1) adiabatic cindition throtling
绝热调节
2) adiabatic throttle
绝热节流
1.
The determination of throttle coefficient of high-pressure natural gas in adiabatic throttle process is discussed, and the average throttle coefficient can be calculated by the enthalpy-pressure chart and equal enthalpy equation.
讨论了高压天然气绝热节流过程中节流系数的确定。
2.
Adiabatic throttle coefficient is used to denote adiabatic throttle effect of real gas.
实际气体的绝热节流效应通常用绝热节流系数来表示。
3.
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。
3) adiabatic throttling
绝热节流
1.
Based on the MATLABTM,the cooling-heating conversion and iso-enthalpy curves are obtained during the hydrogen adiabatic throttling process.
建立了减压阀开口系统的热力学模型,利用MATLAB软件分析了氢气绝热节流过程中的制冷和制热转换曲线和等焓曲线。
2.
Joule-Thomson effect during adiabatic throttling of real gas is analyzed,and the function expression for Joule-Thomson coefficient is derived by using Gopal expression for compressibility factor.
分析了实际气体绝热节流时的焦耳-汤姆逊效应,采用压缩因子的Gopal表达式导出焦耳-汤姆逊系数的函数表达式。
4) absolute adjustment
绝对性调节
5) adjustment heat value
热值调节
6) thermal regulation
热调节
1.
Primarily based on the theory of human thermal balance,combined with the physiological parameters such as body surface temperature,body temperature and sweating under the different indoor temperature in summer,the infection on human thermal balance and thermal regulation has been analyzed by mathematical formula derivation and data analysis.
本文以人体热平衡理论为基础,结合夏季室内温度下人体体表温度、体温、出汗等主要热调节方式,通过数学公式推导及实验数据分析的方式对夏季室内温度对人体热平衡、热调节方式的影响进行了讨论,得出相应的生理热平衡中性温度、出汗临界温度。
补充资料:节流装置
流量测量仪表中的差压流量计的测量部分,由节流件、取压装置和前后直管段组成。图为节流装置的基本结构。节流件的种类繁多,其特点和用途如表。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条