As the core component of the energy storage system, the capacity and management effect of lead-acid battery directly affect the application performance and economy of the whole energy storage system. Therefore, it is ...As the core component of the energy storage system, the capacity and management effect of lead-acid battery directly affect the application performance and economy of the whole energy storage system. Therefore, it is necessary to strengthen the balanced management of the capacity of lead-acid battery in the energy storage system. This paper will try to design an automatic and information-based lead-acid battery capacity balance management system for energy storage system, so as to realize accurate estimation and dynamic monitoring of lead-acid battery capacity, and lay a good foundation for lead-acid battery balance management of energy storage system.展开更多
CO_(2)electroreduction is a promising technique for the management of the global carbon balance by lowgrade renewable electricity.However,the lack of highly efficient and selective catalysts has hampered the developme...CO_(2)electroreduction is a promising technique for the management of the global carbon balance by lowgrade renewable electricity.However,the lack of highly efficient and selective catalysts has hampered the development of this area.Herein,we report a poly-phenylenediamine-derived atomically dispersed Ni catalyst as a highly efficient and selective electrocatalyst for the conversion of CO_(2)to CO.展开更多
文摘As the core component of the energy storage system, the capacity and management effect of lead-acid battery directly affect the application performance and economy of the whole energy storage system. Therefore, it is necessary to strengthen the balanced management of the capacity of lead-acid battery in the energy storage system. This paper will try to design an automatic and information-based lead-acid battery capacity balance management system for energy storage system, so as to realize accurate estimation and dynamic monitoring of lead-acid battery capacity, and lay a good foundation for lead-acid battery balance management of energy storage system.
基金support from National Key Basic Research Program of China(2014CB931801 and 2016YFA0200700,Z.Y.T.)National Natural Science Foundation of China(21890381,21721002,21475029 Z.Y.T.and 51772957,Y.G.)+1 种基金Frontier Science Key Project of Chinese Academy of Sciences(QYZDJ-SSW-SLH038,Z.Y.T.)K.C.Wong Education Foundation(Z.Y.T.).
文摘CO_(2)electroreduction is a promising technique for the management of the global carbon balance by lowgrade renewable electricity.However,the lack of highly efficient and selective catalysts has hampered the development of this area.Herein,we report a poly-phenylenediamine-derived atomically dispersed Ni catalyst as a highly efficient and selective electrocatalyst for the conversion of CO_(2)to CO.
