Laboratory-Based Smart Power System, Part II: Control, Monitoring, and Protection
作者: Vahid Salehi , Ahmed Mohamed , Ali Mazloomzadeh , Osama A Mohammed , None
关键词: Grid 、 Engineering 、 Embedded system 、 Control system 、 Reliability (computer networking) 、 Microgrid 、 Software 、 Systems architecture 、 Smart grid 、 Synchronization 、 Control engineering
摘要: Wide area monitoring (WAM), wide protection (WAP), and control (WAC) systems will enhance the future of smart grid operation in terms reliability security. In part I this paper, a proposed architecture for hybrid ac/dc hardware test-bed system was presented. Design details various components their connectivity overall were identified. II focus is on design monitoring, control, integrated real-time operation. Various scenarios startup continuous are examined. We have developed based measurements. The advanced measurement synchrophasors also implemented using DAQs synchronous data. features variety capabilities such as online parameters calculation voltage stability monitoring. These an experimental case to systems. Moreover, designed inside software environment monitor data, make comprehensive reliable coordination whole system. Ideas related interaction dc microgrid involving sustainable energy sources with main ac been explicit achievable any research laboratory real-world applications.
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