基于MATLABSimulink的电力系统仿真实验

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基于MATLAB/Simulink 的电力系统故障分析10kv系统三相短路分析三相短路(以中性点不接地系统模型为类)模块搭建:三相短路各元件参数设置如下:MuiliTffer' Frcml:Linc1_\/otc|Fr« mF~roi-LZ■ ___ Lin总3IK31L:LfleSjEsbsjF-nrrT□bo―►aOi5oe£e 3-W 1 叽’L31C-«tod2A如Line V1blLlBmietEr Sequer« Ar-n. yzerg Block Para meters: Three ・P hase SourceThree-Phase Source (nask} flink;Threc-phasG voltaze sourc G in seriei with RL bxanch.Param«rsPhase—to-phase rss voltage (V):110. 5e3Phase anrl4 of chase A (degreGs):1°FrtQuency (Hz):Internal connection:|Y厂Specify iaped&nce usins sh^xfcircuit levelSouree resistance (Otesi:|0. 009Source inductance (H):116. 58e-5Apply |OK Cancel H.lpBlock Parameters; Linel-Three-Phase PI Section Lin已ziaslc) (link)Thi® block inpleaents a three-phxt• PI section lint to represent a thiQG-phasG transaision line.This block rGpresents only one PI section. To inplenentc aore that one PI secti-on, you siaplr need to connect copies of this block in sexies・ParoaQtQTS -----------------------------------------------------------------------------------------------------------------Freauency used for R L C specification (Hz):F5Poiitive- ind zero-seauence resiBtances (Ohas/ka) [ K: RO ]:| [ 0.01273 0. 3SG4:Positive* and zero"£eo.uenc© inductances K-lcn) [ Ll LO ]:|T 0. 9327e-3 4. 1264e-3]Positive- and Z4ro--ssau4nee ea.Dacitane€5 (Fjks; I Cl CO I :I [12. 74e-9 7. 751e-9FLine section length (ka::1130OK Cancel Kelp Apply■OK Cancel I E«lp 厂 删 Function Block Parameters; AddlAdd cr subtract inputs. S^cify cne oi the fol.ovmg:a. string containing • or - for each input port, for spacer tetrem ports (e. c.—・Db) scalar >=】・ A value > 1 seal all inputs: 1 sunt •Itstnts of a single input vectorMain | Sifnal data typacIcon shaoe: | re:t&ngulax▼]List of sxcni:I 4**Sasple tme -1 fox lEherxted):卜】 X I Cancel 1 Help 1 Appl*Q c5s3.N/Mu hi meter 1Helpu*rbr*. Lc^dO Lo a>133 Uan: Ubri IZLc i U H : HiF MJ I C I/fault. B » Vb: IhrcQ-Pbazc C _lVb. IHtec ?hase Ja^lvl/Faulv AI AT. s ad!LcadOI CD Goad3lb: Ib"Q ・7hd" faultl/fault B lb: Ih^ec-?hasc F aulvl/Iau2V Cu» lb: Ihtrao ・7乃a=a FArjlt 1/FAult A —Z_JCown |R«rnve*f - 1zJUpdste 吕;Source Block Parameters; FromFroaKeceive sienals; froa the Goto block irith the specifiGd :as ・ If the tae is defined as r scoped , in the Gotoblock, then a Goto Tae Visibility bl-ock aust te used to define the visibility of the tac ・ After : UpdateDiafraa t the block icon displays the selected tag nase >Local taes are enclosed in brackets. .], and scoped tagna=es are enclosed in brae€g ; J).L^adO Loft<13 Load.3 Sele 匚T Measu errentsZJ d小 Plot Sd 》ded“E3Uworts^utput/cc:如加制Source Block Parameters; From4 「町〕一Fron----------------------------------------------sdcnalt froa the Octo- bl>ck with the specified tar- If the tae is d<tfin«d scon昼d‘ in the Goto bice匕then a Goto 7ar Visibility bloek aust beused to define the visibility of the tag. After ' Update Diaeraa, the block icon displays the selected tag naae(local tags are enclosed in brackets.:], and scoped tag nazes axe enclose! in braces::}〉・OK Cancel I Help Function Block Parameters: Discrete 3・phase Sequence Analyzer三相短路仿真波形如下:如图1―― a、b、c三相短路电流仿真波形图分析:正常运行时,a、b、c三相大小相等,相位相差120 度。

发生三相短路时,a、b、c三相电压全Tlriite1 u f ifwt如图2 ――线路1的零序电流分析:在没有故障时,没有零序电流,突然出现故障时,零序电流为故障电流的3倍,为31。

如图3——线路1的零序电压分析:在没有故障时,没有零序电压,突然出现故障时,零序电流为故障电压的3倍,为3U0如图4——线路1的故障相电压如图5――线路3的零序电流iCi如图6――线路3的短路电流如图7――三相对称电源电压如图8――线路2的零序电流分析:在没有故障时,没有零序电流,突然出现故障时,零序电流为故障电流的3倍,为310。

如图9――三相对称电源电流如图10 ――三相对称电源零序电压如图11―― 一相短路电流10kv系统两相短路分析仿真模块搭建同三相短路,只有三相故障模块参数改变如下:注:a、b两相短路60004000 2000-2000 4000•sooo叶〜Off&fcztT T分析:两相短路原理同三相短路,两相短路复合序网图是无零序并联网,短路两相电压相等,电流互为相反数,非故障相电流为零。

零点漂移轨迹的验证一理论分析对于以下简单的中性点不接地系统,当其发生单相接地故障时,各量之间满足以下关系:% =仙必+ %几+叫諾/化+治十对% + % + ^ro = °其中m[如衆临,十朴七沁分别表示A、B、C三相对O点的导纳用复数形式可表示为8 = —U[|Y(3曲併的可得1cos fl =JI +C3idC o J0I % 1% " e +卩泌阿"所以,可以推出中性点不接地系统发生单相接地故障后,不 同接地电阻下,对应的零点漂移轨迹为接地相右半圆.二 matalab 仿真£ -tan _1(3wC o fi)其相量关系如下图:模型搭建类似单相短路PDAcrgji Tlu*fr.円申l.l j 川y -二.ThiM-Fh^u 乩一如亡Load '魄A=T -p - -drrnat.Fhiut XW! fiLC LMfl?严申1>的匕Fl 5ean-r lef■ _~:z -■::: V-«ri *ee j Ph#Mirnfcfi I H ^LCUaa冲r Pl !=i3?lcn U r "-2W" ■M S M ST 二MwllJr-S-xiM电源参数设置ParanriefersM&ajurennenU None v消弧线圈参数设置其它参数设置类似单相接地短路短路,但是接下来不知该怎么把它的参数通过图形描述出来,以此证明中性点不接地系统发生单相接地故障后,不同接地电阻下,对应的零点漂移轨迹为接地相右半圆.如下图:。