一種針對屋頂光伏系統(tǒng)的電能質(zhì)量評估方法研究
史恒逸
(南京理工大學(xué) 自動化學(xué)院, 江蘇 南京 210094)
摘 要:層次分析法(AHP)是電能質(zhì)量評估的一種常用方法��,但易受到主觀意志的干擾����。研究了一種將層次分析法與熵權(quán)法結(jié)合形成主客觀結(jié)合的電能質(zhì)量評估方法��,通過引入熵權(quán)法將各指標(biāo)的實際波動情況引入權(quán)重計算中�,以此減小主觀因素對權(quán)重分配的干擾���。介紹了電能質(zhì)量的綜合評估流程,對電能各指標(biāo)權(quán)重系數(shù)的計算進(jìn)行了闡述����,仿真實驗表明該種方法得出的電能質(zhì)量更加符合實際情況。
關(guān)鍵詞:光伏���;電能質(zhì)量�;綜合評估��;層次分析法�����;熵權(quán)法
中圖分類號:TM714 文獻(xiàn)標(biāo)識碼:A 文章編號:1007-3175(2019)11-0001-04
Comprehensive Evaluation of Power Quality of Rooftop Photovoltaic Access System Based on
Improved AHP and Entropy Weight Method
SHI Heng-yi
(School of Automation, Nanjing University of Science and Technology, Nanjing 210094, China)
Abstract: The analytic hierarchy process (AHP) is a commonly used method for the power quality assessment, but it is easily disturbed by subjective will. This paper researched on a kind of power quality assessment method combined the AHP with the entropy weight method including subjective and objective elements. The entropy weight method was used to make the actual fluctuation of each index introduced to the weight calculation, so as to reduce the interference of small subjective factors on the weight distribution. Introduction was made to the comprehensive assessment process of power quality and expounded each index weight coefficient calculation. The simulation results show that the power quality obtained by this method is more in line with the actual situation.
Key words: photovoltaic; power quality; comprehensive evaluation; analytic hierarchy process; entropy weight method
參考文獻(xiàn)
[1] 馬春艷�,劉惠康��,龔瑛. 基于改進(jìn)熵權(quán)法的DPV電能質(zhì)量評估[J]. 高壓電器����,2016,52(5):192-198.
[2] 熊以旺�����,程浩忠,王海群�����,徐俊. 基于改進(jìn)AHP和概率統(tǒng)計的電能質(zhì)量綜合評估[J]. 電力系統(tǒng)保護(hù)與控制�����,2009�����,37(13):48-52.
[3] LEE B, CHOI C H, CHOI N S, et al.Distribution System Evaluation Algorithm Using Analytic Hierarchy Process[C]// International Conference on Advances in Applied Artificial Intelligence: Industrial��,2006.
[4] 林爽��,秦萃麗. 模糊層次分析法在電能質(zhì)量綜合評估中的應(yīng)用研究[J]. 電網(wǎng)與清潔能源�����,2018�,34(1):72-77.
[5] ZHAO X, ZHAO C Y, JIA X F, et al.Fuzzy Synthetic Evaluation of Power Quaility Based on Changeable Weight[J].Power System Technology,2005�,29(6):11-16.
[6] 嚴(yán)利萍��,馬少華��,郜幔幔����,陳卓鋒. 中壓配網(wǎng)電壓偏差與波動綜合評估方法及其應(yīng)用[J]. 電工電氣���,2016(9):38-42.
[7] 徐柏榆�����,王玲���,李玎,盛超��,馬明. 基于逆向云的電能質(zhì)量擾動綜合評估方法[J]. 中國電力�����,2014�,47(10):52-56.
[8] 張偉���,郭勇. 基于層次化熵權(quán)法的電能質(zhì)量綜合評估[J]. 電力科學(xué)與工程�,2013,29(6):41-46.
[9] 歐陽森����,石怡理. 改進(jìn)熵權(quán)法及其在電能質(zhì)量評估中的應(yīng)用[J]. 電力系統(tǒng)自動化,2013��,37(21):156-159.
[10] 閆晶���,王培��,宋雨. 基于生態(tài)位與遺傳算法的智能電網(wǎng)電能質(zhì)量評估方法的研究[J]. 東北電力技術(shù)�����,2010��,31(11):6-8.
[11] 李娜娜����,何正友. 主客觀權(quán)重相結(jié)合的電能質(zhì)量綜合評估[J]. 電網(wǎng)技術(shù)����,2009�����,33(6):55-61.
[12] 徐澤水. 層次分析新標(biāo)度法[J]. 系統(tǒng)工程理論與實踐����,1998(10):75-78.
[13] 趙憲��,周力行���,鄧維. 改進(jìn)的層次分析法在含分布式電源系統(tǒng)電能質(zhì)量綜合評估中的應(yīng)用[J]. 中國電力����,2014�,47(12):72-78.
[14] 邱玉婷,李濟(jì)沅���,鄧旭�����,鄧國軍,周浩. 基于改進(jìn)TOPSIS-RSR法的電能質(zhì)量綜合評價[J]. 高壓電器��,2018,54(1):44-50.
