utrasonic coating systems are ideal for spraying carbon-based catalyst inks onto electrolyte membranes used for hydrogen generation. This technology can improve the stability and conversion efficiency of the diaphragm in the electrolytic water hydrogen production device. Cheersonic has extensive expertise coating proton exchange membrane electrolyzers, creating uniform, effective coatings possible for electrolysis applications.

Cheersonic ultrasonic coating systems are used in a number of electrolysis coating applications. The high uniformity of catalyst layers and even dispersion of suspended particles results in very high efficiency electrolyzer coatings, either single or double sided.

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.

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