共查询到20条相似文献,搜索用时 343 毫秒
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REGEN程序是用于回热式低温制冷机中回热器部分的仿真模拟软件。在仅内嵌有氦元素工质的基础上,工作新增了包含N2、H2、Ne、Ar和甲烷等13种低温工质的物性库,介绍了其适用温度、压力区间及计算精度等情况。在保留原有氦-4(4He)的基础上补充了当前最新的4He状态方程的研究成果,以此验证了新物性库与原物性库的衔接性和复现性。使用基于新物性库的REGEN3.3a程序对He、H2和Ne为工质的斯特林型脉管制冷机,进行了模拟优化计算并比较了采用不同工质时制冷机的制冷系数。 相似文献
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以理想费米气体为工质的量子制冷循环 总被引:2,自引:0,他引:2
本文基于理想费米气体的状态方程,分析了以理想费米气体为工质的量子Ericsson制冷循环中的回热特征,推导出其制冷循环的制冷系数表达式。并在高温和低温条件下对制冷系数进行了讨论。这将对低温制冷机的研究提供理论依据。 相似文献
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以理想玻色气体为工质的量子Ericsson制冷循环 总被引:5,自引:1,他引:4
文中基于理想玻色气体的状态方程 ,分析了以理想玻色气体为工质的量子 Ericsson制冷循环中的回热特征 ,推导出其制冷循环的制冷系数表达式。并在高温和低温条件下对制冷系数进行了讨论。这将对低温气体制冷机的研究提供理论依据。 相似文献
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根据热力学面上流体无量纲化剩余迁移性质曲线与对比密度曲线的相似性,通过关联无量纲化剩余导热系数和粘度与对比密度的方程,提出了一个推算卤代烃制冷工质稠密流体迁移性质状态方程。在常压下迁移性质计算的基础上,应用该方程只要已知物质的临界参数、分子量和偏心因子便可以计算稠密流体(气相或液相)的导热系数和粘度。该方法的提出使得迁移性质的计算像平衡性质一样通过状态方程便可以求出。与实验数据比较,本方法计算导热系数的总平均偏差为 4.8%,最大偏差为18.0%;计算粘度的总平均偏差为4.4%,最大偏差为 15.6%。 相似文献
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采用状态方程和多项式函数拟合两种方法,利用现有的物性计算,提出一些常用制冷剂的热力性质计算公式。利用FORTRAN和VB6.0建立了包含R12、R22、R134a的热物性计算软件。程序开发中采用层次模块的思想和开放式结构,便于增加新的制冷剂,具有良好的可扩充性。 相似文献
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R22与其替代工质的性能比较与分析 总被引:7,自引:0,他引:7
1前言传统的单工质蒸气压缩理论循环分析认为在冷凝器和蒸发器中,制冷剂的冷凝温度和蒸发温度等于相变温度,而忽略了压缩机进出口的过热段以及冷凝器出口过冷段的温度变化,直接造成了人们对回热循环和过热循环的认识偏差,产生了许多误解,其评价标准是有缺陷的。本文以变温热源的可逆循环为基础,考虑了在实际中是可以利用的过热段以及过冷段的温度变化,假设在冷凝器和蒸发器中,制冷剂与外界高、低温热源无换热温差,使循环更接近可逆循环。以此为基础的当量温度法可完善单工质的理论循环分析,同时可用于朗肯循环与劳伦兹循环之间的… 相似文献
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《Heat Recovery Systems and CHP》1991,11(2-3):193-197
The publication presents a set of equations and constants for calculating thermodynamic properties of refrigerants. State equation, equation of saturated vapor pressure, equation of liquid volume, equation of specific heat capacity, enthalpy and entropy for R11, R12, R13, R14, R22, R23, R113, R114, R500 and R502 are presented. High accuracy of results was achieved in comparing with ASHRAE tables. All equations are in SI units. 相似文献
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A. P. Ugol'nikov 《Russian Physics Journal》1985,28(3):234-237
Thermodynamic perturbation theory developed for pure polar liquids with significant polarizability is applied to a mixture with polar and nonpolar polarizable components. Expressions for the average and unperturbed dipole moments of the components of the mixture are presented and the dipole and induced contributions to the thermodynamic functions of the mixture are calculated. The equation of state is obtained and used to calculate the excess properties of a binary mixture of particles interacting with a stockmeyer potential. It is shown that the induced dipole moments contribute significantly to the thermodynamic properties of this model solution and that their effects must be taken into account in predicting the properties of real liquid mixtures containing polar components.Translated from Izvestiya Vysshikh Uchebnykh Zavedenii, Fizika, No. 3, pp. 69–73, March, 1985. 相似文献
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B. KollmitzerP. Hadley 《Physica B: Condensed Matter》2011,406(23):4373-4380
Exact analytic solutions to the Schrödinger equation for an electron moving in three dimensional potentials have been studied. These solutions can correspond to metals, semiconductors, or insulators. We show that there is an efficient method to calculate the electron density of states for this class of potentials. From the density of states, the temperature dependence of thermodynamic properties such as the chemical potential and the specific heat were determined. Ten thousand cubic separable potentials were considered. This data makes it possible to identify trends in how the form of the potential is related to the thermodynamic properties of a material. 相似文献
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The site-site Ornstein-Zernike (SSOZ) equation with mean spherical approximation closure is solved analytically for a mixture of hard dumbbells and polar hard dumbbells. The solution reduces to that of the pure polar hard dumbbell fluid at the polar species density rather than the total density. The thermodynamic properties of the mixture are obtained using the zero-pole approximation (ZPA) to the free energy. The mixture is shown to separate into two mixed phases, one rich in the nonpolar species and the other rich in the polar species. This phase separation terminates in an upper critical solution temperature. The excess thermodynamic functions are presented and the mixture exhibits both positive and negative values of the excess volume. The negative values of the excess volume occur in mixtures rich in the polar component. 相似文献