More and more distributed generations (DGs)such as solar,wind,and energy storage,etc,inject into the power grid mainly through the power electronics equipments.Large-scale power electronic equipments connected to the ...More and more distributed generations (DGs)such as solar,wind,and energy storage,etc,inject into the power grid mainly through the power electronics equipments.Large-scale power electronic equipments connected to the grid bring new challenges for traditional power quality.Power quality analysis theory and control technology for smart grid will provide the comprehensive and systematic solutions and approaches in the展开更多
Power transformers and steam turbines were the key drivers in the development of the AC power system paradigm at the dawn of the 20 th century, characterized by huge synchronous generators feeding millions of passive ...Power transformers and steam turbines were the key drivers in the development of the AC power system paradigm at the dawn of the 20 th century, characterized by huge synchronous generators feeding millions of passive loads through large interconnected systems, all of them supervised and controlled from a centralized energy management system(EMS). In the same way, thyristor valves and IGBTs, introduced展开更多
Complex networks are ubiquitous in our lives. Representative examples are the Internet, social networks, biological networks, E-commerce networks, electrical power grids, and larger-scale engineering systems. It is we...Complex networks are ubiquitous in our lives. Representative examples are the Internet, social networks, biological networks, E-commerce networks, electrical power grids, and larger-scale engineering systems. It is well known that the Internet has been a powerful engine for our societal evolution and technological innovation. Nowadays, network science and engineering faces fundamental challenges, such as understanding the complexity of various large-scale networks, developing new architectures and exploiting new substrates, and enabling new applications and new economics. To a better future, the complex networks in our lives will need to be better: more accessible, more reliable, more predictable, and more secure.展开更多
文摘More and more distributed generations (DGs)such as solar,wind,and energy storage,etc,inject into the power grid mainly through the power electronics equipments.Large-scale power electronic equipments connected to the grid bring new challenges for traditional power quality.Power quality analysis theory and control technology for smart grid will provide the comprehensive and systematic solutions and approaches in the
文摘Power transformers and steam turbines were the key drivers in the development of the AC power system paradigm at the dawn of the 20 th century, characterized by huge synchronous generators feeding millions of passive loads through large interconnected systems, all of them supervised and controlled from a centralized energy management system(EMS). In the same way, thyristor valves and IGBTs, introduced
文摘Complex networks are ubiquitous in our lives. Representative examples are the Internet, social networks, biological networks, E-commerce networks, electrical power grids, and larger-scale engineering systems. It is well known that the Internet has been a powerful engine for our societal evolution and technological innovation. Nowadays, network science and engineering faces fundamental challenges, such as understanding the complexity of various large-scale networks, developing new architectures and exploiting new substrates, and enabling new applications and new economics. To a better future, the complex networks in our lives will need to be better: more accessible, more reliable, more predictable, and more secure.
