电工电气
電工電氣
전공전기
ELECTROTECHNICS ELECTRIC
2014年
7期
1-4,31
,共5页
高志强%高玮%高骏%胡文平%蒋晓青%吴熙
高誌彊%高瑋%高駿%鬍文平%蔣曉青%吳熙
고지강%고위%고준%호문평%장효청%오희
农村微电网%储能系统%风力发电%光伏发电%多时间尺度
農村微電網%儲能繫統%風力髮電%光伏髮電%多時間呎度
농촌미전망%저능계통%풍력발전%광복발전%다시간척도
rural microgrid%energy storage%wind power turbine%photovoltaic%multiple-time scale
对农村微电网中风光储互补供电技术进行了针对性研究,提出了一种风光储多时间尺度互补供电技术,利用储能系统和风光发电系统在时间尺度上的差异和互补特性,充分发挥储能系统的快速功率吞吐能力和灵活充放电特性,与分布式风光发电的备用功率调节特性协调互补,进而提高农村微电网供电系统的供电可靠性和安全性。基于PSCAD/EMTDC电磁暂态仿真平台建立风光储互补微电网电磁暂态仿真模型,在农村微电网并/离网切换过程中对储能系统的快速功率支撑以及风光储的多时间尺度供电技术进行了仿真分析,结果表明风光储多时间尺度互补供电技术运行稳定,解决了农村地区供电可靠性低及电能质量差等难题。
對農村微電網中風光儲互補供電技術進行瞭針對性研究,提齣瞭一種風光儲多時間呎度互補供電技術,利用儲能繫統和風光髮電繫統在時間呎度上的差異和互補特性,充分髮揮儲能繫統的快速功率吞吐能力和靈活充放電特性,與分佈式風光髮電的備用功率調節特性協調互補,進而提高農村微電網供電繫統的供電可靠性和安全性。基于PSCAD/EMTDC電磁暫態倣真平檯建立風光儲互補微電網電磁暫態倣真模型,在農村微電網併/離網切換過程中對儲能繫統的快速功率支撐以及風光儲的多時間呎度供電技術進行瞭倣真分析,結果錶明風光儲多時間呎度互補供電技術運行穩定,解決瞭農村地區供電可靠性低及電能質量差等難題。
대농촌미전망중풍광저호보공전기술진행료침대성연구,제출료일충풍광저다시간척도호보공전기술,이용저능계통화풍광발전계통재시간척도상적차이화호보특성,충분발휘저능계통적쾌속공솔탄토능력화령활충방전특성,여분포식풍광발전적비용공솔조절특성협조호보,진이제고농촌미전망공전계통적공전가고성화안전성。기우PSCAD/EMTDC전자잠태방진평태건립풍광저호보미전망전자잠태방진모형,재농촌미전망병/리망절환과정중대저능계통적쾌속공솔지탱이급풍광저적다시간척도공전기술진행료방진분석,결과표명풍광저다시간척도호보공전기술운행은정,해결료농촌지구공전가고성저급전능질량차등난제。
Based on a rural microgrid composed of wind power Turbine (WT) and photovoltaic (PV) generators with energy storage (ES), this paper proposed the multiple-time scale complementary power supply technology. By using the quick power support and charge/dis-charge characteristics of the ES system, as well as the distributed coordination characteristics of WT and PV power generators, the power supply reliability and security of the rural microgrid could be improved. A typical rural microgrid composed of WT, PV and ES was built based on PSCAD/EMTDC electromagnetic transient simulation platform and the quick power support of ES and multiple-time scale coor-dination control were analyzed in the simulation model. Simulation results show that the proposed WT/PV/ES complementary power sup-ply technology can solve the low power supply reliability and poor power quality of rural microgrid etc power supply problems.