化工原理,化工热力学和物理化学等基础课程,并取得优异的成绩。
Chemical Engineering, chemical thermodynamics and physical chemistry and other basic courses, and achieved excellent results.
通过两个实例,说明了计算机在化工热力学中的应用。较之手工计算,可节省很多时间。
This paper illustrates the application of computers in chemical thermodynamics with two examples. Compared with manual calculation, using computers can save much time.
根据化工热力学能量守恒方程,推导出了两种容器内可燃气体爆炸温度和压力的计算方法。
Based on the energy conversation equation of chemical engineering thermodynamics, two computation methods of explosion temperature and pressure of gas explosion in vessels were built.
在校期间所学课程有:化工传递、化工热力学、数理方程、数理统计、强化传热、传质学等,成绩优秀。
Academic Main Courses: Chemical Engineering Transfer, Chemical Engineering Thermodynamics, Physical mathematics Equation, Probability and Statistics, Enhanced Heat Transfer, Mass Transfer.
把热力学与系统工程的方法相结合,进一步将“夹点分析”应用于化工过程系统的用能诊断及调优。
Pinch analysis was applied to diagnosis and optimization of energy utilization of process systems based on the principles of thermodynamics and system engineering.
同时根据化学反应动力学和热力学原理,探讨了磺化工艺条件。
The sulfonating conditions were investigated according to thermodynamics and kinetics of chemical reaction.
本发明提供一种测量方便的、可用于化工高纯度体系多级分离过程的热力学参数整定方法。
The invention provides a method convenient for measuring and suitable for setting the thermodynamic parameters in the multi-stage separation process of the high-purity system.
本发明提供一种测量方便的、可用于化工高纯度体系多级分离过程的热力学参数整定方法。
The invention provides a method convenient for measuring and suitable for setting the thermodynamic parameters in the multi-stage separation process of the high-purity system.
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