1) critical voltage difference
临界电压差
2) critical pressure differential
临界压差
1.
The analysis of critical pressure differential of one gas fie.
通过气藏孔隙压力和岩石骨架应力分布规律分析,以Bratli孔穴稳定准则为出砂判据,建立了固结砂岩储层气井裸眼完井出砂临界压差的确定准则,并利用该准则对南海某气田出砂临界压差进行了分析评价,为最大限度地提高气井产量,减少气井出砂对管壁冲蚀提出了可靠依据。
3) critical voltage
临界电压
1.
Three-dimensional analysis of the static voltage stability and the critical voltage in power system;
电力系统静态电压稳定的三维分析与临界电压
2.
Based on this,the critical voltage and the critical energy value of load node before and after compensation are successfully computed through adopting the preserving nonlinear flow algorithm(PNFA) integrating the optimal multiplier.
在此基础上,通过引入优化乘子的保留非线性潮流法(preserving nonlinear flow algorithm,PNFA)计算得到的系统各负荷节点临界电压来求取其补偿前后的临界能量值,然后根据各临界能量值得到补偿前后系统的无功裕度,并分析电容器并联补偿对系统电压稳定的影响及补偿前后无功负荷比例增长时各节点电压相角、负荷节点需耗能量值的变化趋势。
3.
It also presents us the counting method of critical voltage and maximun active power in stable running system,and analyses the influence of load on voltage stability in power system.
根据系统等效的方法 ,建立了电力系统任一节点电压与有功功率、无功功率的数学模型及对应的特性曲线 ,给出了系统稳定运行临界电压和极限有功功率的计算方法 ,分析了负荷对电力系统电压稳定性的影响 ,提出了提高电力系统电压稳定性应采取的有效措施 。
4) pull-in voltage
临界电压
1.
At the same time, the results reveal the relationship that the period of response is proportional to the driving voltage, and the character that dynamic pull-in voltage is.
同时也揭示了微梁振动响应周期与驱动电压成正比、动态临界电压低于静态临界电压等相关特性。
5) critical pressure differences
临界压力差
1.
Various temperatures and pressure differences through simulated test of determination HDPE bottle's deform during two sterilization processes were tested and the critical pressure differences between the inside of a HDPE bottle and its aluminum foil seal were gained.
在此基础上测试得到了 HDPE瓶及其铝箔封口的临界压力差。
2.
The paper establishes dualitic regression equation among HDPE bottle's deform degree, various temperatures and pressure differences through simulated test of determinating HDPE bottle's deform degree during two sterilization processes;and gains the critical pressure differences between the inside of a HDPE bottle and its aluminium foil seal.
在此基础上测试得到了HDPE瓶及其铝箔封口的临界压力差。
6) critical pressure differential ratio
临界压差比
补充资料:临界温度差
分子式:
CAS号:
性质:在沸腾传热过程的泡核沸腾阶段中,热流强度(heat flux,即每单位传热面积的传热量)随温度差(即壁温与沸腾温度之差)的增大而增加。但当热流强度增加到某一最高值时,由于液体大量汽化而在壁上形成部分汽膜(即达到部分膜状沸腾阶段),反而降低了热流强度。故相当于最高热流强度时的温度差称为临界温度差。沸腾水的临界温度差约为25℃,沸腾丙醇约为45℃等。
CAS号:
性质:在沸腾传热过程的泡核沸腾阶段中,热流强度(heat flux,即每单位传热面积的传热量)随温度差(即壁温与沸腾温度之差)的增大而增加。但当热流强度增加到某一最高值时,由于液体大量汽化而在壁上形成部分汽膜(即达到部分膜状沸腾阶段),反而降低了热流强度。故相当于最高热流强度时的温度差称为临界温度差。沸腾水的临界温度差约为25℃,沸腾丙醇约为45℃等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条