It is a technological innovation and also a technological innovation in the new energy era.

Against the backdrop of rising global energy demand and increasing environmental awareness, the new energy sector has ushered in a golden period of vigorous development. From the surge in sales of new energy vehicles to the rise of new energy industries such as energy storage and hydrogen energy, new energy is gradually changing the global energy landscape. In this wave of development, ultrasonic spraying equipment, with its unique technical advantages, plays a vital role in many key links in the new energy field and has become an important force in promoting the advancement of new energy technology and industrial development.

At present, the new energy field presents the characteristics of continued expansion of market scale, accelerated technological innovation, increased policy support and increasingly fierce market competition. As the world's largest new energy vehicle market, China has successfully achieved the transition from policy-driven to market-driven. In 2024, the sales of new energyvehicles will reach 13 million, showing strong market demand. Not only that, new energy industries such as energy storage and hydrogen energy have also entered a key development stage, and technological innovation and commercial application are constantly advancing.

In terms of technological innovation, battery technology breakthroughs in the field of new energy vehicles have become the core driving force for the development of the industry. Technical routes such as lithium iron phosphate batteries, solid-state batteries and sodium-ion batteries have become the focus of competition among automakers. In particular, solid-state batteries are expected to lead the next round of industry changes with their higher safety and energy density. At the same time, the application of intelligent technology in the field of new energy vehicles is becoming more and more extensive. Intelligent functions such as autonomous driving, on-board AI systems and human-vehicle interaction have become important means for automakers to create differentiated competitive advantages.

Application of ultrasonic spraying equipment in the field of new energy‍‍‍‍‍

Solar energy field

In the solar photovoltaic industry, ultrasonic spraying equipment plays an irreplaceable role. In the production process of solar cells, it is widely used for the surface coating of photovoltaic cells and the uniform coating of conductive films. For example, transparent conductive oxide (TCO) can be applied to the surface of photovoltaic cells with high precision to ensure the improvement of photoelectric conversion efficiency. Compared with traditional spraying technology, ultrasonic spraying equipment can operate at lower temperatures and has better film consistency, thereby improving the performance and stability of photovoltaic cells. In addition, ultrasonic spraying equipment also plays a big role in the surface treatment of solar water heaters and solar thermal collection systems. By precisely spraying the coating, the energy loss of solar equipment can be significantly reduced, the utilization rate of solar energy can be improved, and the thermal effect and durability of the system can be helped.

Fuel cell field

As a clean energy technology, the coating process of the catalyst layer in the membrane electrode assembly (MEA), the core component of fuel cells, plays a decisive role in the performance of the cell. Traditional catalyst coating methods have problems such as uneven coating and low catalyst utilization. Ultrasonic spraying technology, with its particle spray characteristics, can achieve uniform coating of the catalyst layer, significantly improve the distribution uniformity and activity of the catalyst, and thus effectively improve the performance and efficiency of the fuel cell. In addition, ultrasonic spraying equipment can also be used for surface treatment of other components of fuel cells, such as coating of electrodes and diaphragms. This precise coating control can effectively improve the life and working efficiency of fuel cells, which is of great significance for promoting the commercialization of fuel cell technology.

Battery technology field

Ultrasonic spraying equipment also plays an important role in the manufacturing process of lithium-ion batteries. This technology can achieve high-precision, low-loss coating, improve the energy density and cycle stability of the battery. Ultrasonic spraying equipment also has important applications in the protection of battery shell coatings. By spraying functional coatings such as anti-corrosion and waterproofing, the service life and reliability of the battery can be effectively extended, especially in energy equipment used under abnormal environmental conditions, its role is more prominent.

With the continuous advancement of energy technology, the application prospects of Shanghai Yangmi ultrasonic spraying equipment in the field of energy science are very broad. In the future, with the continuous optimization of technology, the spraying accuracy and efficiency will be further improved, and the types and functions of coating materials will continue to expand. At the same time, the automation and intelligence of equipment will continue to improve, which will further improve the production efficiency of products in the energy field and reduce production costs.

Under the general trend of vigorous development in the field of new energy, ultrasonic spraying equipment will usher in a broader development space and contribute important forces to global energy transformation and sustainable development.