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机译:三维数值建模和计算流体动力学模拟,以分析和改善AMC生物人工肝中的氧气利用率
Cardiovascular Mechanics and Biofluid Dynamics Research Group Institute of Biomedical Technology Ghent University;
Departments of Experimental Surgery and Hepatology Academic Medical Center University of Amsterdam;
Cardiovascular Mechanics and Biofluid Dynamics Research Group Institute of Biomedical Technology Ghent University;
Departments of Experimental Surgery and Hepatology Academic Medical Center University of Amsterdam;
Cardiovascular Mechanics and Biofluid Dynamics Research Group Institute of Biomedical Technology Ghent University;
Computational fluid dynamics; Hepatocyte bioreactor; Acute liver failure; Shear stress; Fluid flow; Oxygen partial pressure; Michaelis–Menten oxygen consumption; Effective hepatocyte utilization ratio; Internal oxygenation; External oxygenator;
机译:三维数值建模和计算流体动力学模拟,以分析和改善AMC生物人工肝中的氧利用率。
机译:AMC生物人工肝三维参数模型上的流体流动和氧气传输的数值模拟
机译:增强的氧气利用率改善了AMC生物人工肝的肝脏特异性功能。
机译:生物肝脏装置中氧气输送的数值模型
机译:自由剪切层中非线性波的数值模拟(混合,计算,流体动力学,流体动力稳定性,空间,流体流动模型)。
机译:三维数值建模和计算流体动力学模拟以分析和改善AMC生物人工肝中的氧气利用率
机译:三维数值建模和计算流体动力学模拟,以分析和改善AMC生物人工肝中的氧气利用率