非对称电流开断(asymmetrical current breaking)是指当电路中出现非对称电流时,断路器或开关能够有效地实现开断和保护的过程。在电力系统中,非对称电流可能会由于各种原因产生,如接地短路、电气故障等。断路器或开关必须能够有效地处理这种非对称电流,以防止设备损坏或危险情况发生。为了更好地理解非对称电流开断,以下是一些关于asymmetrical current breaking的英语短句和例句大全,从而帮助人们更好地掌握这一概念的应用和原理。
非对称电流开断,asymmetrical current breaking
1)asymmetrical current breaking非对称电流开断
2)symmetric short-circuit capacity对称短路开断电流
3)asymmetrical short-circuit breaking test非对称开断试验
4)unsymmetrical AC非对称交流电
1.Under a special process condition,unsymmetrical AC is used as the electrolytic power,copper rob as the electrode and the bluestone as the electrolyte to prepare the copper nanorods.介绍了一种制备纳米铜棒的新方法,该法采用非对称交流电作为电解电源,采用铜棒为电极,硫酸铜为电解液,在一定的电解工艺参数下,成功制备出纳米铜棒。
2.Nanometric copper rod is prepared by electrolysis withunsymmetrical AC power,and the nanorods are characterized by using XRD and TEM.采用非对称交流电,在一定的电解工艺参数下制备出了纳米铜棒。
5)Asymmetric current sheet非对称电流片
6)asymmetric magnetizing current非对称励磁电流
1.Based on the direct current biased magnetization properties for transformer core,an engineering-oriented practical method to calculate theasymmetric magnetizing current in DC biased large power transformer is presented in this paper.首先在按与实际产品1/50比例制作的产品级模型上通过试验研究建立了处于不同直流偏磁水平铁心的磁通?激励电流(Φ-I)曲线族,(B-H)曲线族;其次通过仿真计算考虑了偏置磁通对这些曲线的影响;最后提出了适合变压器工程应用的直流偏磁条件下非对称励磁电流的计算方法。
英文短句/例句
1.B-H Curve Based on Core and Asymmetric Magnetizing Current in DC-Biased Transformers直流偏磁条件下电力变压器铁心B-H曲线及非对称励磁电流
2.Research on ZVS AHB DC/DC Converter Employing Magnetizing Current励磁电流实现不对称半桥直流变换器ZVS的研究
3.exciter field breaker励磁电流断路器;励磁机励磁电流断路器;磁场电流断路器
4.The Influence of the Cross Section Area of DC Electromagnetic Yoke Iron Core on Magnetic Flux and Exciting Current直流电磁轭铁心截面积对励磁电流和磁通的影响
5.A Study on the Excitation Control System For AC Excited Generator交流励磁发电机励磁控制系统的研究
6.Study and Simulation on Excitation System for AC Excited Generator;交流励磁发电机励磁系统研究与仿真
7.Under excited reactive ampere limit (URAL).欠励磁无功电流限制(URAL)。
8.The lmpact of the Field Current on Voltage Regulator of DSEMG励磁电流负反馈对双凸极电机调压性能的影响
9.Influence of driving current on giant magneto-impedance (GMI) effect of CoFeSiB amorphous ribbon激励电流对CoFeSiB非晶带GMI效应的影响
10.Design of New Transducer for AC Excitation Electromagnetic Flow Meter;交流励磁电磁流量计新型转换器设计
11.Ride-through Control Strategy of a Doubly Fed Induction Generator for Symmetrical Grid Fault电网对称故障时双馈感应发电机不脱网运行的励磁控制策略(英文)
12.Study on Control Strategies of AC Excited Generator and Its Excitation Power Supply;交流励磁发电机及其励磁电源的控制策略研究
13.Study and Design of Excitation Power Supply of A.C.Excited Generator;交流励磁发电机励磁电源的研究与设计
14.Simulation study of exciter of AC excitation generator based on Saber基于Saber的交流励磁发电机励磁电源仿真研究
15.Semi-active Control of the Asymmetric Civil Structures with MRD;非对称建筑结构的磁流变阻尼器半主动控制
16.Design of Excitation System for ACEG Excited by the Dual PWM Converter;双PWM变换器励磁的交流励磁发电机励磁系统设计
17.Simulation and Study on AC-AC Excitation System for AC Excited Generator;交流励磁发电机交—交励磁系统仿真研究
18.Research and Design of Electromagnetic Flowmeter Excited by Trapezoidal Wave;梯形波励磁电磁流量计的研究与设计
相关短句/例句
symmetric short-circuit capacity对称短路开断电流
3)asymmetrical short-circuit breaking test非对称开断试验
4)unsymmetrical AC非对称交流电
1.Under a special process condition,unsymmetrical AC is used as the electrolytic power,copper rob as the electrode and the bluestone as the electrolyte to prepare the copper nanorods.介绍了一种制备纳米铜棒的新方法,该法采用非对称交流电作为电解电源,采用铜棒为电极,硫酸铜为电解液,在一定的电解工艺参数下,成功制备出纳米铜棒。
2.Nanometric copper rod is prepared by electrolysis withunsymmetrical AC power,and the nanorods are characterized by using XRD and TEM.采用非对称交流电,在一定的电解工艺参数下制备出了纳米铜棒。
5)Asymmetric current sheet非对称电流片
6)asymmetric magnetizing current非对称励磁电流
1.Based on the direct current biased magnetization properties for transformer core,an engineering-oriented practical method to calculate theasymmetric magnetizing current in DC biased large power transformer is presented in this paper.首先在按与实际产品1/50比例制作的产品级模型上通过试验研究建立了处于不同直流偏磁水平铁心的磁通?激励电流(Φ-I)曲线族,(B-H)曲线族;其次通过仿真计算考虑了偏置磁通对这些曲线的影响;最后提出了适合变压器工程应用的直流偏磁条件下非对称励磁电流的计算方法。
延伸阅读
非对称分子式:CAS号:性质:假设分子中有一条直线,当分子以此线为轴旋转360。/n(n=2,3,4,…)能与未经旋转的分子完全重合,那么此直线便为该分子的n重对称轴,即该分子具有Cn旋转轴的对称因素。若这类分子中再无其他对称因素,则该化合物为非对称的(dissymmetric),非对称化合物的分子是手性的,该化合物具有旋光性,可以存在对映体。
