As an energy storage system with large energy storage, fast charging and discharging speed, wide operating temperature range, safe and reliable operation, and no maintenance, supercapacitors will gradually replace batteries with the development of supercapacitor technology, and their application fields will continue to expand. It will surely promote the advancement of technology and achieve greater economic and social benefits. There is no chemical reaction or mechanical movement such as high-speed rotation during the use of supercapacitor manufacturers; there is no pollution to the environment, and there is no noise; Farad capacitors are simple in structure and small in size, and are very ideal energy storage devices.

Use on electric vehicles:

Supercapacitors with tens of thousands of farads can be used as short-term driving power for electric vehicles. Under short-term and high-power working conditions such as vehicle starting, acceleration and braking energy recovery, it can significantly improve the power and economy of electric vehicles. and can effectively improve the performance of the battery.

The main factors restricting the development of modern industry are the problem of environmental pollution and the shortage of energy. Nowadays, the automobile industry now occupies most of the energy consumption of modern industry. Therefore, the energy-saving technology of automobiles has become a key technology that must be solved in the development of the automobile industry. Due to the superior functions of supercapacitors, countries all over the world are scrambling to study and use them more and more in electric vehicles. Supercapacitor modules have become a new trend in the development of electric vehicle power supplies, and the composite power system composed of supercapacitors and batteries is considered to be one of the ways to deal with the power problems of electric vehicles in the future.

Use on low-power electrical equipment

Traditional battery flashlights have a limited lifespan, even modern LED flashlights take hours to fully charge, and the battery has a short cycle life. The flashlight using Farad capacitors as the energy storage element only needs 90s to charge, and the cycle life can reach 500,000 times. With a lifespan of about 135 years if charged and discharged once a day, this tactical flashlight was developed by the police and the military. The use of supercapacitors as energy storage components ensures that the emergency lighting has the characteristics of power saving, high brightness, uninterruptedness and longevity.