導語：電力(li)系統及火力(li)發電中自動化技術應(ying)用一文(wen)來(lai)源于網友上(shang)傳(chuan)，不代表(biao)本站觀點，若需要原創(chuang)文(wen)章可咨(zi)詢客服(fu)老師，歡迎參考(kao)。

摘要：近年來，電力體制的改革在不斷的深入，使得火力企業面臨的競爭也更加激烈，再加上用戶對于供電質量提出的要求越來越高，所以傳統的火力發電技術，無法滿足現如今電力企業發展的需求。在這種背景之下，本研究分析電力系統和火力發電當中應用電氣自動化技術的意義，并將主要(yao)研究情況(kuang)進行分析(xi)，希(xi)望所得結果可為相關領域(yu)提供有價(jia)值(zhi)的參考依據。

關鍵(jian)詞：電(dian)(dian)力系統(tong)；火(huo)力發電(dian)(dian)；電(dian)(dian)氣(qi)

自動化技術從現如今社會發展的角度而言，電能對于人類社會是不可或缺的一種重要的能源，它能夠促進人類社會的發展，而且對于人們的日常生活也起到了至關重要的作用。現如今在人們生活學習與工作的環境下，各種電氣設備都離不開電能的使用。我國的電能主要以火力發電為主，全國70%以上的電力供應都以火力發電方式為主。對于我國而言，電力工業是基礎性的行業，在社會發展過程當中肩負著重要的社會職能的作用，對于推動我國經濟的發展和科技的進步也具有重要的價值。為有效提高全民供電的質量，降低電能成本，確保電力穩定發展，保證電能的可靠性，在電力企業需要進行電力技術的相關革新，將自動化電氣技術應用到電(dian)(dian)(dian)(dian)(dian)力(li)(li)(li)發(fa)展的(de)(de)(de)(de)過程當中(zhong)，有(you)效實(shi)現電(dian)(dian)(dian)(dian)(dian)力(li)(li)(li)運營(ying)的(de)(de)(de)(de)自(zi)(zi)動化(hua)目(mu)標，這(zhe)樣才能(neng)(neng)提升供電(dian)(dian)(dian)(dian)(dian)的(de)(de)(de)(de)經濟(ji)水準，也(ye)能(neng)(neng)夠為(wei)電(dian)(dian)(dian)(dian)(dian)力(li)(li)(li)企(qi)業(ye)(ye)獲得必要(yao)(yao)的(de)(de)(de)(de)利潤，可降(jiang)低電(dian)(dian)(dian)(dian)(dian)器(qi)故障情況的(de)(de)(de)(de)發(fa)生(sheng)，有(you)效實(shi)現設備的(de)(de)(de)(de)自(zi)(zi)動檢測和排除。在電(dian)(dian)(dian)(dian)(dian)氣自(zi)(zi)動化(hua)技術的(de)(de)(de)(de)生(sheng)產(chan)過程中(zhong)，電(dian)(dian)(dian)(dian)(dian)力(li)(li)(li)對于(yu)(yu)促進工業(ye)(ye)轉型和升級(ji)，促進電(dian)(dian)(dian)(dian)(dian)力(li)(li)(li)企(qi)業(ye)(ye)可持續發(fa)展具有(you)較大的(de)(de)(de)(de)意義，而且對于(yu)(yu)優化(hua)產(chan)業(ye)(ye)結構也(ye)具有(you)重要(yao)(yao)的(de)(de)(de)(de)價值。所(suo)以在新時期的(de)(de)(de)(de)背景之(zhi)下，研(yan)究電(dian)(dian)(dian)(dian)(dian)力(li)(li)(li)系統和火(huo)力(li)(li)(li)發(fa)電(dian)(dian)(dian)(dian)(dian)當中(zhong)電(dian)(dian)(dian)(dian)(dian)氣設備自(zi)(zi)動化(hua)技術的(de)(de)(de)(de)應用就尤為(wei)重要(yao)(yao)。

1電氣自動化技(ji)術的(de)特點和功能探究

對于(yu)(yu)電(dian)(dian)(dian)(dian)力(li)自(zi)(zi)(zi)(zi)(zi)(zi)動化(hua)(hua)(hua)(hua)(hua)而(er)言(yan)，電(dian)(dian)(dian)(dian)氣(qi)自(zi)(zi)(zi)(zi)(zi)(zi)動化(hua)(hua)(hua)(hua)(hua)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)能夠(gou)實(shi)(shi)現(xian)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)支(zhi)持(chi)，電(dian)(dian)(dian)(dian)氣(qi)自(zi)(zi)(zi)(zi)(zi)(zi)動化(hua)(hua)(hua)(hua)(hua)可(ke)以(yi)加速(su)電(dian)(dian)(dian)(dian)力(li)自(zi)(zi)(zi)(zi)(zi)(zi)動化(hua)(hua)(hua)(hua)(hua)的(de)(de)進(jin)程。電(dian)(dian)(dian)(dian)氣(qi)自(zi)(zi)(zi)(zi)(zi)(zi)動化(hua)(hua)(hua)(hua)(hua)是(shi)一(yi)(yi)種(zhong)高(gao)新(xin)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)，其所涉及到(dao)的(de)(de)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)種(zhong)類較(jiao)多(duo)，通過網絡(luo)控制(zhi)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)、電(dian)(dian)(dian)(dian)力(li)電(dian)(dian)(dian)(dian)子技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)、信息化(hua)(hua)(hua)(hua)(hua)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)、機(ji)電(dian)(dian)(dian)(dian)一(yi)(yi)體化(hua)(hua)(hua)(hua)(hua)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)、自(zi)(zi)(zi)(zi)(zi)(zi)動化(hua)(hua)(hua)(hua)(hua)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)、計算機(ji)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)等(deng)多(duo)種(zhong)高(gao)新(xin)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)綜合構成。這(zhe)種(zhong)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)最早(zao)出現(xian)在(zai)上(shang)個世(shi)紀(ji)70年(nian)代(dai)，并且(qie)在(zai)20世(shi)紀(ji)90年(nian)代(dai)廣泛得(de)到(dao)發(fa)(fa)展(zhan)(zhan)，被(bei)應用(yong)(yong)在(zai)工業(ye)領域(yu)，推動了(le)(le)我(wo)(wo)國(guo)(guo)工業(ye)的(de)(de)發(fa)(fa)展(zhan)(zhan)，也對于(yu)(yu)工業(ye)提供(gong)了(le)(le)高(gao)效(xiao)(xiao)的(de)(de)生(sheng)產力(li)。電(dian)(dian)(dian)(dian)氣(qi)自(zi)(zi)(zi)(zi)(zi)(zi)動化(hua)(hua)(hua)(hua)(hua)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)的(de)(de)應用(yong)(yong)，標志著我(wo)(wo)國(guo)(guo)工業(ye)邁向了(le)(le)一(yi)(yi)個新(xin)的(de)(de)臺階，也對于(yu)(yu)傳統(tong)(tong)(tong)的(de)(de)工業(ye)方式進(jin)行(xing)改革。一(yi)(yi)直(zhi)到(dao)90年(nian)代(dai)末期(qi)，電(dian)(dian)(dian)(dian)氣(qi)自(zi)(zi)(zi)(zi)(zi)(zi)動化(hua)(hua)(hua)(hua)(hua)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)開始應用(yong)(yong)在(zai)電(dian)(dian)(dian)(dian)力(li)領域(yu)，這(zhe)項技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)的(de)(de)應用(yong)(yong)主要重視電(dian)(dian)(dian)(dian)工技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)和(he)電(dian)(dian)(dian)(dian)子技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)的(de)(de)結合，所以(yi)在(zai)如今已(yi)經被(bei)國(guo)(guo)家列為(wei)重點的(de)(de)科(ke)研(yan)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)。電(dian)(dian)(dian)(dian)力(li)系統(tong)(tong)(tong)主要是(shi)對理(li)論(lun)進(jin)行(xing)反饋，它是(shi)一(yi)(yi)個基礎(chu)的(de)(de)自(zi)(zi)(zi)(zi)(zi)(zi)動調(diao)節(jie)原理(li)而(er)實(shi)(shi)現(xian)的(de)(de)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)，可(ke)在(zai)一(yi)(yi)定程度上(shang)提高(gao)電(dian)(dian)(dian)(dian)力(li)系統(tong)(tong)(tong)的(de)(de)強度和(he)穩定性，而(er)且(qie)能有(you)效(xiao)(xiao)的(de)(de)對于(yu)(yu)系統(tong)(tong)(tong)故(gu)障進(jin)行(xing)自(zi)(zi)(zi)(zi)(zi)(zi)查，大(da)(da)大(da)(da)降低了(le)(le)系統(tong)(tong)(tong)故(gu)障的(de)(de)發(fa)(fa)生(sheng)率(lv)，也節(jie)省了(le)(le)必要的(de)(de)人力(li)。通過對電(dian)(dian)(dian)(dian)氣(qi)自(zi)(zi)(zi)(zi)(zi)(zi)動化(hua)(hua)(hua)(hua)(hua)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)的(de)(de)應用(yong)(yong)，可(ke)有(you)效(xiao)(xiao)的(de)(de)全面(mian)(mian)提升供(gong)電(dian)(dian)(dian)(dian)的(de)(de)質量(liang)，促進(jin)供(gong)電(dian)(dian)(dian)(dian)企業(ye)的(de)(de)持(chi)續性發(fa)(fa)展(zhan)(zhan)。現(xian)如今有(you)很多(duo)發(fa)(fa)達國(guo)(guo)家開始全面(mian)(mian)的(de)(de)應用(yong)(yong)電(dian)(dian)(dian)(dian)氣(qi)自(zi)(zi)(zi)(zi)(zi)(zi)動化(hua)(hua)(hua)(hua)(hua)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)，以(yi)此來(lai)實(shi)(shi)現(xian)電(dian)(dian)(dian)(dian)力(li)自(zi)(zi)(zi)(zi)(zi)(zi)動化(hua)(hua)(hua)(hua)(hua)，而(er)電(dian)(dian)(dian)(dian)力(li)自(zi)(zi)(zi)(zi)(zi)(zi)動化(hua)(hua)(hua)(hua)(hua)逐漸開始成為(wei)電(dian)(dian)(dian)(dian)力(li)工業(ye)發(fa)(fa)展(zhan)(zhan)過程中的(de)(de)一(yi)(yi)個主流趨勢(shi)。而(er)我(wo)(wo)國(guo)(guo)關于(yu)(yu)電(dian)(dian)(dian)(dian)氣(qi)自(zi)(zi)(zi)(zi)(zi)(zi)動化(hua)(hua)(hua)(hua)(hua)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)的(de)(de)發(fa)(fa)展(zhan)(zhan)和(he)應用(yong)(yong)都相對較(jiao)遲，在(zai)1987年(nian)才開始對這(zhe)項技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)展(zhan)(zhan)開研(yan)究(jiu)，但(dan)是(shi)因為(wei)受到(dao)資金(jin)和(he)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)條(tiao)件的(de)(de)制(zhi)約，不(bu)(bu)能夠(gou)使其應用(yong)(yong)到(dao)實(shi)(shi)際環境(jing)之中。但(dan)是(shi)這(zhe)項技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)的(de)(de)研(yan)究(jiu)卻填補了(le)(le)我(wo)(wo)國(guo)(guo)電(dian)(dian)(dian)(dian)氣(qi)自(zi)(zi)(zi)(zi)(zi)(zi)動化(hua)(hua)(hua)(hua)(hua)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)的(de)(de)空白。我(wo)(wo)國(guo)(guo)隨著經濟不(bu)(bu)斷的(de)(de)發(fa)(fa)展(zhan)(zhan)，到(dao)90年(nian)代(dai)后(hou)期(qi)開始投入(ru)(ru)大(da)(da)量(liang)的(de)(de)資金(jin)，對于(yu)(yu)這(zhe)項技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)進(jin)行(xing)深(shen)入(ru)(ru)的(de)(de)研(yan)究(jiu)，而(er)且(qie)取得(de)了(le)(le)大(da)(da)量(liang)的(de)(de)成果，到(dao)本世(shi)紀(ji)初，我(wo)(wo)國(guo)(guo)的(de)(de)電(dian)(dian)(dian)(dian)氣(qi)自(zi)(zi)(zi)(zi)(zi)(zi)動化(hua)(hua)(hua)(hua)(hua)技(ji)(ji)(ji)術(shu)(shu)(shu)(shu)(shu)(shu)(shu)(shu)就已(yi)經完全進(jin)入(ru)(ru)了(le)(le)實(shi)(shi)用(yong)(yong)階段。

2電氣自(zi)動化技(ji)術在電力系統(tong)和火力發電中的應用(yong)分(fen)析

2.1電(dian)(dian)氣自(zi)動化(hua)技術在(zai)電(dian)(dian)工領域的應用分(fen)析

通過(guo)本文的(de)(de)(de)(de)(de)(de)(de)(de)分(fen)析可以看出(chu)(chu)，電(dian)(dian)氣(qi)自(zi)(zi)動(dong)(dong)(dong)(dong)化(hua)技(ji)術(shu)(shu)具(ju)有(you)(you)(you)較(jiao)(jiao)好(hao)的(de)(de)(de)(de)(de)(de)(de)(de)應(ying)(ying)用(yong)(yong)優(you)勢(shi)，它能(neng)夠對(dui)電(dian)(dian)梯和(he)電(dian)(dian)力(li)(li)設(she)備(bei)進行(xing)(xing)(xing)優(you)化(hua)。在運(yun)行(xing)(xing)(xing)的(de)(de)(de)(de)(de)(de)(de)(de)過(guo)程(cheng)中(zhong)(zhong)，電(dian)(dian)力(li)(li)的(de)(de)(de)(de)(de)(de)(de)(de)執行(xing)(xing)(xing)狀況(kuang)也(ye)(ye)可以通過(guo)電(dian)(dian)氣(qi)自(zi)(zi)動(dong)(dong)(dong)(dong)化(hua)技(ji)術(shu)(shu)進行(xing)(xing)(xing)監測和(he)控(kong)制(zhi)。現如今的(de)(de)(de)(de)(de)(de)(de)(de)電(dian)(dian)氣(qi)自(zi)(zi)動(dong)(dong)(dong)(dong)化(hua)技(ji)術(shu)(shu)開始應(ying)(ying)用(yong)(yong)，在電(dian)(dian)力(li)(li)調(diao)度和(he)電(dian)(dian)力(li)(li)設(she)備(bei)故(gu)障(zhang)(zhang)檢測方面，能(neng)夠實現電(dian)(dian)氣(qi)設(she)備(bei)的(de)(de)(de)(de)(de)(de)(de)(de)控(kong)制(zhi)，而(er)且(qie)系統(tong)(tong)(tong)(tong)在自(zi)(zi)動(dong)(dong)(dong)(dong)化(hua)運(yun)行(xing)(xing)(xing)方面也(ye)(ye)具(ju)有(you)(you)(you)較(jiao)(jiao)好(hao)的(de)(de)(de)(de)(de)(de)(de)(de)應(ying)(ying)用(yong)(yong)。當(dang)前較(jiao)(jiao)為(wei)常見的(de)(de)(de)(de)(de)(de)(de)(de)電(dian)(dian)力(li)(li)自(zi)(zi)動(dong)(dong)(dong)(dong)化(hua)系統(tong)(tong)(tong)(tong)主要有(you)(you)(you)SD-6000、CC-2000、OPEN-2000等，CC-2000系統(tong)(tong)(tong)(tong)，更融入了(le)VME總線(xian)控(kong)制(zhi)機系統(tong)(tong)(tong)(tong)，采用(yong)(yong)開放式的(de)(de)(de)(de)(de)(de)(de)(de)設(she)計(ji)方式，系統(tong)(tong)(tong)(tong)的(de)(de)(de)(de)(de)(de)(de)(de)實用(yong)(yong)性(xing)與靈活性(xing)強，性(xing)能(neng)好(hao)且(qie)穩定(ding)(ding)，當(dang)前已廣泛(fan)應(ying)(ying)用(yong)(yong)于30多個電(dian)(dian)力(li)(li)工程(cheng)中(zhong)(zhong)；而(er)SD-6000系統(tong)(tong)(tong)(tong)則具(ju)有(you)(you)(you)較(jiao)(jiao)高的(de)(de)(de)(de)(de)(de)(de)(de)集成(cheng)(cheng)性(xing)，系統(tong)(tong)(tong)(tong)功(gong)能(neng)強大，具(ju)有(you)(you)(you)云圖功(gong)能(neng)和(he)投(tou)影功(gong)能(neng)，在具(ju)體(ti)的(de)(de)(de)(de)(de)(de)(de)(de)應(ying)(ying)用(yong)(yong)過(guo)程(cheng)中(zhong)(zhong)可以進行(xing)(xing)(xing)分(fen)布式設(she)計(ji)，系統(tong)(tong)(tong)(tong)的(de)(de)(de)(de)(de)(de)(de)(de)強度相對(dui)較(jiao)(jiao)高，不(bu)會因為(wei)某一(yi)點(dian)的(de)(de)(de)(de)(de)(de)(de)(de)故(gu)障(zhang)(zhang)而(er)導致癱(tan)瘓情況(kuang)的(de)(de)(de)(de)(de)(de)(de)(de)發(fa)生。電(dian)(dian)氣(qi)自(zi)(zi)動(dong)(dong)(dong)(dong)化(hua)技(ji)術(shu)(shu)的(de)(de)(de)(de)(de)(de)(de)(de)抗干擾能(neng)力(li)(li)較(jiao)(jiao)強，通過(guo)場站單(dan)線(xian)圖技(ji)術(shu)(shu)實現較(jiao)(jiao)多的(de)(de)(de)(de)(de)(de)(de)(de)應(ying)(ying)用(yong)(yong)，這項技(ji)術(shu)(shu)隨著(zhu)科研成(cheng)(cheng)果的(de)(de)(de)(de)(de)(de)(de)(de)不(bu)斷(duan)發(fa)展也(ye)(ye)在不(bu)斷(duan)趨于成(cheng)(cheng)熟，并且(qie)開始朝(chao)著(zhu)自(zi)(zi)動(dong)(dong)(dong)(dong)化(hua)和(he)智能(neng)化(hua)的(de)(de)(de)(de)(de)(de)(de)(de)方向發(fa)展，技(ji)術(shu)(shu)的(de)(de)(de)(de)(de)(de)(de)(de)類(lei)型也(ye)(ye)越來(lai)越豐富(fu)，在電(dian)(dian)氣(qi)設(she)備(bei)當(dang)中(zhong)(zhong)應(ying)(ying)用(yong)(yong)得越來(lai)越廣泛(fan)。通過(guo)電(dian)(dian)氣(qi)自(zi)(zi)動(dong)(dong)(dong)(dong)化(hua)技(ji)術(shu)(shu)的(de)(de)(de)(de)(de)(de)(de)(de)實時監控(kong)和(he)電(dian)(dian)壓的(de)(de)(de)(de)(de)(de)(de)(de)監測，可以有(you)(you)(you)效的(de)(de)(de)(de)(de)(de)(de)(de)解決在具(ju)體(ti)應(ying)(ying)用(yong)(yong)過(guo)程(cheng)當(dang)中(zhong)(zhong)所出(chu)(chu)現的(de)(de)(de)(de)(de)(de)(de)(de)問題。它能(neng)有(you)(you)(you)效的(de)(de)(de)(de)(de)(de)(de)(de)對(dui)于故(gu)障(zhang)(zhang)點(dian)進行(xing)(xing)(xing)隔(ge)離，也(ye)(ye)能(neng)夠避(bi)免故(gu)障(zhang)(zhang)對(dui)于相關(guan)設(she)備(bei)和(he)運(yun)行(xing)(xing)(xing)線(xian)路所產(chan)生的(de)(de)(de)(de)(de)(de)(de)(de)影響，所以在一(yi)定(ding)(ding)程(cheng)度上提(ti)高了(le)電(dian)(dian)力(li)(li)系統(tong)(tong)(tong)(tong)運(yun)行(xing)(xing)(xing)的(de)(de)(de)(de)(de)(de)(de)(de)可靠性(xing)，保證(zheng)了(le)電(dian)(dian)力(li)(li)系統(tong)(tong)(tong)(tong)的(de)(de)(de)(de)(de)(de)(de)(de)安全(quan)性(xing)。

2.2電氣(qi)自動化技術在火(huo)力發電中的應用(yong)分析

電(dian)(dian)(dian)(dian)力自(zi)(zi)動(dong)化(hua)是現(xian)(xian)(xian)代火力發(fa)(fa)(fa)電(dian)(dian)(dian)(dian)發(fa)(fa)(fa)展(zhan)(zhan)的(de)(de)(de)(de)(de)(de)必然趨勢(shi)，火電(dian)(dian)(dian)(dian)企(qi)業為實(shi)現(xian)(xian)(xian)自(zi)(zi)身的(de)(de)(de)(de)(de)(de)可持續性發(fa)(fa)(fa)展(zhan)(zhan)，強化(hua)在(zai)(zai)激烈(lie)競爭當中(zhong)立于(yu)不(bu)敗(bai)之地，為了更(geng)好(hao)(hao)的(de)(de)(de)(de)(de)(de)適應(ying)(ying)市場的(de)(de)(de)(de)(de)(de)發(fa)(fa)(fa)展(zhan)(zhan)需求與降低運(yun)(yun)營成(cheng)本，就應(ying)(ying)有(you)(you)(you)效(xiao)提(ti)高電(dian)(dian)(dian)(dian)力系(xi)統(tong)(tong)(tong)(tong)運(yun)(yun)行的(de)(de)(de)(de)(de)(de)效(xiao)率。所以在(zai)(zai)這種環境之下，積極的(de)(de)(de)(de)(de)(de)將(jiang)(jiang)電(dian)(dian)(dian)(dian)氣(qi)自(zi)(zi)動(dong)化(hua)技(ji)(ji)術(shu)應(ying)(ying)用(yong)在(zai)(zai)電(dian)(dian)(dian)(dian)力生(sheng)產過程(cheng)(cheng)中(zhong)十(shi)分(fen)重要(yao)(yao)。將(jiang)(jiang)電(dian)(dian)(dian)(dian)氣(qi)自(zi)(zi)動(dong)化(hua)技(ji)(ji)術(shu)應(ying)(ying)用(yong)在(zai)(zai)電(dian)(dian)(dian)(dian)力系(xi)統(tong)(tong)(tong)(tong)控(kong)(kong)(kong)制過程(cheng)(cheng)當中(zhong)，能夠(gou)有(you)(you)(you)效(xiao)實(shi)現(xian)(xian)(xian)電(dian)(dian)(dian)(dian)力系(xi)統(tong)(tong)(tong)(tong)的(de)(de)(de)(de)(de)(de)自(zi)(zi)動(dong)化(hua)控(kong)(kong)(kong)制，可以實(shi)現(xian)(xian)(xian)電(dian)(dian)(dian)(dian)力的(de)(de)(de)(de)(de)(de)智能化(hua)發(fa)(fa)(fa)展(zhan)(zhan)。現(xian)(xian)(xian)如今(jin)電(dian)(dian)(dian)(dian)力系(xi)統(tong)(tong)(tong)(tong)開始(shi)不(bu)斷的(de)(de)(de)(de)(de)(de)向著智能化(hua)和自(zi)(zi)動(dong)化(hua)的(de)(de)(de)(de)(de)(de)方向發(fa)(fa)(fa)展(zhan)(zhan)，這項(xiang)技(ji)(ji)術(shu)的(de)(de)(de)(de)(de)(de)實(shi)現(xian)(xian)(xian)需要(yao)(yao)智能化(hua)和自(zi)(zi)動(dong)化(hua)作為基礎(chu)。從(cong)這一項(xiang)技(ji)(ji)術(shu)進(jin)行分(fen)析，這項(xiang)技(ji)(ji)術(shu)的(de)(de)(de)(de)(de)(de)應(ying)(ying)用(yong)可以在(zai)(zai)一定(ding)程(cheng)(cheng)度(du)(du)(du)上對(dui)于(yu)傳統(tong)(tong)(tong)(tong)技(ji)(ji)術(shu)條(tiao)件(jian)之下技(ji)(ji)術(shu)的(de)(de)(de)(de)(de)(de)難題(ti)進(jin)行解(jie)決。特(te)別(bie)是在(zai)(zai)一些(xie)非線性的(de)(de)(de)(de)(de)(de)協調(diao)(diao)階段當中(zhong)，通過復雜的(de)(de)(de)(de)(de)(de)控(kong)(kong)(kong)制無法有(you)(you)(you)效(xiao)的(de)(de)(de)(de)(de)(de)實(shi)現(xian)(xian)(xian)，這種智能化(hua)的(de)(de)(de)(de)(de)(de)控(kong)(kong)(kong)制系(xi)統(tong)(tong)(tong)(tong)，具有(you)(you)(you)較(jiao)好(hao)(hao)的(de)(de)(de)(de)(de)(de)控(kong)(kong)(kong)制效(xiao)果(guo)，而且穩定(ding)性較(jiao)高，可以根(gen)據電(dian)(dian)(dian)(dian)力系(xi)統(tong)(tong)(tong)(tong)的(de)(de)(de)(de)(de)(de)運(yun)(yun)行狀況，及(ji)時做好(hao)(hao)相關的(de)(de)(de)(de)(de)(de)控(kong)(kong)(kong)制和決策(ce)，這樣就能夠(gou)保(bao)證系(xi)統(tong)(tong)(tong)(tong)始(shi)終(zhong)處于(yu)良性運(yun)(yun)作的(de)(de)(de)(de)(de)(de)狀態之下。將(jiang)(jiang)電(dian)(dian)(dian)(dian)氣(qi)自(zi)(zi)動(dong)化(hua)技(ji)(ji)術(shu)應(ying)(ying)用(yong)在(zai)(zai)輸(shu)電(dian)(dian)(dian)(dian)系(xi)統(tong)(tong)(tong)(tong)當中(zhong)十(shi)分(fen)重要(yao)(yao)。現(xian)(xian)(xian)如今(jin)的(de)(de)(de)(de)(de)(de)輸(shu)電(dian)(dian)(dian)(dian)系(xi)統(tong)(tong)(tong)(tong)存在(zai)(zai)著一些(xie)損耗，主要(yao)(yao)表現(xian)(xian)(xian)在(zai)(zai)參數控(kong)(kong)(kong)制和調(diao)(diao)節的(de)(de)(de)(de)(de)(de)角度(du)(du)(du)上，在(zai)(zai)具體的(de)(de)(de)(de)(de)(de)實(shi)現(xian)(xian)(xian)過程(cheng)(cheng)中(zhong)，具有(you)(you)(you)較(jiao)大(da)的(de)(de)(de)(de)(de)(de)難度(du)(du)(du)。隨著電(dian)(dian)(dian)(dian)氣(qi)自(zi)(zi)動(dong)化(hua)技(ji)(ji)術(shu)不(bu)斷的(de)(de)(de)(de)(de)(de)融入，能夠(gou)在(zai)(zai)一定(ding)程(cheng)(cheng)度(du)(du)(du)上進(jin)行自(zi)(zi)動(dong)化(hua)的(de)(de)(de)(de)(de)(de)調(diao)(diao)度(du)(du)(du)，這對(dui)于(yu)傳統(tong)(tong)(tong)(tong)電(dian)(dian)(dian)(dian)力調(diao)(diao)度(du)(du)(du)中(zhong)參數控(kong)(kong)(kong)制和條(tiao)件(jian)問題(ti)進(jin)行解(jie)決，也能有(you)(you)(you)效(xiao)實(shi)現(xian)(xian)(xian)輸(shu)電(dian)(dian)(dian)(dian)的(de)(de)(de)(de)(de)(de)結論，可在(zai)(zai)一定(ding)程(cheng)(cheng)度(du)(du)(du)上降低電(dian)(dian)(dian)(dian)力企(qi)業的(de)(de)(de)(de)(de)(de)運(yun)(yun)營成(cheng)本。將(jiang)(jiang)電(dian)(dian)(dian)(dian)氣(qi)自(zi)(zi)動(dong)化(hua)技(ji)(ji)術(shu)應(ying)(ying)用(yong)在(zai)(zai)生(sheng)產安全監督系(xi)統(tong)(tong)(tong)(tong)當中(zhong)。

生(sheng)(sheng)產安(an)(an)(an)全對(dui)于電力(li)企業(ye)來說，是持續發(fa)展的主(zhu)要前提工作，它能(neng)夠維持電力(li)企業(ye)的正常生(sheng)(sheng)產。在(zai)火力(li)發(fa)電過程當中(zhong)，很容易出(chu)現(xian)一(yi)(yi)些安(an)(an)(an)全事故(gu)(gu)，為有效(xiao)(xiao)的降低(di)這(zhe)些安(an)(an)(an)全事故(gu)(gu)的發(fa)生(sheng)(sheng)，需采取生(sheng)(sheng)產安(an)(an)(an)全監控(kong)措施進行(xing)干預(yu)。在(zai)傳統(tong)(tong)的技術條件下，安(an)(an)(an)全監控(kong)的效(xiao)(xiao)率相對(dui)較低(di)，而且具有一(yi)(yi)定的滯后性，所以(yi)在(zai)大多數情(qing)況之下，都不能(neng)夠發(fa)揮出(chu)安(an)(an)(an)全監督(du)的職能(neng)。在(zai)電氣自動化技術安(an)(an)(an)全監督(du)系統(tong)(tong)當中(zhong)，可以(yi)進行(xing)動態的高效(xiao)(xiao)控(kong)制，這(zhe)樣就能(neng)夠使系統(tong)(tong)對(dui)于電磁暫停過程當中(zhong)所存在(zai)的問題進行(xing)分析，記錄(lu)相關的故(gu)(gu)障(zhang)波，有效(xiao)(xiao)實(shi)現(xian)對(dui)系統(tong)(tong)的控(kong)制，這(zhe)對(dui)于生(sheng)(sheng)產管理能(neng)夠提供可行(xing)的依(yi)據。

3結語

綜上(shang)所述，本研究(jiu)簡要分(fen)析(xi)電(dian)力(li)(li)系(xi)統和火力(li)(li)發(fa)(fa)電(dian)當中(zhong)電(dian)氣(qi)自(zi)動(dong)化(hua)(hua)技術應(ying)(ying)用的價值。從現如今的角(jiao)(jiao)度而言，電(dian)力(li)(li)工業發(fa)(fa)展(zhan)正在朝(chao)著自(zi)動(dong)化(hua)(hua)和智能化(hua)(hua)的方向發(fa)(fa)展(zhan)，在發(fa)(fa)展(zhan)過程中(zhong)都離不開對(dui)(dui)于電(dian)氣(qi)自(zi)動(dong)化(hua)(hua)技術的應(ying)(ying)用。從火力(li)(li)發(fa)(fa)電(dian)的角(jiao)(jiao)度而言，為了適應(ying)(ying)新的市場環境，有(you)效的強化(hua)(hua)競爭實力(li)(li)，提升自(zi)身的運營水(shui)平，就(jiu)應(ying)(ying)該(gai)對(dui)(dui)于現如今的電(dian)力(li)(li)系(xi)統進行完善和改革，強化(hua)(hua)電(dian)氣(qi)自(zi)動(dong)化(hua)(hua)技術的應(ying)(ying)用，有(you)效促進電(dian)力(li)(li)系(xi)統的發(fa)(fa)展(zhan)。

參考文獻：

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作者:董國燊 單位(wei):山(shan)東科技大學