無功負載 的英文怎麼說

中文拼音 [gōngzǎi]
無功負載 英文
imaginary loading
  • : 無Ⅰ動詞(沒有) not have; there is not; be without Ⅱ名詞1 (沒有) nothing; nil 2 (姓氏) a surn...
  • : 名詞1 (功勞) exploit; merit; meritorious service [deed]: 戰功 military exploits; 立功 render me...
  • : Ⅰ名詞1 (負擔) burden; load 2 (虧損) loss 3 (失敗) defeat Ⅱ動詞1 [書面語] (背) carry on th...
  • : 載Ⅰ名詞(年) year : 一年半載 six to twelve months; six months to a year; 三年五載 three to five ...
  • 無功 : [電學] idle; idle work
  • 負載 : [電學] load
  1. This paper describes mainly system functions, measuring methods, circuit design, software program and errors analysis of a new type of measuring instrument. this instrument can measure and monitor electric parameters in single - phase circuits, three - phase ( three - wire or four - wire ) circuits. this system can be applied to electric devices and power plants, transformer substations with harmonic pollution. it can measure current, voltage, power, energy, frequence, power factor etc. it also can detect load quality, phase sequence, alarm, display and print results, as well as detect and dispose negative power

    該儀器適用於含有諧波污染情況下的機電設備現場、發電廠、供電局、企業變電所現場,可用來測量電流、電壓、有率、率、視在率、有電能、電能、視在電能以及頻率和率因數等電參數,並具有性質(感性、容性)判別,正、逆相序判別指示能;超限報警能;列印記錄能和檢測及處理能。
  2. In china, the quantity of electromotor - consumed electricity is 60 % - 68 % of that of all industry - consumed electricity. reactive wastage aroused by electromotor is central source of electricity wastage. since large and medium - sized electromotor contribute mainly to the equipment consumed electricity of many industry enterprises, how to reduce wastage aroused by large and medium - sized electromotor has become the key to saving energy and reducing wastage for many industry enterprises

    在我國,電機所耗電能占整個工業用電的60 - 68 ,電機等感性所引起的損耗是電網損耗的主要來源,而大中型電機又是許多工業企業的主要用電設備,因此,如何減少大中型電機造成的損耗成為許多工業企業節能降耗的關鍵。
  3. The basic idea is that increasing the equivalent harmonic impedance of power network by valid control of active filter, in order to enhance the performance of passive filter and damp the resonance between the passive filter and the equivalent inductance of the power network

    源支路在補償率的同時還可以濾除因非線性產生的特徵諧波電流,為了抑制源支路跟電網等效電感產生的諧振現象以及改善源濾波器的濾波性能,系統中採用諧振注入式有源濾波拓撲。
  4. The preparation of functionalized mesoporous molecular sieves were introduced, which are including the formation of the acid active sites, redox active sites and used the support for immsobilizing enzyme catalysts by heteroatomic substitution ; the formation of polymerization active sites, acid active sites or chiral catalysis sites by the organic - inorganic graft ( or hybridization ) ; as the carriers, the transition metals, transition metal oxides and acid catalysts are supported

    摘要介紹了介孔分子篩經雜原子取代,引入酸能、氧化還原能;經有機機嫁接(雜合) ,引入聚合催化能、酸催化能、手性催化能;經修飾的介孔分子篩,用作固定化酶催化劑的體;作為催化劑的體,用於過渡金屬及其氧化物和制備化的固體酸催化劑。
  5. The power angle characteristics are acquired and compared with the unsaturated curves. it is concluded that the stability limit of the power angle is less than 90 degree. reactive power regulating curves are calculated and compared with those curves when saturation effect is not considered, the result is that u type curves are deviated to the right

    通過對同步發電機各種運行曲線的計算,在已有文獻的基礎上更進一步分析了鐵磁材料飽和以及磁場畸變對同步發電機運行特性和參數的影響;求出了空特性曲線和零特性曲線,在不同的電樞電流下計算得到的波梯電抗不同;求出了角特性曲線,與不計飽和時的角特性曲線相比較,角穩定極限小於90 ;求出調節曲線,與不計飽和時相比較, u型曲線向右偏移。
  6. By analyzing the load factor and unbalance factor of distribution transformer, the method of calculating and selecting the low voltage reactive power compensation capacity and compensation equipments, and the connection mode of capacitors were presented

    摘要通過對配電變壓器率和不平衡率的分析,提出低壓補償裝置補償容量的計算選擇方法和電容器的接線方式。
  7. Aiming at the fact that power factor of low - voltage power equipment is very low in china and application condition of fieldbus technology in the world, based on enhancing power factor of ac motor, lowering losses of the reactive power, improving power quality, therefore, it is of great significance and practical value to research the reactive power compensation by applying the technology of fieldbus, computer and power electronics

    針對目前國內低壓設備用電率因數偏低和國內外現場總線技術的應用現狀,基於提高交流電機的率因數、降低率損耗和改善電能質量,本文綜合運用現場總線技術、計算機技術和電力電子技術對交流電機率補償的有關方面進行了研究,其研究成果具有一定的理論意義和實用價值。
  8. In order to instantly and real time eliminate harmonic and compensate reactive power, the definition of traditional reactive power, an integral average during a period, which is confined to apply under some circumstances. for example, when the load power varies swiftly, it will lead to can " t compensate reactive power rapidly

    為了實時、快速的補償率和消除諧波,傳統的基於平均值計算出來的率因數,是以一個周期內積分而得出來的平均值,這在某種情況下就限制了它的應用,如系統率快速變化時,就不能做到迅速、實時地補償
  9. Three - phase four - wire apf with one - cycle control need not sense the three phase load currents or the three phase voltages, need not calculate the harmonics and reactive current components, as well as the use of any multipliers

    單周控制三相四線制有源電力濾波器不需要檢測三相電流和三相電源電壓,不需要檢測諧波和電流,也不需要使用任何乘法器。
  10. Because of forecasting reactive load at first, it can detect the change of voltage at low - voltage bus from the change of reactive load or the change of voltage at high - voltage bus, then it can decide that adjusting transformer tap or capacitor switch, and avoid blindly and deficient adjusting. on the condition the reactive power is balanced and voltage qualified, it can realize the switching times of loaded taps and capacitors being efficiently decreased

    由於預先預測出荷,提前了解了率變化的趨勢,可以有助於判定低壓母線電壓變化是由荷變化引起還是由高壓側電壓變化引起,從而適時決定是調有調壓變壓器分接頭還是投切電容器,以此避免了盲目和不充分的調節,實現在保證基本平衡和電壓合格率的前提下,減少有調壓變壓器分接頭的調節和並聯電容器組的投切次數。
  11. This paper mainly discusses a control method of substation voltage and reactive power. in order to get suitable decision for one day 24 hours tap - transformer ' s step switch and shunt capacitor switch, an approach of substation voltage and reactive power control on the basis of the combination of artificial neural network ( ann ) reactive power forecasting and evolutionary programming optimal decision - making is put forward

    論文主要研究變電站的電壓/控制決策問題,為了確定一天24小時內合適的有調壓變壓器分接頭位置和並聯電容器投切狀態,提出一種基於人工神經網路的荷預測和進化規劃優化決策相結合的變電站電壓和的綜合控制決策。
  12. So the emergence of facts is just for the purpose of solving these problems of power system. as a branch of facts, active power filter ( apf ), a new power and electric equipment, its function is to eliminate load harmonic and compensate system line reactive power, damp system surge of node voltage, decrease power waste of system line

    作為facts的一個重要分支- - - -有源濾波器( apf ) ,是為了解決系統線路率因數過低以及線路諧波過多,從而出現線路損耗大、電源電壓的瞬態波動過陡等一系列相關問題而產生的一種新型電力電子裝置。
  13. According to the characteristic of nine - area diagram of substation vol / var coordinated control, this system gives the defination of fuzzy sets and the degree of membership of input / output variables, and designs corresponding control rules. the results of simulation demonstrate the system can satisfy the constrains of the day - adjusting times of the switching of on - load transformer and paralleled compensation capacitors, and ensure voltage quality, reactive power basical balance. considering the var requirement in different load time period and the control demand in load saltation, a improved control scheme is provided. the results of simulation show the improved scheme can meet the demand of vol / var in different load time period, protect the wrong operation when either voltage or reactive power appears saltation, and decrease the times of regulation of the switching of on - load transformer and paralleled compensation capacitors finally, a background software module of substation vol / var coordinated control is designed, based on the supervisory control and data acquisition system of substation

    模擬結果證明該系統能在各種荷條件下確保電壓合格和基本平衡,且能滿足變電站對有調壓變壓器分接頭日調節次數和並聯補償電容器組的日投切次數的限制。通過考慮不同荷時段對率的需求和荷突變情況下的控制要求,對上述模糊控制策略進行了改進,模擬結果證明改進后的控制策略能滿足不同荷時段對電壓和的要求、抑制電壓或突變情況下的誤動作,且有效地減少了有調壓變壓器分接頭和並聯補償電容器組的調節次數。最後基於變電站scada系統設計了一后臺電壓綜合控制軟體模塊。
  14. After the analysis of power produce character of the typical three - phases unbalance load, the corresponding circuit is adopted. this main circuit is composed of the power filter series and tcr control circuit. secondly the theory of band - pass filter is analyzed in detail, and then a method of implementing butterworth band - pass filter is put forward

    簡要分析了補償的基本原理和工作特點,通過對典型的三相不平衡工作特點的分析,主電路採用電力濾波器與晶閘管控制電抗器相接合的結構;對用於檢測的帶通濾波器進行了分析,設計了用於電壓、電流信號濾波的帶通濾波器,並採用運算放大器加以實現。
  15. This paper put forward the realization method of a kind of multi - function general use inverter system which added other functions based on the independent sine wave inverter, it not only can be used as independent inverter power supply but can be used as an in - support mode ups which realize synchronous with the phase of power grid voltage and realize to switch with power grid mutually, it also can realize three phase ac output by the combination of three synchronous inverters, experiment proved it in this way has a stronger ability of resisting three phase unbalance load

    本文提出了一種基於獨立正弦波逆變器的能之上復合其他能而成的多能通用逆變電源系統的實現方法,此系統不僅可以作為獨立逆變電源使用,還可以與電網電壓的相位同步,作為后備式正弦波ups使用,在逆變電源和電網的相互切換時能做到對影響,同時還可以由三臺逆變器進行組合自同步實現三相對稱交流輸出,實驗證明這種方式具有較強的抗三相不平衡的能力。
  16. It is deduced theoretically that non - linear load, rather than linear load, generates harmonics, which translates part of fundamental reactive power absorbed from power system into harmonic reactive power injected into the power system. the rationality of electric power measurement for linear and non - linear load is studied, and as a result some rational advices are addressed here

    從理論上推導了線性不產生諧波,非線性將吸收的部分基波率轉化為諧波率注入系統,並對電能計量準確性和合理性做了一些探討,最後提了一些的收費意見。
  17. Low power design of the hardware is divided into two levels : device level and system level. in device level, low power design mainly focuses on decreasing load capacity and leaking current

    硬體低耗設計有兩個層次:器件級的低層次設計主要關注減少電容和漏電流;系統級的高層次設計主要關注減少用的邏輯和用的電路活動。
  18. Moisture proof and no contact output, load current 1a max

    具防潮能並且採用接點方式,限時控制電流最大1a
  19. Different type active power filters can compensate dynamic harmonic of dynamic load electrical current and the volt

    不同類型的有源電網濾波器能對變化的電流進行動態諧波和補償以及電壓補償。
  20. The control method of svc for unbalanced load is mainly researched in this paper

    本文主要研究用於不平衡的svc補償控制器。
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