1) water-holding capability
容水性能
1.
The litter water-holding capability of the artificial plant communities of the rehabilitated land in Datong county of Qinghai province located at the southern foot of Qilian mountains was studied.
对位于祁连山南麓的青海省大通县退耕地人工植物群落的枯落物容水性能进行了研究。
2) capacitance performance
电容性能
1.
Preparation and study on the capacitance performance of Co_3O_4;
Co_3O_4的制备及电容性能的研究
2.
Effects of different Ni/Zn ratios of electrodepositing solution on capacitance performance of Ni(OH)_2 supercapcitor positive electrode material
电沉积液中不同镍锌比对超级电容器正极材料Ni(OH)_2电容性能的影响
4) capacitive property
电容性能
1.
The surface morphology of film electrode was observed by SEM, and the capacitive property of that was studied through cyclic voltammetry to analyze how the mixing ratio of TEOS to RuCl_3·xH_2O and the sintering temperature/time affect the capacitive property.
以水合三氯化钌和正硅酸乙酯为原料,以钛片为基底,采用热分解氧化法制备了二氧化硅/氧化钌复合膜电极,利用扫描电子显微镜观察电极表面形貌,利用循环伏安曲线法研究电极的电容性能·考察了原料配比,烧结温度,烧结时间等制备条件对电极电容性能的影响·结果发现,二氧化硅/氧化钌复合膜电极具有优良的电容性能,当水合三氯化钌与正硅酸乙酯的物质的量的比为5∶2,烧结温度为350℃,烧结时间为1h时单电极的比容量最高可达137mF·cm-2,比文献值提高了近3个数量级
5) fault-tolerance performance
容错性能
1.
Assessment on fault-tolerance performance using GA-NN model for fault diagnosis in transmission and distribution systems;
GA-NN模型在输配电系统中诊断容错性能的评估
2.
In order to enhance the fault-tolerance performance(FTP)of the fault diagnosis system,the extend- ed fault samples considering the distortion of fault information because of stochastic factors are used in the fault- tolerance training of neural network(NN).
为提高故障诊断系统的容错能力,提出了将故障信息受随机因素畸变的扩展故障样本集引入神经网络(neural network,NN)的容错训练,以提高NN的容错性能,通过基于蚁群优化算法(ant colony optimization algorithm,ACOA)和遗传算法(genetic algorithm,GA)构造2种优化NN,用于高压输电线系统和配电网故障诊断,并进行容错性能的评估。
6) capacitance
[英][kə'pæsitəns] [美][kə'pæsətṇs]
电容性能
1.
Preparation and capacitance properties of nanostructured manganese dioxides were mainly researched in this paper.
本文主要研究了纳米二氧化锰材料的制备和电容性能。
补充资料:等容热容
分子式:
CAS号:
性质:系统在体积不能改变的条件下温度升高1K所需的热,符号Cv。此时系统所吸取的热完全用来增加其内能。因为等容过程中系统吸热Qv=△U,所以Cv就是系统升高1K时其内能的变化。用数学式表示,为 Cv=其中代表偏微分,下脚V表示体积不变。关于Cv与Cp关系参见等压热容。
CAS号:
性质:系统在体积不能改变的条件下温度升高1K所需的热,符号Cv。此时系统所吸取的热完全用来增加其内能。因为等容过程中系统吸热Qv=△U,所以Cv就是系统升高1K时其内能的变化。用数学式表示,为 Cv=其中代表偏微分,下脚V表示体积不变。关于Cv与Cp关系参见等压热容。
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