And we saw that, you saw that the Joule coefficient for an ideal gas was zero.
我们会发现,你们也会发现,理想气体的焦耳系数是零。
In this paper we derive the quantitative analysis formula of Joule-Thomsonian coefficient from the knowledge of common physics.
本文用普通物理热学的知识推导出焦尔·汤姆逊系数的定量分析公式。
The key to calculate the temperature drop induced by adiabatic throttle of compressed natural gas is to find the solution of the Joule-Thomson coefficient.
计算压缩天然气绝热节流的温度降的关键是求解焦耳-汤姆逊系数。
The Joule-Thomson coefficient is equal to zero.
焦耳- 汤姆逊系数等于。
Based on the BWRS state equation, the complete formula for calculation Joule-Thomson coefficient is derived, and the detail calculation procedure is given.
使用BWRS状态方程,推导出了计算焦耳-汤姆逊系数的完整公式,给出了详细的计算步骤。
Based on the BWRS state equation, the complete formula for calculation Joule-Thomson coefficient is derived, and the detail calculation procedure is given.
使用BWRS状态方程,推导出了计算焦耳-汤姆逊系数的完整公式,给出了详细的计算步骤。
应用推荐