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- Quantum brayton heat engine 量子布雷顿热机循环
- It is shown that the work output of a Brayton heat engine working with ideal Bose gases is greater that of a classical Brayton cycle and the quantum degeneracy of the gas does not affect the efficiency of the cycle. 结果表明;以理想玻色气体为工质的布雷顿热机的输出功比以理想气体为工质的大;而热机效率不受量子简并性的影响.
- Optimization on the Performance of an Irreversible Harmonic Brayton Heat Engine 不可逆谐振子系统布雷顿热机循环性能优化
- Brayton heat engine Braysson热机
- Acknowledge that the following practical cycles can be heat engine cycle of ideal gas, such as the internal combustion engine (Otto cycle) , Diesel cycle , Brayton cycle. 了解并掌握内燃机和燃气轮机装置的实际工作循环可抽象为理想气体的热机循环。
- The results obtained here will be helpful to further understand the difference and connection between the classical and quantum Brayton refrigeration cycles. 得到的结果有助于进一步了解经典布雷顿制冷循环和量子布雷顿制冷循环之间的区别和联系 .
- In this part, we introduce some basic concepts of quantum thermodynamics, and study both equilibrium and nonequilibrium quantum heat engine models. 这一部分我们介绍了量子热力学的一些基本概念,讨论了平衡态和非平衡态的量子热机模型。
- One kind of heat engine uses atomic energy as a source of heat. 有一种热机用原子能作为热源。
- In this paper, A new cyclic model of quantum Carnot heat engine whose working substance consists of non-interacting extreme relativistic particles confined to an infinite potential well, is set up. 本文建立一种量子卡诺热机循环模型,该量子卡诺热机循环以一维无限深势阱中极端相对论粒子系统为工质。
- A refrigerator may be considered to be a heat engine operated in reverse. 制冷机可视为反向运转的热机。
- Our study of heat engines is part of a chain of reasoning. 我们对热机的研究乃是一系列推导的一部分。
- Quantum Heat Engine Cycle Working with Spin System 自旋系统量子热机循环
- Many of the heat engines just mentioned are turbines. 刚才提到的热力发动机,许多都是涡轮机。
- A diesel engine can not utilize all the chemical energy of the fuel, nor can any other heat engine. 柴油机不能利用燃料的全部化学能,任何别的热机也做不到这一点。
- All our means of transportation and communication depend upon some forms of heat engine. 我们的广切交通运输工具,都依靠某些热机来开动。
- The process by which the working substance in a heat engine,such as the vapor mixture in the cylinder of an internal-combustion engine,is compressed. 工作物质在热机中的压缩过程,如内燃机中混合蒸汽的压缩。
- Cycle process, efficiency of heat engine, refrigerator coefficient, Carnot cycle, thermodynamic second law and its physical meaning. 循环过程,热机效率,致冷系数,卡诺循环;热力学第二定律及其物理意义。
- The process by which the working substance in a heat engine, such as the vapor mixture in the cylinder of an internal-combustion engine, is compressed. 工作物质在热机中的压缩过程,如内燃机中混合蒸汽的压缩
- The most efficient heat engine cycle is the Carnot cycle, consisting of two isothermal processes and two adiabatic processes . 最有效的热力循环是卡诺循环,由两个等温过程和两个绝热过程。
- The relation between optimal efficiency and power output of a Carnot heat engine which operates subject to irreversible heat transfer is derived. 本文导出卡诺热机工作于不可逆传热的情况下,最佳效率与输出功率间的关系。
