Short Communication - Journal of Chemical Technology and Applications (2020) Volume 3, Issue 5

对可再生能源储能的实现(trend and future expectation of energy storage)

One of the main objectives of sustainable energy systems is to provide clean, affordable, affordable energy with minimal environmental impact. Development of reliable energy systems without toxic effects to conserve the environment while future energy is urgently needed. This demand has led to the development and implementation of energy-efficient systems using photovoltaics (PV) and energy-saving devices. Currently, there is a significant increase in the cost of fuel filling due to increased power grid power consumption and its failure to meet demand. Improving generation, storage and energy consumption through revwables (PV) and storage devices will improve efficient, efficient and reliable energy use. The ultimate goal of a sustainable energy system is to use renewable energy to provide clean, affordable, energy-efficient electricity by depleting land resources. There is a need to come up with reliable fuel-efficient energy systems to conserve the environment while empowering your current and current energy. This has led to the development of renewable energy systems using revwables (photovoltaics and wind) . There is a rapid increase in energy production from PV over the years . Due to the rapid growth of PV generation, energy conservation serves as a generation generation storage facility that we can use when needed. Energy efficiency systems serve as a means of increasing energy consumption and energy consumption. Energy savings are a key factor in the integration of renewable resources, playing a key role in maintaining a strong modern energy system. Starting battery storage is limited due to high cost. Improving technology to save energy can therefore be achieved to meet demand whenever needed will have a significant impact on electricity supply. Helping to try and achieve this goal, energy-saving devices can handle the amount of energy needed to supply consumers at times when there is a great need, which is in the middle of a heavy load. These devices can also help to generate non-renewable energy, the output of which can be controlled by grid operators, is smooth and unobtrusive. nano have advanced electrochemical structures. In Power Electronics, research on high power, high power, high frequency, broad band materials such as silicon-carbide and gallium-nitride is ongoing. In addition, advanced power conversion systems use advanced magnetic strength, high-capacity capacitors, advanced installation and control to significantly increase operational and operational capacity. They can also measure micrograms to achieve a better match between generation and load. The end devices can provide frequency control to maintain a balance between network load and power output, and can achieve more reliable power supply for high-tech industrial facilities. Energy storage is also under consideration for its rapid response - many end-to-end technologies can begin to dissipate energy from the grid very quickly, while orthopedic energy sources often take longer to ascend. This quick response is important in ensuring grid durability when unexpected demand increases. Therefore, energy conservation and energy hold a great promise to transform the energy industry. This paper outlines the latest practice and installation of renewable energy (RE) energy storage such as wind and solar energy in South Korea and other countries including friendly energy conservation policies and support systems available in South Korea, for other countries to follow. And this paper will show its predictions of energy storage technology and market based on the advanced battery price forecast and the future of energy storage as one of the core components for sustainable green emission free world with distributed energy resources (DER) and microgrid.

Author(s): Andrew Kwon

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