engineering thermodynamics
工程热力学:热力学的一个分支
常用释义
英式发音
美式发音
基本释义
- 工程热力学:热力学的一个分支,研究能量转换和传递的原理,以及它们在工程实践中的应用。
例句
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1·Acknowledge the important role of Engineering Thermodynamics in practical project application.了解工程热力学在工程应用中的重要作用。
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2·Heat Transfer, Fluid dynamics, Engineering Thermodynamics, Mechanics of Materials, General Chemistry.传热学,流体力学,工程热力学,材料力学,普通化学。
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3·In this course, we will review some basic concepts and basic laws of thermodynamics in chapter one, which is connected with engineering thermodynamics.本课程第一章回顾了热力学的基本概念和基本定律,与本科工程热力学课程相衔接。
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4·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.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。
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5·Based on the theory of aerodynamics, engineering thermodynamics, the mechanical model for air spring vertical dynamical characteristics analysis is built and proved to be correct by test.应用空气动力学、工程热力学理论,推导空气弹簧垂向动态特性分析的数学模型,经过试验验证模型的正确性。
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6·Academic Main Courses: Chemical Engineering Transfer, Chemical Engineering Thermodynamics, Physical mathematics Equation, Probability and Statistics, Enhanced Heat Transfer, Mass Transfer.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。
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7·Volumetric expansion coefficient and compressibility of water and steam are important parameters usually applied in the reactor thermal hydraulic, heat transfer and engineering thermodynamics.水和蒸汽的体膨胀系数和压缩率是反应堆热工水力、传热学和工程热力学中常用的参数之一。
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8·The prerequisites for this course are the undergraduate courses in thermodynamics and fluid mechanics, specifically Thermal Fluids Engineering I and Thermal Fluids Engineering II or their equivalents.本课程之先修科目有大学部之热力学及流体力学,即热流工程i及热流工程II或者与其相当的科目。
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9·Chemical Engineering, chemical thermodynamics and physical chemistry and other basic courses, and achieved excellent results.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。
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10·Engineering is based principally on physics, chemistry, and mathematics and their extensions into materials science, soild and fluid mechanics, thermodynamics, and systems analysis.物理学、化学、数学,以及这些学科扩展出的物质科学、固体物理、流体力学、热力学和系统分析等等学科是工程学的重要基础。