Limited resources are available on the application of wind generation systems interconnected to weak powemetworks. With the need to further interface DG (distributed generation) including WG (wind generation) to w...Limited resources are available on the application of wind generation systems interconnected to weak powemetworks. With the need to further interface DG (distributed generation) including WG (wind generation) to weak networks, it is necessary to establish a means of determining what is the most efficient quantity of WG that can be applied in order to maintain stability in the network. This paper establishes a concept that can be applied to weak networks. The aim is to estimate how much WG can be installed on weak networks as well as establishing characteristic responses to generation loss without and with faulted conditions. The main contribution is a thorough understanding of weak network limitation proved to be the most critical parameter in these calculations.展开更多
文摘Limited resources are available on the application of wind generation systems interconnected to weak powemetworks. With the need to further interface DG (distributed generation) including WG (wind generation) to weak networks, it is necessary to establish a means of determining what is the most efficient quantity of WG that can be applied in order to maintain stability in the network. This paper establishes a concept that can be applied to weak networks. The aim is to estimate how much WG can be installed on weak networks as well as establishing characteristic responses to generation loss without and with faulted conditions. The main contribution is a thorough understanding of weak network limitation proved to be the most critical parameter in these calculations.