配電網(wǎng)電能質(zhì)量分析及其治理技術(shù)
張濟韜�,郝思鵬,楚成彪,劉少凡
(南京工程學院,江蘇 南京 211167)
摘 要: 針對穩(wěn)態(tài)�、動態(tài)電能質(zhì)量問題,介紹了傅里葉變換���、小波變換、S 變換等分析方法��,論述了當前研究現(xiàn)狀并指出其不足,在治理技術(shù)上�,目前采用用戶電力技術(shù)治理配電網(wǎng)電能質(zhì)量問題比較有效,介紹了穩(wěn)態(tài)����、動態(tài)電能質(zhì)量和諧波的治理技術(shù),并對比了有源濾波器�、固態(tài)轉(zhuǎn)換開關(guān)、配電型靜止同步補償器�����、不間斷電源等控制裝置的性能優(yōu)缺點���、應(yīng)用進展及其經(jīng)濟性����。
關(guān)鍵詞: 穩(wěn)態(tài)電能質(zhì)量�;動態(tài)電能質(zhì)量;用戶電力技術(shù)���;調(diào)節(jié)裝置
中圖分類號:TM712 文獻標識碼: A 文章編號:1007-3175(2014)11-0001-05
Power Quality Analysis and Control Technology
ZHANG Ji-tao, HAO Si-peng, CHU Cheng-biao, LIU Shao-fan
(Nanjing Institute of Technology, Nanjing 2111 67, China)
Abstract: In allusion to steady and dynamic power quality problems, introduction was made to the Fourier transformation, wavelettransformation, S transformation etc analysis methods. Discussion was made to the research status and the deficiencies of the current points. In the governance of technology, the custom power technology is more effective for quality problems. Dynamic power quality and harmonic governance of technology were introduced. This paper contrasted with advantages and disadvantages of the active power filter, solid state transfer switch, distribution static synchronous compensator, uninterrupted power supply and other control devices, as well as the application progress and economy.
Key words: steady power quality; dynamic power quality; custom power technology; regulating device
參考文獻
[1] TranK , VaziriM . Effects of dispersed generation (DG) on distributionsystems[C]//IEEE Power Engineering Society General Meeting, SanFrancisco, USA, 2005.
[2] Chiradeja P, Ramakumar R.An approach to quantify the technical benefits of distributed generation[J].IEEE Transactions on Energy Conversion, 2004, 19(4):764-773.
[3] 林海雪. 現(xiàn)代電能質(zhì)量的基本問題[J]. 電網(wǎng)技術(shù)�����,2001�,25(10):5-12.
[4] 呂廣強, 趙劍鋒����, 程明, 等. 配電網(wǎng)動態(tài)電能質(zhì)量問題及其解決方案[J]. 高電壓技術(shù)���,2007��,33(1):53-56.
[5] Ferrero A, Salicone S, Toscani S. A fast,simplified frequency-domain interpolation method for the evaluation of the frequency and amplitude of spectral components[J].IEEE Transactions on Instrumentation and Measurement, 2011, 60(5):1579-1587.
[6] 吳靜�����,趙偉.一種用于分析電網(wǎng)諧波的多譜線插值算法[J].中國電機工程學報,2006�,26(8):55-60.
[7] 龐浩,李東霞�����,俎云霄���,等. 應(yīng)用FFT 進行電力系統(tǒng)諧波分析的改進算法[J]. 中國電機工程學報��,2003�,23(6):50-54.
[8] Belega D, Dallet D, Petri D.Statistical description of the sine-wave frequency estimator provided by the interpolated DFT method[J]. Measurement, 2012, 45(1):109-117.
[9] Harris F J. On the Use of Windows for Harmonic Analysis with the Discrete Fourier Transform[J].Proceedings of the IEEE, 1978,66(1):51-83.
[10] 卿柏元,滕召勝���,高云鵬���,等.基于Nuttall窗雙譜線插值FFT的高精度電力諧波分析方法[J].中國電機工程學報,2008����,28(25):153-158.
[11] 惠錦,楊洪耕.用于諧波/間諧波分析的奇數(shù)頻點插值修正法[J].中國電機工程學報���,2010����,30(16):67-72.
[12] 劉冬梅���, 鄭鵬����, 何怡剛, 等. 幾種諧波檢測加窗插值FFT 算法的比較[J]. 電測與儀表����,2013,50(12):51-55.
[13] 張穎超����,周瀅. 加窗傅里葉變換在諧波分析中的應(yīng)用[J]. 南京信息大學學報:自然科學版,2013�,5(6):544-547.
[14] 溫和,滕召勝�����,王永�����,等. 改進加窗插值FFT 動態(tài)諧波分析算法及應(yīng)用[J]. 電工技術(shù)學報����,2012���,27(12):270-277.
[15] 向東陽��,王公寶�����,馬偉明�����,等. 基于FFT 和神經(jīng)網(wǎng)絡(luò)的非整數(shù)次諧波檢測方法[J]. 中國電機工程學報�����,2005����,25(9):35-39.
[16] 蔡忠法,陳隆道.基于AR譜估計和Adaline神經(jīng)元的間諧波分析[J].電力系統(tǒng)自動化���,2007��,31(17):78-82.
[17] 劉慧芳����,陳勇勝����,王群���,等. 基于小波變換和模糊邏輯的暫態(tài)電能質(zhì)量擾動分類[J]. 電網(wǎng)技術(shù),2008����,32(3):84-87.
[18] 張宇輝,陳曉東����,王鴻懿. 基于連續(xù)小波變換的電能質(zhì)量測量與分類[J]. 電力自動化設(shè)備,2004�,24(3):17-21.
[19] 張曉冰,崔家瑞�����,梁原華. 小波變換在電能質(zhì)量擾動檢測與定位中的應(yīng)用[J]. 哈爾濱理工大學學報�����,2006�����,11(6):118-121.
[20] 何為����,楊洪耕. 基于第二代小波變換和矢量量化理論的電能質(zhì)量擾動分類方法[J]. 電網(wǎng)技術(shù),2007�����,31(12):82-86.
[21] Pinnegar C R, Mansinha L.The S-transform with windows of arbitrary and varying shape[J].Geophysics, 2003, 68(10):381-385.
[22] 付娟�����,周漢勇����,姜勤. 基于S 變換的暫態(tài)電能質(zhì)量擾動檢測與仿真[J]. 電力系統(tǒng)保護與控制,2009�,37(21):86-89.
[23] 郭俊文,李開成����,何順帆.基于改進不完全S變換與決策樹的實時電能質(zhì)量擾動分類[J].電力系統(tǒng)保護與控制,2013�����,41(22):103-110.
[24] 吳俊勇.“智能電網(wǎng)綜述”技術(shù)講座第四講:電力電子技術(shù)在智能電網(wǎng)中的應(yīng)用[J]. 電力電子,2010(4):67-70.
[25] 楊洪耕���,肖先勇����,劉俊勇.電能質(zhì)量問題的研究和技術(shù)進展六——電能質(zhì)量控制技術(shù)進展[J].電力自動化設(shè)備��,2004�����,24(3):1-4.
[26] ZHANG Chang-zheng, CHEN Qiao-fu, ZHAO Youbin,et al. A novel active power filter for high voltage power distribution systems application[J].IEEE Transactions on Power Delivery, 2007, 22(2):911-918.
[27] 郝曉弘�,杜先君,陳偉. 動態(tài)電壓恢復(fù)器(DVR) 研究現(xiàn)狀與發(fā)展綜述[J]. 科學技術(shù)與工程���,2008����,8(5):1259-1264.
[28] 吳彤�����, 涂光瑜���, 楊小衛(wèi). 采用定制電力技術(shù)解決配電側(cè)電能質(zhì)量問題[J]. 高電壓技術(shù)�����,2005�,31(9):72-74.
