本計畫主要目標為研究微電網內各分散式電源與儲能自主發電調配能力,以因應再生能源之高滲透率、各項電子設備感測元件隨時間衰退與三相不平衡負載等,所造成控制不佳與系統能源損耗情形,為克服此問題,本計畫將研究微電網內各分散式電源饋線系統間調控技術與轉供策略,並透過補償三相不平衡負載,以強化微電網系統之穩定性。此外,本計畫將依據核能所微電網系統為基礎,建立相關微電網系統,其微電網系統包含柴油發電機、儲能系統與三相負載,並依此探討分散式電源在不同運作模式之間互相轉供策略以維護微電網系統之穩定性。 ;The main objective of this project is to study the generation and distribution capabilities of various distributed generators. Due to the high penetration rate of the renewable energy, the decline of sensing components of various electronic equipment, and three-phase unbalanced loads, the control performance of the microgrid is very poor and cause the energy loss. To overcome this problem, the regulation technology and transfer strategy between the distributed generators and the feeder of the microgrid are researched in this project to maintain the stability of the microgrid system by compensating the three-phase unbalanced loads. Moreover, the microgrid system of the institute of Nuclear Energy Research (INER), including diesel generators, storage system and three-phase unbalanced loads, is adopted to established the simulation models. Based on this system, the regulation and transfer strategy of the distributed generators in different operating modes will be discussed to maintain the stability of the microgrid system.
