超導電磁推進 的英文怎麼說

中文拼音 [chāodǎodiàntuījìn]
超導電磁推進 英文
superconducting electromagnetic propulsion
  • : Ⅰ動詞1 (越過; 高出) exceed; surpass; overtake 2 (在某個范圍以外; 不受限制) transcend; go beyo...
  • : 動詞1. (引導) lead; guide 2. (傳導) transmit; conduct 3. (開導) instruct; teach; give guidance to
  • : 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...
  • : 名詞1. [物理學] (磁性; 能吸引鐵、鎳等的性質) magnetism 2. (瓷) porcelain; china
  • : 動詞1 (向外用力使物體移動) push; shove 2 (磨或碾) turn a mill or grindstone; grind 3 (剪或削...
  • : 進構詞成分。
  • 電磁 : [電學] [物理學] electromagnetism電磁安(培) abampere (電磁系電流單位); 電磁泵 electromagnetic ...
  • 推進 : 1 (推動工作 使前進) push on; carry forward; advance; give impetus to 2 [軍事] move forward; dri...
  1. Powerformer have some changes in constract with the conventional generator , subsequently it also have some new problems in order to have an economical , efficient , credible development and application the structure and the philosophy of electromagnetism of powerformer will be on speaking terms changes electrical design , magnetism design , thermal design and structural design are have some new changes above all , the electromagnetism parameter and the harmonic magnetomotive force of powerformer are studied in this paper first , it mainly utilizes analytics to deduce formula of slot leakage reactance it considers three instances , including monolayer - slot , multilayer isometric - slot and multilayer anisometric - slot then , the analytics and the fem are utilized to calculate slot leakage reactance of stator winding of prototype of powerformer and compare their results second , the theory of utilitzing fem to calculate the reactance of powerformer is simply introduced , including stable reactance , transient and subtransient reactance specially , the saturated influence of the stable reactance is considered then , the results are analysed final , it mainly introduces the influence of harmonic magnetomotive force of stator winding and analyses the harmonic magnetomotive force of stator winding then , it mainly analyse harmonic magneto - motive force of stator winding through arranging various arrays of stator winding and observe their influence

    基於上述原因,本文對powerformer的參數以及定子繞組諧波行了研究。首先是用解析法出powerformer定子繞組槽漏抗的計算公式,考慮了單層圓形半閉口槽、多層等半徑圓形半閉口槽和多層不等半徑圓形半閉口槽三種情況,並對powerformer樣機的定子繞組槽漏抗用解析法和有限元法行了計算,並比較其結果;其次,簡要介紹了有限元法計算powerformer抗參數的原理,包括穩態抗、瞬態抗和瞬態抗,對穩態抗考慮飽和影響,對結果行分析;最後,介紹定子繞組諧波勢對機運行性能的影響並對定子繞組諧波行了分析。然後通過對定子繞組行不同排列來分析定子繞組諧波勢,看看繞組排列對諧波勢的影響。
  2. Iee is activating the formation and development of industry of applied magnetic technology, the industrialization of applied superconducting technology and the rising of substitute energy resources and related industry

    工研究所正在技術應用產業的形成和發展、應用技術的產業化和替代能源技術及產業的成長。
  3. Secondly, basing on the theory of on - off gain of small signal, the raman gain coefficient for frequency shift between 0. 5 and 20 thz of standard sigle mode optical fiber is measured by pump - probe method through a super luminescent diode ( sld ) as a broadband small signal probe source. thirdly, numerical simulation analysis of gain characteristic of raman fiber amplifier for c band wdm signal light is made according to the raman gain coefficient of the fiber measured before through target and four rank runge - kutta method. at the invariability of wavelength and maximum power of each of two pumps, schematic of powers of two pumps for best flatness on c band wdm optical gain was found out, at the same time, the factors of resulting in gain saturation is analyzed, too

    本文首先應用經典的理論對拉曼光纖放大器的工作機制行了分析,然後,根據小信號理論出的開關增益求出了光纖拉曼增益系數的表達式,採用泵浦-探測波的方法,利用輻射激光二極體( superluminescentdiode簡稱sld )作為探測光源,測量了所用標準單模光纖頻移為0 . 5 - 20thz的拉曼增益系數,之後根據所測得的光纖的拉曼增益系數譜對應用該類光纖構成的放大c波段wdm光信號的拉曼光纖放大器的增益特性採用打靶法和四階龍格- - -庫塔行了數值計算,在給定了兩個泵浦光源的波長和最大功率后,找出了反向泵浦情況下使c波段wdm光源增益最平坦的兩個泵浦的各自最佳功率,同時也分析了致信號光飽和的原因。
  4. Traditional electromagnetic hydrodynamic propeller in water, which depends on super conduct technique, generates the stronger thrust. but the disadvantages that have strict request with super conduct material and difficult realization and low efficiency restrict the application of this technique in a large of degree

    傳統的水中流體可以產生較大的力,但它主要依賴于技術,對材料的要求嚴格、實現困難、效率低,在很大程度上制約了這種技術的應用。
分享友人
分享到 Line

分享到臉書