Application of singular perturbation theory to compressible mass flow rate integration

29th IEEE Conference on Decision and Control Pub Date : 1990-12-05 DOI:10.1109/CDC.1990.203490
B. Powell
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引用次数: 1

Abstract

A time efficient digital integration method for the solution of the orifice mass flow rate equations common in internal combustion engine breathing process simulation is discussed. Local linearization followed by development of a standard singular perturbation model is used to synthesize digital integrating factors that are applied to the original nonlinear differential equations. This approach results in a method suitable for high-speed flow rate integration over the entire flow rate operating range. Analytical development of the method and simulation results are summarized.<>
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奇异摄动理论在可压缩质量流量积分中的应用
讨论了求解内燃机呼吸过程仿真中常见的孔口质量流量方程的一种省时的数字积分方法。采用局部线性化,然后建立标准奇异摄动模型,对原非线性微分方程进行数字积分因子合成。该方法适用于整个流量操作范围内的高速流量积分。总结了该方法的分析发展和仿真结果
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29th IEEE Conference on Decision and Control
29th IEEE Conference on Decision and Control
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