1) energy storage
储能物质
2) energy storage
储能
1.
Preparation and characterization of paraffin/polyvinyl alcohol phase change fibers for energy storage;
石蜡/聚乙烯醇相变储能纤维的制备与表征
2.
Review of polyethylene glycol for energy storage;
聚乙二醇相变储能材料研究进展
3.
Studies and applications of polymer solid-solid phase transition materials for thermal energy storage;
高分子固-固相变储能材料的研究与应用
3) heat storage
储能
1.
Preparation for neopentyl glycol/bentonite composite heat storage material;
新戊二醇/皂土复合储能材料的制备
2.
A model for heat transfer in a shell-and-tube latent heat storage exchanger has beensolved numerically to predict the performance of heat exchanger.
1前言利用相变材料在发生相变时有很高的潜热释放或吸收的特点,将相变材料作为储热介质用于相变储能换热器中,可以大大地提高热储存的容量。
3.
Salt hydrates are ideal materials for heat storage.
随着世界能源和我国能源的日趋紧张,储能材料在太阳能利用、工业废热利用、节能、工程保温材料、医疗保健等领域得到广泛的应用。
4) stored energy
储能
1.
The application of self-excitation delay relay in the breaker stored energy electromotor control loop;
自励式延时继电器在断路器储能电机控制回路中的应用
2.
The stored energy of iron ore consists of surface energy,crystal boundary energy and dislocation energy,with crystal boundary energy as the major component,and contribution of surface energy is small.
研究了机械力作用下铁矿粉储能的变化规律和还原热力学。
3.
X-ray diffraction(XRD) and differential scanning calorimetry(DSC) were used to analyze the forms and the transformation of the stored energy.
本文主要讨论了Cu-Fe复合粉体在高能球磨过程中能量的储存以及变化情况,通过对球磨后Cu-Fe复合粉体进行XRD、DSC分析,来了解在球磨过程中的能量储存方式和变化情况,从而证明了这种储能对Cu-Fe烧结体烧结温度和制品性能的影响。
5) storage energy
储能
1.
The prospect of calorimetry study of mechanochemistry and the mechanism study of mechanical activation storage energy is also put forward.
简述了机械化学的基本特征,着重阐述了机械化学与机械活化量热学的研究现状,对机械化学量热学研究与机械活化储能机理研究的发展前景进行了展望。
2.
The controlling and measurement system of pulse xenon lumps adopts high precision L C constant current charger, which can charge the storage energy capacitors with high repetition precision and communicate with computer real time.
该在线测控系统采用高精度L -C恒流充电机对储能电容器进行充电 ,实现了电压重复精度高和实时通信功能 ;采用量化传输模式对信号进行检测 ,降低了干扰和失真 ;同时采用多线程工作模式的计算机控制系统 ,实现了实时控制与监测。
6) storing energy
储能
1.
After energy resource and storing energy being classified, a frequency-droop character is described.
接着介绍了微电网的电源和储能形式,并对微源的控制器特性即频率下垂曲线进行了简单的描述。
参考词条
补充资料:超导储能(storedenergyofsuperconductivity)
超导储能(storedenergyofsuperconductivity)
由于超导磁体环流在零电阻下无能耗运行,所以超导线圈中可持久地储存电磁能,且在短路情况下运行,称超导储能。它的优点在于:⑴一次储能可长期无损耗地保存,又可瞬时放出;⑵储存能量高,现已可达107J/m3以上;⑶用低压电源励磁即可;⑷装置体积小;⑸节省了常规所需的送变电设备和减少送变电损耗。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。