The heat receiver is a key part of SDPS.
吸热器是热动力发电系统关键部件之一。
All results of the calculation can be used to guide the heat receiver design.
计算结果可用于指导吸热器的设计。
All results of the calculations can be used to guide the heat receiver design.
计算结果可用于吸热器的设计。
Container of Phase Change Material (PCM) is a key part of heat receiver in space solar dynamic power system.
相变材料(PCM)容器是空间太阳能动力装置吸热—储热器的关键部件。
High temperature solid liquid change thermal energy storage (TES) canister is a key component of heat receiver.
高温固液相变蓄热容器是空间太阳能动力装置吸热-储热器的关键部件。
One of its key parts in heat receiver. The high-temperature storage canister is the basic component in heat receiver. The heat transfer process in storage canister is very important.
关键部件之一是吸热蓄热器,高温蓄热容器是其中的基本部件,它的传热性能直接影响到整个热动力系统的性能。
The space feed technique, microwave receiver, calibration technique, data collection & processing, driving & transmission, power source and heat control are also analyzed.
同时对天馈技术、微波接收机、定标技术、数据采集与处理、驱动与传输、电源、热控制等技术进行了分析。
The space feed technique, microwave receiver, calibration technique, data collection& processing, driving& transmission, power source and heat control are also analyzed.
同时对天馈技术、波接收机、标技术、据采集与处理、动与传输、源、控制等技术进行了分析。
Simulation results show that heat pipe receiver lightens system mass, improves heat efficiency of system and avoids phenomena of heat spot and heat relaxing.
模拟结果表明,热管吸热器减轻了系统的质量,提高了系统的热效率,并能避免热斑和热松脱现象。
Therefore, heat pipe receiver can improve the efficiency of system, avoid the phenomena of heat spot and thermal ratcheting.
因此,热管吸热器提高了系统的效率,能避免热斑和热松脱现象。
The receiver with a vacuum tube can greatly reduce the heat loss caused by surface convection, and hence the heat transfer efficiency can be improved effectively.
而太阳能集热器用真空管作为接收器,可以大大减小接收器外表面的散热损失,可以显著提高集热器的集热效率。
This paper discusses the principle of the concentrating property of the spherical reflector, derives the light energy distributing function, and gives the design of the heat energy receiver.
本文讨论了球面聚光镜的数学原理,导出了光能密度分布函数,并提出了热能接收器设计方案。
A heat transfer fluid heated in the receiver is used to generate steam, which, in turn, is used in a conventional turbine-generator to produce electricity.
在接收器被加热的热移动液体用来产生蒸气,这,依次,被用于一个传统的涡轮-产生器生产电力。
High pressure liquid receiver is a normal component in the refrigeration, air conditioning and heat pump systems, but its effects on the system performance are always neglected.
高压贮液器是制冷、空调、热泵系统中的常用部件,但其对系统性能的影响在相关系统性能分析时却常被忽视。
The thermal analysis of the heat pipe receiver was presented in which the collector efficiency and thermal loss were calculated in 3 separate sections.
文中分析了该新型热管接收器的特点,并分3段模拟计算了采用该接收器的抛物面槽式太阳能集热器的集热效率和接收器的散热损失。
Expressions of heat removal factor, efficient factor and time constant of the four types of cavity receiver have been deduced and test for trough solar collector system has been set up.
推导出了四种结构的热迁移因子、效率因子和时间常数等表达式,搭建了槽式太阳能集热器系统,进行了试验测试和验证。
Expressions of heat removal factor, efficient factor and time constant of the four types of cavity receiver have been deduced and test for trough solar collector system has been set up.
推导出了四种结构的热迁移因子、效率因子和时间常数等表达式,搭建了槽式太阳能集热器系统,进行了试验测试和验证。
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