本文运用热力学和传递过程的理论,对流体流动过程进行了(火用)分析。
By applying the thermodynamic principles and transfer theories, the exergy analysis of flow of fluids is made.
近几年来对流体如云、雾、烟、火、雨、水、礼花等进行模拟,已经成为计算机图形学领域的研究热点。
Recently, the simulation of fluid, such as cloud, fog, smoke, fire, rain, water and fireworks, has become a hot point in computer graphic field.
上述结果对稳流体系低于环境压力下火用的计算亦不例外。
When steady flow system is below the pressure of the environment, the calculation of the exergy is also without exception.
利用单位面积(火用)收益-E_F作为换热器优化设计的目标函数,导出了冷、热流体处在各种基本状态下E_F的表达式。
The exergy gains unit area is proposed for an optimized design of heat exchanger , and its formulae are provided when cold and heat fluid are under the various basic conditions.
利用单位面积(火用)收益-E_F作为换热器优化设计的目标函数,导出了冷、热流体处在各种基本状态下E_F的表达式。
The exergy gains unit area is proposed for an optimized design of heat exchanger , and its formulae are provided when cold and heat fluid are under the various basic conditions.
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