On Closure Relations for Dynamic Vapor Compression Cycle Models

Proceedings of The American Modelica Conference 2018, October 9-10, Somberg Conference Center, Cambridge MA, USA Pub Date : 2019-02-26 DOI:10.3384/ecp1815467
C. Laughman, Hongtao Qiao
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引用次数: 5

Abstract

Models of closure relations, or the expressions that relate the heat transfer coefficients and frictional pressure losses to other variables of the vapor-compression cycle, can have a significant impact on the performance on the overall cycle behavior. We explore three different approaches that may be used in formulating these closure models, and show that approaches that impose a nonlinear algebraic coupling can impose significant computational challenges. In comparison, models that incorporate lowpass dynamics can effectively decouple this nonlinear behavior,resulting in simulations that are faster and demonstrate more realistic and
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关于动态蒸汽压缩循环模型的闭合关系
闭合关系模型,或将传热系数和摩擦压力损失与蒸汽压缩循环的其他变量联系起来的表达式,可以对整个循环行为的性能产生重大影响。我们探索了三种不同的方法,可以用于制定这些闭包模型,并表明,施加非线性代数耦合的方法可以施加显著的计算挑战。相比之下,结合低通动态的模型可以有效地解耦这种非线性行为,从而使模拟更快,更真实
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Proceedings of The American Modelica Conference 2018, October 9-10, Somberg Conference Center, Cambridge MA, USA
Proceedings of The American Modelica Conference 2018, October 9-10, Somberg Conference Center, Cambridge MA, USA
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