Reactor mai iyakancewa na yanzu
0102030405
6-220kV high irin ƙarfin lantarki Reactor
Reactors
Reactor, kuma aka sani da inductor, ana amfani da su sosai a cikin da'irori. Saboda tasirin shigar da wutar lantarki, akwai takamaiman matakin inductance a cikin da'irar, wanda zai iya hana canje-canje na yanzu. Lokacin da madugu ya sami kuzari, filin maganadisu yana samuwa a cikin wani yanki na sararin samaniya da ya mamaye, don haka duk masu gudanar da wutar lantarki na yanzu suna da ma'anar inductance gaba ɗaya. Koyaya, inductance na jagora mai tsayi da madaidaiciya yana da ɗan ƙaramin ƙarfi, kuma filin maganadisu ba shi da ƙarfi. Saboda haka, ainihin reactor shine rauni na waya a cikin nau'i na solenoid, wanda ake kira hollow reactor;
Wani lokaci, don ƙara inductance na wannan solenoid, an saka baƙin ƙarfe a cikin solenoid, wanda ake kira iron core reactor. Reactance ya kasu kashi-kashi inductive reactance da capacitive reactance. Wani ƙarin rarrabuwa na kimiyya shine cewa inductive reactance (inductor) da capacitive reactance ( capacitor) ana kiransa gaba ɗaya azaman reactors. Duk da haka, saboda kasancewar inductor a baya, wanda ake kira reactors, yanzu ana kiran capacitors a matsayin masu samar da wutar lantarki, kuma reactors na musamman suna nufin inductor.
Reactors da aka saba amfani da su a cikin tsarin wutar lantarki sun haɗa da jerin reactors da na'ura mai kama da juna. Ana yin amfani da jerin reactors galibi don iyakance igiyoyin kewayawa, kuma ana iya haɗa su a cikin jeri ko a layi daya tare da capacitors a cikin masu tacewa don iyakance babban tsari mai jituwa a cikin grid ɗin wutar lantarki. Reactors a 220kV, 110kV, 35kV, da kuma 10kV ikon grids ana amfani da su sha capacitive reactive ikon daga na USB Lines yayin caji. Ana iya daidaita ƙarfin wutar lantarki mai aiki ta hanyar daidaita adadin madaidaitan reactors. Ultra high voltage parallel reactors suna da ayyuka daban-daban don inganta yanayin aiki da suka danganci wutar lantarki a cikin tsarin wutar lantarki, musamman ciki har da: 1. Tasirin capacitance akan layukan da ba a ɗora ba ko ɗauka da sauƙi don rage yawan wuce haddi a mitar wutar lantarki; 2. Inganta rarraba wutar lantarki akan layin watsawa mai nisa; 3. Don daidaita ƙarfin amsawa a cikin layi kamar yadda zai yiwu a kan wurin a lokacin nauyin haske, hana rashin ma'ana na wutar lantarki da kuma rage asarar wutar lantarki a kan layi; 4. Rage ƙarancin wutar lantarki na mitar wutar lantarki a kan babban bas ɗin wutar lantarki lokacin da babban naúrar ya yi daidai da tsarin, yana sauƙaƙa don daidaitawar janareta da daidaitawa; 5. Hana al'amarin resonance na kai wanda zai iya faruwa a cikin janareta tare da dogayen layi; 6. Lokacin amfani da wani reactor tsaka tsaki batu ta hanyar karamin reactance grounding na'urar, wani karamin reactor kuma za a iya amfani da su rama domin lokaci zuwa lokaci da kuma lokaci zuwa kasa capacitance na layi, domin accelerate da atomatik extinguishing na latent halin yanzu da kuma saukaka amfaninsa. Ana iya raba wayoyi na reactors zuwa hanyoyi biyu: haɗin layi da haɗin kai tsaye. Jerin reactors yawanci suna aiki azaman na'urori masu iyakancewa na yanzu, yayin da ake amfani da reactors a layi ɗaya don biyan diyya mai ƙarfi.
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