transient analysis,汪明的代表性著作论文

transient analysis,汪明的代表性著作论文详细介绍

本文目录一览： transient analysis是什么意思

transient analysis
瞬态分析
双语对照
词典结果：
transient analysis[英][?tr?nzi?nt ??n?l?sis][美][?tr?n??nt ??n?l?s?s]
暂态分析; 瞬态分析;
transient analysis
瞬态分析；
瞬时分析；
瞬变过程分析；
暂态分析
The change of stress field during the impact process was studied by transientanalysis.
模拟采用瞬态分析方法，跟踪了在整个冲击过程中应力场的变化。
很高兴第一时间为您解答，祝学习进步
如有问题请及时追问，谢谢~~O(∩_∩)O

关于Saber 2016.3仿真软件无法打开的问题

很多用过Saber的网友都会有这种感觉，就是Saber是一个非常吃硬盘空间的仿真工具在仿真开关电源此类的非线性系统时，其仿真结果往往会占用大量的硬盘空间。今天就来和大家讨论一下如何为Saber的时域分析TR减负的问题在Saber的Time－Domain Transient Analysis(即TR分析)对话框中，Input/Output栏，有三种参数可以控制TR分析结果大小。

pspice仿真Convergence problem in transient analysis at Time = 1.360E-03 怎么解决

意思是：在 该时刻处,时域仿真出现收敛问题,也就是不收敛.你的时间步长小于最小允许步长了吧!

ANSYS提示present time is less than the previous time in a transient analysis如何解决？

检查一下每个载荷步的时间是否是递增的。
如果各载荷步的时间不是递增的，或者有的载荷步没有定义时间，都可能出现此类错误。

ANSYS在做静力分析时，出现了这个错误提示：

没有设置好载荷步。如果前面没有瞬态分析，在SOLVE之前加一条命令:time,1.即可。就是将静力分析的载荷步设为一步，当然这个时间只是一个名义上的，跟咱们现实中的时间不一样，具体可以参考ANSYS帮助文件中的TIME命令，他要求time是必须大于零的（TIME must be a positive, nonzero, ）。具体的GUI操作在帮助文件中的time命令解说下面。建议养成学习ANSYS帮助文件的习惯，会有很大帮助。

ansys错误present time 2 is less than or equal to the previous time in a transient analysis怎么解决

这个意思是说在一次瞬态分析中本次时间早于或等于上一次分析时间，也就是说你的时间设置有问题。
不过Ansys里面很多错误与事实是不相符的，建议你把APDL贴出来给大家看看，或许更容易找到原因.

pspice仿真问题

意思是：在 933.9E-06时刻处，时域仿真出现收敛问题，也就是不收敛。时间步长36.94E-15,最小允许步长是100.0E-15
可能是开关管的驱动信号参数设置问题。
步长设置过短！
按V与I没反应说明没进行仿真，你上传的那张图片上就说这个原理图没有加入仿真树。你是按照步骤建的DSN吗？如果你画的图和参考书中所示图一致的话，但仿真结果不一，你检查一下你用的元件确实是书中用的元件吗？不同库里的元件是不一样的。
再个就是你检查一下电源有没有选择错误，有时候表面上是一样的，但不是一个元件。
如果元件没问题的话，就是连线可能没连上，建议重新画。
还有仿真设置，别设置错了。
在没问题的话，就是书上错了。祝楼主好运

电气专业英语

电气专业英语
（1） 元件设备
三绕组变压器：three-column transformer ThrClnTrans
双绕组变压器：double-column transformer DblClmnTrans
电容器：Capacitor
并联电容器：shunt capacitor
电抗器：Reactor
母线：Busbar
输电线：TransmissionLine
发电厂：power plant
断路器：Breaker
刀闸(隔离开关)：Isolator
分接头：tap
电动机：motor
（2） 状态参数
有功：active power
无功：reactive power
电流：current
容量：capacity
电压：voltage
档位：tap position
有功损耗：reactive loss
无功损耗：active loss
功率因数：power-factor
功率：power
功角：power-angle
电压等级：voltage grade
空载损耗：no-load loss
铁损：iron loss
铜损：copper loss
空载电流：no-load current

阻抗：impedance
正序阻抗：positive sequence impedance
负序阻抗：negative sequence impedance
零序阻抗：zero sequence impedance
电阻：resistor
电抗：reactance
电导：conductance
电纳：susceptance
无功负载：reactive load 或者QLoad
有功负载: active load PLoad
遥测：YC(telemetering)
遥信：YX
励磁电流(转子电流)：magnetizing current
定子：stator
功角：power-angle
上限:upper limit
下限：lower limit
并列的：apposable
高压: high voltage
低压：low voltage
中压：middle voltage

电力系统 power system
发电机 generator
励磁 excitation
励磁器 excitor
电压 voltage
电流 current
母线 bus
变压器 transformer
升压变压器 step-up transformer
高压侧 high side
输电系统 power transmission system
输电线 transmission line
固定串联电容补偿fixed series capacitor compensation
稳定 stability
电压稳定 voltage stability
功角稳定 angle stability
暂态稳定 transient stability
电厂 power plant
能量输送 power transfer
交流 AC
装机容量 installed capacity
电网 power system
落点 drop point
开关站 switch station
双回同杆并架 double-circuit lines on the same tower
变电站 transformer substation
补偿度 degree of compensation
高抗 high voltage shunt reactor
无功补偿 reactive power compensation
故障 fault
调节 regulation
裕度 magin
三相故障 three phase fault
故障切除时间 fault clearing time
极限切除时间 critical clearing time
切机 generator triping
高顶值 high limited value
强行励磁 reinforced excitation
线路补偿器 LDC(line drop compensation)
机端 generator terminal
静态 static (state)
动态 dynamic (state)
单机无穷大系统 one machine - infinity bus system
机端电压控制 AVR
电抗 reactance
电阻 resistance
功角 power angle
有功（功率） active power
无功（功率） reactive power
功率因数 power factor
无功电流 reactive current
下降特性 droop characteristics
斜率 slope
额定 rating
变比 ratio
参考值 reference value
电压互感器 PT
分接头 tap
下降率 droop rate
仿真分析 simulation analysis
传递函数 transfer function
框图 block diagram
受端 receive-side
裕度 margin
同步 synchronization
失去同步 loss of synchronization
阻尼 damping
摇摆 swing
保护断路器 circuit breaker

电阻：resistance
电抗：reactance
阻抗：impedance

电导：conductance
电纳：susceptance
导纳：admittance

电感：inductance
电容: capacitance
induction machine 感应式电机
horseshoe magnet 马蹄形磁铁
magnetic field 磁场
eddy current 涡流
right-hand rule 右手定则
left-hand rule 左手定则
slip 转差率
induction motor 感应电动机
rotating magnetic field 旋转磁场
winding 绕组
stator 定子
rotor 转子
induced current 感生电流
time-phase 时间相位
exciting voltage 励磁电压
solt 槽
lamination 叠片
laminated core 叠片铁芯
short-circuiting ring 短路环
squirrel cage 鼠笼
rotor core 转子铁芯
cast-aluminum rotor 铸铝转子
bronze 青铜
horsepower 马力
random-wound 散绕
insulation 绝缘
ac motor 交流环电动机
end ring 端环
alloy 合金
coil winding 线圈绕组
form-wound 模绕
performance characteristic 工作特性
frequency 频率
revolutions per minute 转/分
motoring 电动机驱动
generating 发电
per-unit value 标么值
breakdown torque 极限转矩
breakaway force 起步阻力
overhauling 检修
wind-driven generator 风动发电机
revolutions per second 转/秒
number of poles 极数
speed-torque curve 转速力矩特性曲线
plugging 反向制动
synchronous speed 同步转速
percentage 百分数
locked-rotor torque 锁定转子转矩
full-load torque 满载转矩
prime mover 原动机
inrush current 涌流
magnetizing reacance 磁化电抗
line-to-neutral 线与中性点间的
staor winding 定子绕组
leakage reactance 漏磁电抗
no-load 空载
full load 满载
Polyphase 多相(的)
iron-loss 铁损
complex impedance 复数阻抗
rotor resistance 转子电阻
leakage flux 漏磁通
locked-rotor 锁定转子
chopper circuit 斩波电路
separately excited 他励的
compounded 复励
dc motor 直流电动机
de machine 直流电机
speed regulation 速度调节
shunt 并励
series 串励
armature circuit 电枢电路
optical fiber 光纤
interoffice 局间的
wave guide 波导 波导管
bandwidth 带宽
light emitting diode 发光二极管
silica 硅石 二氧化硅
regeneration 再生, 后反馈放大
coaxial 共轴的,同轴的
high-performance 高性能的
carrier 载波
mature 成熟的
Single Side Band(SSB) 单边带
coupling capacitor 结合电容
propagate 传导 传播
modulator 调制器
demodulator 解调器
line trap 限波器
shunt 分路器
Amplitude Modulation(AM 调幅
Frequency Shift Keying(FSK) 移频键控
tuner 调谐器
attenuate 衰减
incident 入射的
two-way configuration 二线制
generator voltage 发电机电压
dc generator 直流发电机
polyphase rectifier 多相整流器
boost 增压
time constant 时间常数
forward transfer function 正向传递函数
error signal 误差信号
regulator 调节器
stabilizing transformer 稳定变压器
time delay 延时
direct axis transient time constant 直轴瞬变时间常数
transient response 瞬态响应
solid state 固体
buck 补偿
operational calculus 算符演算
gain 增益
pole 极点
feedback signal 反馈信号
dynamic response 动态响应
voltage control system 电压控制系统
mismatch 失配
error detector 误差检测器
excitation system 励磁系统
field current 励磁电流
transistor 晶体管
high-gain 高增益
boost-buck 升压去磁
feedback system 反馈系统
reactive power 无功功率
feedback loop 反馈回路
automatic Voltage regulator(AVR)自动电压调整器
reference Voltage 基准电压
magnetic amplifier 磁放大器
amplidyne 微场扩流发电机
self-exciting 自励的
limiter 限幅器
manual control 手动控制
block diagram 方框图
linear zone 线性区
potential transformer 电压互感器
stabilization network 稳定网络
stabilizer 稳定器
air-gap flux 气隙磁通
saturation effect 饱和效应
saturation curve 饱和曲线
flux linkage 磁链
per unit value 标么值
shunt field 并励磁场
magnetic circuit 磁路
load-saturation curve 负载饱和曲线
air-gap line 气隙磁化线
polyphase rectifier 多相整流器
circuit components 电路元件
circuit parameters 电路参数
electrical device 电气设备
electric energy 电能
primary cell 原生电池
energy converter 电能转换器
conductor 导体
heating appliance 电热器
direct-current 直流
time invariant 时不变的
self-inductor 自感

汪明的代表性著作论文

郎莹，汪明，春、夏季土壤水分对连翘光合作用的影响，生态学报，DOI：10.5846/stxb201306101612（2013）Xiao-Bing Hu, Ming Wang, Mark Leeson, Ripple-Spreading Network Model Optimization by Genetic Algorithm, Mathematical Problems in Engineering, 1-16 (2013)Tao Ye and Ming Wang, Exploring Risk Attitude by a Comparative Experimental Approach and Its Implication to Disaster Insurance Practice in China, Journal of Risk Research, Vol. 16, Issue 7, pp 861-878 (2013)Y. LANG, M. WANG, G.C. ZHANG, and Q.K. ZHAO, Experimental and simulated light response of photosynthesis in leaves of three species under different soil water conditions, Photosynthetica, Vol. 51, Issue 3, pp 370-378 (2013)Wentao Yang, Ming Wang, and Peijun Shi, Using MODIS NDVI Time Series to Identify Geographic Patterns of Landslides in Vegetated Regions, IEEE Geoscience and Remote Sensing Letters, Vol 10(4), (2013)Xiao-Bing Hu, Ming Wang, Ezequiel Di Paolo, Calculating Complete and Exact Pareto Front for Multiobjective Optimization: A New Deterministic Approach for Discrete Problems, IEEE Transactions on Systems, Man, and Cybernetics - Part B: Cybernetics, Vol. 43, No. 3, (2013)Xiao-Bing Hu, Ming Wang, Mark S. Leeson, Qiong Sun and Ezequiel Di Paolo, A Ripple-Spreading Algorithm to Calculate the k Best Solutions to the Project Time Management Problem, 2013 IEEE Symposium Series on Computational Intelligence (2013 in proceeding)Xiao-Bing Hu, Ming Wang, Mark S. Leeson, Qiong Sun and Ezequiel Di Paolo, A Ripple-Spreading Algorithm for Route Optimization, 2013 IEEE Symposium Series on Computational Intelligence (2013 in proceeding)Ming Wang, Chuan Liao, Saini Yang, Weiting Zhao, Min Liu, Peijun Shi. Are people willing to buy natural disaster insurance in China? Risk awareness, insurance acceptance, and willingness to pay. Risk Analysis, Vol. 32 Issue 10. (2012).Q. Ye, M. Wang and J. Han, Integrated RiskGovernance in the Yungui Plateau, China: The 2008 Ice-Snow Storm Disaster, Journal of Alpine Research, Special issue “Mountain, marginality and disaster” (2012)Wentao Yang, Ming Wang, Peijun Shi, Lili Lu, Diagnosis of vegetation recovery using MODIS NDVI time series, Advances in Biomedical Engineering, 4th International Science and Information Application Technology, vol. 14, pp.141-146 (2012)X.B. Hu, M. Wang, M.S. Leeson, E.L. Hines, A Ripple-Spreading Algorithm for the k Shortest Paths Problem, Intelligent Systems (GCIS), Third Global Congress on, Page 202-208, DOI: 10.1109/GCIS.2012.96 (2012)J.Q. Liao, X.B. Hu, M. Wang, M.S. Leeson, E.L. Hines, E.D. Paolo, A riiple-spreading network model for the study of infectious disease transmission, Biomedical Engineering and Informatics (BMEI), 5th International Conference on, Page 1004-1010, DOI: 10.1109/BMEI.2012.6513120 (2012)杨文涛，汪明，史培军，利用NDVI时间序列识别汶川地震滑坡的分布，遥感信息，第27卷 第6期（2012）吴凡，汪明，刘宁，美国地震风险评估中灾害模型的探讨，灾害学，第27卷第2期(2012)吴凡，汪明，刘宁，美国地震风险评估中建筑物易损性与损失组合的探讨,灾害学，第27卷第3期(2012)沐连顺，张鹏，杨赛霓，汪明，金赟赟，电力企业风险管理的典型案例与综合模式，中国电力，第45卷第5期(2012)X.B. Hu, M. Wang, M.S. Leeson, E.L. Hines, and E. Di Paolo, A Deterministic Ripple-Spreading Model for Complex Networks, Physical Review E, 83, 046123 (2011)Wang Ming, Shi Peijun, Ye Tao, Liu Min, Zhou Meiqin, Agriculture insurance in china: history, experience, and lessons learned. Int. J. Disaster Risk Sci., 2 (2): 10–22. (2011)沐连顺，张鹏，杨赛霓，汪明，陈一铭，国外企业风险管理进展及其对我国电力行业的启示，电网技术，第35卷增刊2 (2011)刘敏，汪明，森林火灾灾情快速预判模型，中国安全科学学报，第21卷第5期杨文涛，汪明，史培军，两类地震风险评估模型的对比与讨论，北京师范大学学报（自然科学版），第47卷第5期Xiao-Bing Hu; Leeson, M.S.; Hines, E.L.; Ming Wang; Di Paolo, E.; , A review on ripple-spreading genetic algorithms for combinatorial optimization problems, Cognitive Informatics (ICCI), 2010 9th IEEE International Conference on , vol., no., pp.441-448, 7-9 July 2010M. Wang, P.C. Chang, and J.G. Quintiere, “Scaled Compartment Fires for Structural Fire Testing,” Journal of Fire Protection Engineering, Vol. 18, August 2008J. Perricon, M. Wang, J. Quintiere, “Scale Modeling of the Transient Response of Insulated Structural Frames Exposed to Fire,” Fire Technology, Volume 44, Number 2 / June, 2008M. Wang, P.C. Chang, J.G. Quintiere and A. Marshall, “Scale modeling of the 96th floor of World Trade Center Tower 1,” ASCE Journal of Performance of Constructed Facilities, Volume 21, Issue 6, pp. 414-421, 2006Y. Wang, L. Parada, M. Wang, A. Singhal, “An Enhanced Two-Zone Fire Model for Risk Analysis,” Interflam, Interscience Communication, London, UK, September 2007J. Perricon, J. Quintiere, M. Wang, “Scale Modeling of the Transient Response of Insulated Structural Frames Exposed to Fire” Interflam, Interscience Communication, London, UK, September 2007M. Wang, P.C. Chang, J.G. Quintiere, and A. Marshall, “Investigation of World Trade Center Tower 1 Collapse based on 1/20-scale Model,” International Congress Fire Safety in Tall Buildings, Santander, Spain, 2006M. Wang, P.C. Chang and J.G. Quintiere, “Scale Modeling of Insulated Steel Frame Structural Testing in Fire,” Proceeding of the Fourth International Workshop Structures in Fire, Aveiro, Portugal, 2006P. C. Chang and M. Wang, “Carbon Geopolymer Sensor,” Proceeding of the 4th International Conference on Earthquake Engineering, Taipei, Taiwan, October, 2006P. C. Chang, M. Wang, and Ron Eguchi, “Smart Sensing of Bridge Deformation,” Proceeding of the Second International Conference on Structural Health Monitoring and Intelligent Infrastructure (SHMII-2’2005), November 2005, Shenzhen, ChinaM. Wang, P. C. Chang &. R. Newcomb, “Power scavenging from highway bridge vibration,” Proceeding of the First International Conference on Structural Health Monitoring and Intelligent Infrastructure (SHMII-1’2003), November 13-15, 2003, Tokyo, Japan

请帮我翻译成英文，不要用翻译工具

1.1information receiving -- Xin resolution
In the process of interpreting, interpreter first receives the information of the original sonic. Perception is not
Is a sound of a voice, but not disconnected, unrelated, separate
The syllables or words are simple and medley, but continuity word chain, the interpreter from
Determining the primitives to express the concept and content of thought.
The 1.2 information processing -- understanding of
In a short period of time, the interpreter will contact a lot of words, sentences and other symbols
A continuous speech chain, understanding of the process is to extract the speech chain
Contains information and ideological content, emphasizing that the translators" off language shell" can
Force, namely the core information in the shortest possible time, integrated optimization. Of the original Institute
' solutions is a fast and complex process, the interpreter using existing language ability, dorsal
Background knowledge, culture, social psychology and other knowledge to make comprehensive judgment.
The 1.3 information storage -- memory
Interpreting source language information can not be repeated and transient.
Point. Due to time constraints, short-term memory in interpretation processes play a role more
Apparent. The interpreter and translator of, rely on short-term memory for temporarily storing primitives
Content. The interpreter7owe will receive much information, but the human brain capacity of short-term memory
Limited, and the retention time is short, it is difficult to remember all the content, need to take notes to
Compensate for the possible difference of information.
1. 4information output -- expression
The interpretation of information output is a thinking process. Primitive thinking
Through the analysis to content, finishing translation into the target language, and through the voice equivalent to
The hearer. Interpretation and translation accuracy and speed of different, should follow two principles. Quasi
It is faithful to the original meaning and style, this is to keep the information is complete, to realize
Communication between the two necessary conditions. Speed is because translators generally in Speech Discourse
The end of the 2~ 3seconds to respond to, within a specific time period quickly
Language conversion.
1.1information receiving -- Xin resolutionIn the process of interpreting, interpreter first receives the information of the original sonic. Perception is notIs a sound of a voice, but not disconnected, unrelated, separateThe syllables or words are simple and medley, but continuity word chain, the interpreter fromDetermining the primitives to express the concept and content of thought.The 1.2 information processing -- understanding ofIn a short period of time, the interpreter will contact a lot of words, sentences and other symbolsA continuous speech chain, understanding of the process is to extract the speech chainContains information and ideological content, emphasizing that the translators" off language shell" canForce, namely the core information in the shortest possible time, integrated optimization. Of the original Institute' solutions is a fast and complex process, the interpreter using existing language ability, dorsalBackground knowledge, culture, social psychology and other knowledge to make comprehensive judgment.The 1.3 information storage -- memoryInterpreting source language information can not be repeated and transient.Point. Due to time constraints, short-term memory in interpretation processes play a role moreApparent. The interpreter and translator of, rely on short-term memory for temporarily storing primitivesContent. The interpreter7owe will receive much information, but the human brain capacity of short-term memoryLimited, and the retention time is short, it is difficult to remember all the content, need to take notes toCompensate for the possible difference of information.1. 4information output -- expressionThe interpretation of information output is a thinking process. Primitive thinkingThrough the analysis to content, finishing translation into the target language, and through the voice equivalent toThe hearer. Interpretation and translation accuracy and speed of different, should follow two principles. QuasiIt is faithful to the original meaning and style, this is to keep the information is complete, to realizeCommunication between the two necessary conditions. Speed is because translators generally in Speech DiscourseThe end of the 2~ 3seconds to respond to, within a specific time period quicklyLanguage conversion.
望满意！~
我的翻译：
1.1information receiving -- Xin resolution
In the process of interpreting, interpreter first receives the information of the original sonic. Perception is not
Is a sound of a voice, but not disconnected, unrelated, separate
The syllables or words are simple and medley, but continuity word chain, the interpreter from
Determining the primitives to express the concept and content of thought.
The 1.2 information processing -- understanding of
In a short period of time, the interpreter will contact a lot of words, sentences and other symbols
A continuous speech chain, understanding of the process is to extract the speech chain
Contains information and ideological content, emphasizing that the translators" off language shell" can
Force, namely the core information in the shortest possible time, integrated optimization. Of the original Institute
' solutions is a fast and complex process, the interpreter using existing language ability, dorsal
Background knowledge, culture, social psychology and other knowledge to make comprehensive judgment.
The 1.3 information storage -- memory
Interpreting source language information can not be repeated and transient.
Point. Due to time constraints, short-term memory in interpretation processes play a role more
Apparent. The interpreter and translator of, rely on short-term memory for temporarily storing primitives
Content. The interpreter7owe will receive much information, but the human brain capacity of short-term memory
Limited, and the retention time is short, it is difficult to remember all the content, need to take notes to
Compensate for the possible difference of information.
1. 4information output -- expression
The interpretation of information output is a thinking process. Primitive thinking
Through the analysis to content, finishing translation into the target language, and through the voice equivalent to
The hearer. Interpretation and translation accuracy and speed of different, should follow two principles. Quasi
It is faithful to the original meaning and style, this is to keep the information is complete, to realize
Communication between the two necessary conditions. Speed is because translators generally in Speech Discourse
The end of the 2~ 3seconds to respond to, within a specific time period quickly
Language conversion.
1.1 the information receive-xin bian In interpreting process, first of all the original language interpreter of the sound receiving information. Book not Is a sound a sound, more is not broken, no relationship, alone Syllables or the vocabulary of simple piece together, but the words of the continuity chain, from an interpreter Sure the original language must express concept and the ideological content. 1.2 information processing--understanding In the short period of time, an interpreter will contact a lot words, sentences and symbols The continuity of a chain of words, the process of understanding is to point out these words chain Contains information and the ideological content, emphasize the interpreter "take off language shell" of energy Force, namely the core information in the shortest possible time optimization, integration. The reason of the original language 'solution is a quick and complicated process, interpreter using existing language ability, back Scene knowledge, cultural and social psychological knowledge, to make comprehensive judgment. 1.3 information storage-memory Interpretation of the central plains language information release is not repeat and the almost