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110kx降壓變電站的一次系統(tǒng)初步設(shè)計(jì)-wenkub

2023-07-14 18:15:17 本頁(yè)面
 

【正文】 system directly affects the safety and economic operation. To be designed in this paper is a stepdown substation in the system plays the role of aggregation and distribution of electric energy, charged with the factory to the region, the important task of rural electrification. The pletion of the substation will not only strengthen the local power grid work structure, but also for the local industrial and agricultural production provides enough power, so that the regional power grid so as to achieve safe, reliable, quality, aim to run the economy.I n this thesis, 110kV substation city primary system design, first through the analysis of raw data and selected based on total load of the substation main transformer, the main wiring under both economical and reliable, flexible operation requirements, select the main connection of the two to be elected A technical parison program, out of poor program to determine the main electrical substation connection program.Second, the shortcircuit current calculation, obtained from the threephase short circuit calculation occurs when shortcircuit the voltage level of the bus, its steadystate current and the impact of shortcircuit current value. According to the results and the voltage level of voltage and maximum continuous operating current of the main electrical equipment selection and validation (including circuit breaker, disconnecting switch, current transformer, voltage transformer, etc.).Finally, the main draw of the electrical wiring diagram, electrical general layout plans, with lightning protection.Keywords:Power system substation, stepdown substation, electrical equipment目 錄摘 要 ........................................................IABSTRACT .......................................................................................................II第 1 章 設(shè)計(jì)內(nèi)容和任務(wù) ........................................1 原始資料分析 .............................................1 .....................................1 .............................1 .......................................2 .......................................2 .................................................3第二章 主變壓器的選擇 ........................................4 ...........................................4 .................................7第三章 電氣主接線的選擇 ......................................8 .................................................8 ...........................8 ...............................9 .............................9 側(cè)主接線方案 ...................................10 側(cè)主接線方案 ....................................12 側(cè)主接線方案 ....................................13第四章 短路電流計(jì)算 .........................................15 ..................................15 ......................................15 ..................................15 的計(jì)tI算。本論文《110kV 某市變電站一次系統(tǒng)設(shè)計(jì)》 ,首先通過(guò)對(duì)原始資料的分析及根據(jù)變電站的總負(fù)荷選擇主變壓器,同時(shí)根據(jù)主接線的經(jīng)濟(jì)可靠、運(yùn)行靈活的要求,選擇了兩種待選主接線方案進(jìn)行了技術(shù)比較,淘汰較差的方案,確定了變電站電氣主接線方案。(2022 屆)本科畢業(yè)設(shè)計(jì)(論文)最終評(píng)定成績(jī): 2022 年 5 月摘 要變電站作為電力系統(tǒng)中的重要組成部分,直接影響整個(gè)電力系統(tǒng)的安全與經(jīng)濟(jì)運(yùn)行。其次進(jìn)行短路電流計(jì)算,從三相短路計(jì)算中得到當(dāng)短路發(fā)生在各電壓等級(jí)的母線時(shí),其短路穩(wěn)態(tài)電流和沖擊電流的值。 ......................................................15 ..................................15 ........................................16 ........................................17 ......................................17 ................................17 ............................................17(最大運(yùn)行方式下) ..............17 ............................18 ......................18 ......................19 ......................21第五章 導(dǎo)體和電氣設(shè)備的選擇 .................................22 ......................................22 ..........................................23 ............................................29 ..............................................31 ........................................36第六章 變電站防雷保護(hù) .......................................39 .........................................39 .......................................39 .....................................41第 7 章 繼電保護(hù) .............................................40 .........................................4線路的保護(hù)和自動(dòng)裝置 ......................43結(jié) 論 ........................................................45參考文獻(xiàn) .....................................................46致 謝 ........................................................47附 錄 ........................................................48第 1 章 設(shè)計(jì)內(nèi)容和任務(wù) 原始資料分析根據(jù)電力系統(tǒng)的規(guī)劃需要安裝兩臺(tái)容量為 MVA,電壓為 110kV/35kV/10kV的主變壓器,主變各側(cè)容量比為 100/100/100,一次設(shè)計(jì)并建成。電所不考慮裝調(diào)相機(jī)、電容器等無(wú)功補(bǔ)償設(shè)備,35kV 因電網(wǎng)線路的電容電流較少,也不裝設(shè)消弧線圈。10kV 出線共 12 回,全部為架空線路,其中 3 回每回輸送容量按 5000KVA 設(shè)計(jì);圖 11 變電所連接示意圖另外 5 回每回輸送容量為 4000KVA,再預(yù)留四個(gè)出線間隔,待以后擴(kuò)建。當(dāng)?shù)乩纂娙?T= 日/年。要求如下:選擇主變壓器臺(tái)數(shù)、容量和型式(一般按變電站建成 510 年的發(fā)展規(guī)劃進(jìn)行選擇,并應(yīng)考慮變壓器正常運(yùn)行和事故時(shí)的過(guò)負(fù)荷能力);設(shè)計(jì)變電所電氣主接線;短路電流計(jì)算;主要電氣設(shè)備的選擇及各電壓等級(jí)配電裝置類型的確定。本設(shè)計(jì)采用的主變壓器有兩個(gè)出線端子,一端接 35kV 的引出線,另一端接 10kV的引出線。待設(shè)計(jì)變電站的建設(shè)規(guī)模: 電壓等級(jí)110Kv/35kV/10kV 線路回路數(shù)量 110kV 進(jìn)出線共 2 回,兩回進(jìn)線為 110kV 的平行供電線路,正常送電容量各為35000KVA。對(duì)于供電負(fù)荷較大的城市變電站或有一類負(fù)荷的重要變電站,應(yīng)選用兩臺(tái)兩臺(tái)相同容量的主變壓器,每臺(tái)變壓器的容量應(yīng)滿足一臺(tái)變壓器停運(yùn)后,另一臺(tái)變壓器能供給全部一類負(fù)荷;在無(wú)法確定一類負(fù)荷所占比重時(shí),每臺(tái)變壓器的容量可按計(jì)算負(fù)荷的 70%~80%選擇。對(duì)重要變電所,應(yīng)考慮一臺(tái)主要變壓器停運(yùn)后,其余變壓器在計(jì)算過(guò)負(fù)荷能力及允許時(shí)間內(nèi),滿足Ⅰ、Ⅱ類負(fù)荷的供電;對(duì)一般性變電所,一臺(tái)主變壓器停運(yùn)后,其余變壓器應(yīng)能滿足全部供電負(fù)荷的 70%~80%。主變壓器調(diào)壓方式的確定:為了確保變電所供電量,電壓必須維持在允許范圍內(nèi),通過(guò)變壓器的分接頭開(kāi)關(guān)切換,改變變壓器高壓側(cè)繞組匝數(shù),從而改變其變比,實(shí)現(xiàn)電壓調(diào)整。強(qiáng)迫油循環(huán)水冷卻:對(duì)于大容量變壓器,單方面加強(qiáng)表面冷卻還打不到預(yù)期的冷卻效果。故油壓應(yīng)高于水壓~,以免水滲入油中。強(qiáng)迫油循環(huán)導(dǎo)向風(fēng)冷卻:近年來(lái)大型變壓器都采用這種冷卻方式??紤]到冷卻系統(tǒng)的供電可靠性,要求及維護(hù)工作量,首選自然風(fēng)冷冷卻方式。一般變電站裝設(shè)一臺(tái)站用變壓器,對(duì)于樞紐變電站、裝有兩臺(tái)以上主變壓器的變電站中應(yīng)裝設(shè)兩臺(tái)容量相等的站用變壓器,互為備用,如果能從變電站外引入一個(gè)可靠的低壓備用電源時(shí),也可裝設(shè)一臺(tái)站用變壓器。5%阻抗電壓為(%):4所用電接線方式:一般有重要負(fù)荷的大型變電所,380/220V 系統(tǒng)采用單母線分段接線,兩臺(tái)所用變壓器各接一段母線,正常運(yùn)行情況下可分列運(yùn)行,分段開(kāi)關(guān)設(shè)有自動(dòng)投入裝置。因此,主接線的設(shè)計(jì)必須正確處理好各方面的關(guān)系,全面分析論證,通過(guò)技術(shù)經(jīng)濟(jì)比較,確定變電站主接線的最佳方案。我國(guó)現(xiàn)行設(shè)計(jì)規(guī)程中的各項(xiàng)規(guī)定,就是對(duì)運(yùn)行實(shí)踐經(jīng)驗(yàn)的總結(jié),設(shè)計(jì)時(shí)應(yīng)該予以遵循。但接線過(guò)于簡(jiǎn)單,可能又不能滿足運(yùn)行方式的需要,而且也會(huì)給運(yùn)行造成不便,或造成不必要的停電。 在 610kV 配電裝置中,出線回路數(shù)不超過(guò) 5 回時(shí),一般采用單母線接線方式,出線回路數(shù)在 6 回及以上時(shí),采用單母分段接線,當(dāng)短路電流較大,出線回路較多,功率較大,出線需要帶電抗器時(shí)
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