滅弧電路 的英文怎麼說

中文拼音 [mièdiàn]
滅弧電路 英文
blow-out circuit
  • : 動詞1 (熄滅) (of a light or fire) go out 2 (使熄滅) extinguish; put out; turn off 3 (淹沒...
  • : 名詞1. [數學] (圓周的任意一段) arc2. (古代指弓) bow
  • : Ⅰ名詞1 (有電荷存在和電荷變化的現象) electricity 2 (電報) telegram; cable Ⅱ動詞1 (觸電) give...
  • : 1 (道路) road; way; path 2 (路程) journey; distance 3 (途徑; 門路) way; means 4 (條理) se...
  • 電路 : [訊] circuit (ckt); electric circuit; electrocircuit電路板 circuit board; 電路保持 guard of a c...
  1. The vacuum interrupter is the heart of vacuum circuit break, which take charge of controlling the electric arc and breaking current

    真空室則是真空斷器的「心臟」 ,擔負著控制和流開斷的重要任務。
  2. The product vacuum arcing chamber adopts porcelain case, cup shape and longitudinal magnetic field contactor structure, copper and chrome contactor material, it has the capacity of good open and close short circuit current

    本產品真空室採用陶瓷外殼,杯狀縱磁場觸頭結構,銅鉻觸頭材料,具有優良的開斷和關合短流能力。
  3. Apply the vacuum arcing chamber, air insulation and includes electric spring operation mechanism so that the product arcing ability is strong, short open circuit times is many, no fire and explosion danger, convenient operation, it is the product of good performance, and strong usefulness

    採用真空室,空氣絕緣配以動彈簧操動機構,使得產品能力強,短開斷次數高,無火災爆炸危險,操作方便,是一種性能優良,實用性較強的產品。
  4. If the vacuum degree of the vacuum interrupter, which is used online in a vacuum breaker, is lower than an amount of magnitude, it will lead to the vacuum breaker cannot switch off normally. this will affect and damage to the power transformer system working in order

    運行中的真空開關,其真空室的真空度若低於一定數量級,就可能導致真空開關不能正常開斷,而影響配系統的正常供,這將造成極大的危害。
  5. Guide to current interruption with horn gap air switches

    的空氣開關流斷指南
  6. So the development of self - energy sf6 cb is very important. in the paper, the math model of arc - quenching chamber air - pressure character is built on the base of 126kv / 31. 5ka self - energy sf6 cb ' s exploiting, then the theory analysis and calculation is deeply been done for cylinder radius, nozzle spout radius and opening position of moved contact that they have the essential effect for the use of arc energy in the course of opening. arc - quenching chamber parameter is confirmed according to the request of full opening and fault opening when the cb is opening

    本文針對126kv31 . 5ka自能式sf _ 6斷器的研製,建立了相應的室氣壓特性數學模型,對自能式sf _ 6斷器開斷過程中能量利用有重要影響的室缸徑、噴口直徑、動觸桿開口位置進行了詳細深入的理論分析和計算,並根據斷器開斷中的滿容量開斷和近區故障開斷的要求確定了室參數。
  7. Study on inverse problem of electric field for high voltage sf6 arc quenching chamber

    6斷場逆問題求解研究
  8. Chapter three is the trial part. the test of the every technical parameters of the trial tube has been finished in company. the test and verify of the ability of the short circuit electric

    第三章為試驗部分,在公司內完成了試驗管的各項技術參數測試,並在合成迴上進行了真空室短流能力開斷的試驗驗證。
  9. It is a very high advancement to the development from two - pressure arc - quenching chamber and single - pressure arc - quenching chamber to the self - energy arc - quenching chamber now for arc - quenching theory of sf6 cb make use of the arc blocking effect, namely arc - self - energy, to increase sf6 gas pressure in the arc - quenching chamber and get the efficient blasting effect to extinguish the arc when the arc current is zero

    Sf _ 6斷器從雙壓式、單壓式發展到如今的自能式是斷原理的一個重大飛躍。自能式sf _ 6斷器利用阻塞效應即利用本身的能量使室內sf _ 6氣體的壓力升高,在過零時產生有效的氣吹而熄
  10. Associated tightly with the stokes measured in small capacity current breaking and short - circuit breaking test duty t100a ( short arc, middle arc and long arc ), the electric field distributions 3 ms after current zero have been calculated. the cold gas flow field corresponding with small capacity current breaking is calculated. based on the results derived from one - dimensioned gas flow field simulation, the two - dimensioned gas flow fields corresponding with short - circuit breaking test duty t100a ( short arc and middle arc ) are calculated as well

    本文採用與試驗緊密結合的方法,在給定機械行程曲線的基礎上對三峽工程中採用的550kvsf6斷器在開斷小流、短開斷方式5短、中、長燃流過零后3ms內室二維靜場分佈進行了分析計算;對該斷器開斷小流時近似的冷態場進行了二維模擬分析計算;在對短開斷方式5短、中、長燃一維氣流場進行分析計算的基礎上進一步採用一維氣流場和二維氣流場相結合的方法,對該斷器開斷方式5短燃和中燃對應的二維熱態場進行了分析計算。
  11. The blasting circuit breaker and the studied self - extinguishing circuit breaker that are in the same voltage level are compared. it proves that the arc energy can be used to help build the pressure of the expansion chamber and extinguishing the arc in order to lessen the driven energy

    並且對同等級下壓氣式斷器和自能式斷器進行了比較,表明本文所研究的自能式斷器是可以利用能量熄本身達到減小操作功的目的。
  12. In this paper, associated with the key problem of 550kv sf6 high voltage circuit breaker which is used in gis of three gorges project, the mathematical models of static electrical field and one - dimensioned and two - dimensioned gas flow field during the overall breaking process in arc chamber of circuit breaker are developed. on the basis of gas discharge theory, the criteria to judge the interruption success is determined. through the combination of one - dimensioned and two - dimensioned gas flow field software, the problem that the primary two - dimensioned gas flow field software ca n ' t calculate the hot gas flow field has been effectively solved

    本文結合長江三峽550kvgis中sf6斷器的科技攻關項目,建立了斷器開斷過程中室內靜場、一維氣流場、二維氣流場的數學模型;根據氣體放的基礎理論選定了衡量斷器能否成功開斷的標準,並通過一維和二維氣流場的有機結合,有效地解決了原二維氣流場計算軟體無法計算有載開斷的難題,具有較強的工程實用性。
  13. Apply the new type touch head structure to vacuum interrupter, make the product of trying on. the comparative test in combination circuit was carried on between the new touch head structure product and the original structure product. the result of test indicated that the vacuum interrupter based cup form horizontal magnetic field touch head structure has greater improvement in the performance of turning on current density than the original structure

    將該觸頭結構應用於現行的真空室中,製成試品,在合成迴與原結構產品進行了比較性試驗,試驗結果表明,採用該杯狀縱磁場觸頭結構的真空室其流開斷密度較原結構有較大的提高。
  14. The electric field of phase - phase, phase - earth of three - phase arc quenching chamber of the circuit breaker is calculated, insulation character is analyzed and the circuit breaker ' s whole insulating structure are ensured

    計算了斷器三相室斷口相間、相對地等的場分佈,對絕緣性能進行了分析,確定了真空斷器整體絕緣結構。
  15. According to vacuum arc theory, the contact structure of vacuum interrupter is changed to produce magnetic field in the open space of the switching house. hence, the short - circuit current breaking capability in vacuum interrupter can be enhanced

    根據真空理論,人們通過改變真空室觸頭結構,使其開斷時在斷口空間產生磁場,以此來提高真空室的短流開斷密度。
  16. Vacuum killing arc room is the " heart " of the vacuum circuit breaker. it takes on the important task of the electric arc controlled and the electric current on and off

    真空室則是真空斷器的「心臟」 ,擔負著控制和流開斷的重要任務。
  17. According to the vacuum electric arc theory, we can change the vacuum killing arc room touch head structure to produce magnetic field between the touch head interval when it is turned on and off to ensure the ability of opening and shutting the short circuit current

    根據真空理論來改變真空室觸頭結構,使其開斷時在觸頭間隙產生磁場的方法來保證真空室的短流開斷能力。
  18. The interaction between the arc and the gas flow is simulated during interruption by using the idea. the state parameters of the expansion volume, the dynamic properties of arc and flow field parameters during the breaking process are obtained

    對自能式sf _ 6斷器開斷過程中及氣流場間相互作用進行了模擬,得到了各個時刻膨脹室的狀態參數及室內氣流場、的動態特性。
  19. In order to make sure that it has the excellent breaking performance when the circuit is shorted, according to vacuum electric arc theory, the touch head structure of vacuum interrupter was changed to make it produce magnetic field between the two touch heads

    根據真空理論來改變真空室觸頭結構,使其開斷時在觸頭間隙產生磁場的方法來保證真空室的短流開斷能力。
  20. In this paper, the over voltage induced by re - ignition, rules of breakdown in vacuum contact clearance, factors which influence dielectric strength of clearance and characteristics of re - ignition when vacuum switchgear switch capacitor banks are analyzed. the conclusion is that the breakdown of clearance in vacuum interrupter is the direct cause which inducing re - ignition of vacuum circuit - breaker in capacitor banks ’ switch. particle breakdown is the essential reason to induce breakdown in clearance of vacuum interrupter, although mechanical characteristic of vacuum circuit - breaker is another factor

    本文通過對真空開關投切容器組重燃過壓、真空觸頭間隙擊穿機理及影響真空間隙介質強度的因素、真空開關投切容器組重燃現象特點進行分析研究發現,真空室斷口的真空間隙擊穿是導致真空斷器投切容器組重燃的直接原因,其次是真空斷器機械性能的影響,而微粒擊穿是導致國產真空室真空間隙擊穿的根本原因。
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