本文根据量子力学和热力学理论,提出了一种以大量的处在无限深势阱中的微观粒子为工质的量子卡诺制冷循环模型。
Based on quantum mechanics and thermodynamics, a model of Carnot refrigeration cycle is proposed in which the working substance is composed of micro-particles contained in a potential well.
这种模型的应用可以使得热能动力工程和制冷工程设计中的状态参数和热力过程计算软件的重复使用问题得到简化。
With this kind of model, the software used in thermal power engineering and refrigeration engineering for computing thermodynamic parameters of state and processes can be easily reused and enhanced.
本文对扩散——吸收式制冷系统的工作机理及热力计算进行了探讨。
This paper discusses the working mechanism and thermal calculation of the diffusion absorption refrigeration system.
进而介绍了利用这两个方程在电子计算机上进行溴化锂吸收式制冷循环热力计算的方法。
The method for using the two equations to calculate the thermodynamic characteristics of an LiBr absorption refrigeration cycle is introduced.
建立了吸附式太阳能制冷装置的吸附床热力计算模型。
Thermodynamic calculating model of adsorption bed in the adsorption solar refrigeration equipment was established.
分析热力膨胀阀和蒸发器调节系统的稳定性,它直接影响着制冷效率和运行安全。
This paper describes the stability of control loop consisting of refrigeration evaporator and thermostatic expansion valve. It may directly influence refrigerating efficiency and operation safety.
为了节约成本,避免使用两个热力膨胀阀,文章提出了一种新型的用于热泵的节流机构,实现了制冷和制热的最佳匹配。
In order to save costs and avoid using two thermal expansion valves, the paper proposed a new throttle mechanism used for the heat pump and realizes the best match of the cooling and heating.
并根据热力学理论、流体力学等理论,运用仿真技术对冷藏集装箱制冷系统主要部件和冷藏集装箱冷藏室内的流场温度场建立数学模型和进行模拟仿真。
Then. based on the theory of thermodynamics and the theory of hydrodynamics, applying simulation technique to theorize mathematics model of the key component of refrigerated containers .
热力学过程,包括天然气液化,制冷。
Thermodynamic processes, including gas liquefaction, refrigeration.
建立了热力膨胀阀模型,重点建立了流量与阀前后压差及制冷剂进出口干度的关系。
The model of thermal expand valve is built and the connection of flux, pressure difference between the front and behind of the valve and cryogen dryness of inlet and outlet.
本文主要叙述船舶制冷系统变频控制时热力循环参数的计算。
The calculation of thermodynamic cycle parameters is mainly introduced in the paper when the frequency is converted.
此方程组可直接用于氨制冷装置的热力性质计算和编制计算机程序。
These equations can be directly used for thermodynamic calculating and computer programming in ammonia refrigerating equipment.
本文提出了利用(?)力学优化对过程参数和流程进行热力学评价的方法,并用于氨吸收制冷流程。
By using thermodynamic optimization, a method of thermodynamic evaluation on the process parameters and the plants, especially, on the ammonia absorption refrigeration (AAR), is presented.
本文通过列车运行试验并用热力学和流体力学的方法研究了KLD40型空调机组冷凝风量以及制冷量等性能变化。
The performance of the KLD40 air-conditioning unit by the test and the methods of thermodynamics and hydrodynamic were researched.
软件的主要功能是对制冷剂热力学参数进行查询,本软件将对制冷装置设计计算问题起到简化作用。
The main function of this software is inquiring about refrigerant thermodynamics parameter, it will work simplification function to the design and calculation of refrigeration equipment.
将有限时间热力学、非平衡量子统计理论和火用经济学相结合,导出了量子斯特林制冷机的最大利润率以及对应的性能界限。
Comprising the finite time thermodynamics, nonequilibrium statistical theory and exergeocnomics, the maximum exergeoeconomic profit and performance limit are derived in the article.
然后基于实例进行制冷系统的设计计算和优化设计研究,并用热力学的方法对系统进行经济性分析。
Then a real example is been studied and analyzed on the design and optimization of cooling set, with an added thermal economic analysis.
论文对透平制冷装置分别进行了热力分析和(火用)分析,从而得出如何获得最佳制冷效果。
Both thermodynamics analysis and exergy analysis of the refrigeration circle in turbine-compressor are accomplished in this paper, which leads to how to acquire the best effect of refrigeration.
基于统计力学的性质推导出了顺磁系统的热力学关系,并构建了以满足居里定律的顺磁材料为工作物质的一般磁布雷顿制冷循环模型。
Using the paramagnetic salt restricted to the Curie law as the working substance, a general model of magnetic Brayton refrigeration cycle is established.
跨临界二氧化碳制冷系统节流控制机构,主要包括节流阀、汽液分离器、电磁阀、混合器、热力膨胀阀等。
The throttle control mechanism of cross-critical CO2 refrigerating system includes mainly throttle valve, vapor-liquid separator, solenoid valve, mixer thermal expanding valve, etc.
本文所考虑的三源热力循环设备包括:吸收式制冷机、太阳能制冷机和两类三源化学泵等。
The thermodynamic cycle equipments considered in this dissertation include absorption refrigerators, solar refrigerators, two classes of three-source chemical pumps and so on.
准确、快速、稳定地计算制冷剂热力性质是计算机辅助设计和工程计算的要求。
Fast calculation of the refrigerant thermodynamic properties is fundamental and important for engineering calculations, especially for the refrigeration system simulation.
介绍了热力膨胀阀应用于空调制冷系统的几个问题:过热调整不当、感温包常见故障、容量匹配及膨胀阀冻结故障等。
Some problems as incorrect adjustment on the degree of superheat, general failure of the thermometer bulb, matching of the capacity and freezing of the TEV are presented.
分析了它对制冷系统的流量控制特性,并与传统热力膨胀阀的流量控制特性相比较。
The refrigerant flow rate regulation characteristics of it is analysed and compared with that of the conventional TEV.
本文基于热力学性质建立了分置式斯特林制冷机的物理模型,并将人工神经网络引入模型。
Based on the characteristics of thermodynamics, the physical model of split-Stirling crycooler was set up and artificial neural networks were imported into the model.
将该模块用于常规g - M制冷机的热力计算,结果合理,达到了预期的要求。
By using this module in the thermodynamic calculation for G-M refrigerator, the results are reasonable and meet the expectative requirements.
通过对喷射式J-T制冷器的热力分析,推导出了制冷器预冷级与制冷级的流量比的理论最小值,可为此类制冷器的设计提供参考。
Based on the analysis of the thermodynamic process of the spray J-T cooler, the theoretical minimum ratio of the cooler′s flowrate has been derived.
本文用严格的热力方法推导了G-M机的制冷量。
The amount of refrigeration of G-M cryorefrigerator has been derived by using strict thermodynamic method.
同时介绍利用上述基本热力学数据计算石油天然气膨胀机制冷过程等熵效率;
The basic data thus obtained could be used for the calculation of the isentropic efficiency in the expanding process of natural gas in refrigeration.
同时介绍利用上述基本热力学数据计算石油天然气膨胀机制冷过程等熵效率;
The basic data thus obtained could be used for the calculation of the isentropic efficiency in the expanding process of natural gas in refrigeration.
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