但不改变热力学过程。
热力学过程,包括天然气液化,制冷。
Thermodynamic processes, including gas liquefaction, refrigeration.
裂纹愈合是一个不可逆的热力学过程。
热力学定律包括着一个称为熵的有关不可递热力学过程的概念。
The laws of thermodynamics involve a concept called entropy for irreversible thermodynamic processes .
对合成反映的热力学过程进行理论分析和实验研究,探讨了产物的合成条件。
The whole thermodynamics process was analyzed and investigated not only in theory but also through experiments. The synthesis conditions of the product were also discussed.
本文还首次对电化学脱氧提纯稀土金属钇的基本原理和热力学过程进行了论证。
In this paper, basic principle and thermodynamic process of the electrochemical deoxidation purified rare earth metal yttrium are firstly demonstrated.
对反应的热力学过程进行理论分析和实验研究,分析了产物的结构、组织和性能。
The whole thermodynamics process was analyzed both in theory and by experiment. The composition, microstructure and properties of the products were also examined.
作者认为,煤层气体的突出不仅是一种动力现象,它还是一种复杂的热力学过程。
The author considers that outburst of coal-seam gases is not only a dynamic phenomenon, but also a very complicated thermodynamical conversion process of energy.
本文系统分析了温室环境中的主要热力学过程,用热水加热实现对温室温度的控制。
The main thermo-dynamical processes related to greenhouse climate are analyzed systemically, and the control of the greenhouse temperature is achieved with hot water.
通过对常见的化学热力学过程方向条件的讨论,直接得出了化学热力学系统的稳定条件。
The stabilizing conditions of chemical thermodynamic systems were directly obtained by having a discussion on the direction conditions of the common chemical thermodynamic processes.
分析了紧急情况下储罐内发生的热力学过程,建立了水下排放液氧和气氧过程的数学物理模型。
Analyse thermodynamic process in liquefied oxygen tank under emergency, establish mathematic-physical mode of underwater discharging of liquefied oxygen and vaporized oxygen.
以损失数作为目标函数来表征该热力学过程的不可逆程度,分析了管道内对流换热过程中的损。
The exergy loss number is used in this paper as the objective function to indicate the irreversibility of the thermodynamic process.
文章对热力学准静态过程与非静态过程进行教学研究,并提出处理热力学过程有效和准确的方法。
This paper studies the thermodynamic quasi-stationary and non-static processes from the Angle of methodology, and presents an efficient method for the thermodynamic processes.
牛顿力学的时间可逆性与宏观热力学过程不可逆性的矛盾,很长时间以来一直是物理学和哲学中争论最多的问题之一。
The contradiction between temporal reversibility of Newton mechanics and irreversibility of thermodynamic process has long been one of the most frequently debated problems in physics and philosophy.
牛顿力学的时间可逆性与宏观热力学过程不可逆性的矛盾,很长时间以来一直是物理学和哲学中争论最多的问题之一。
The contradiction between temporal reversibility of Newton mechanics and irreversibility of thermodynamic process has long been one of the most frequently debated problems in physics and philosophy.
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