關鍵字查詢 | 類別:期刊論文 | | 關鍵字:The effect of turbulent viscous shear stress on red blood cell hemolysis

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1 102/2 水環系 盧博堅 教授 期刊論文 發佈 The effect of turbulent viscous shear stress on red blood cell hemolysis , [102-2] :The effect of turbulent viscous shear stress on red blood cell hemolysis期刊論文The effect of turbulent viscous shear stress on red blood cell hemolysisYen, Jen-Hong; Chen, Sheng-Fu; Chern, Ming-Kai; Lu, Po-Chien淡江大學水資源及環境工程學系;淡江大學化學學系Hemolysis; Sub-grid scale; Turbulent dissipation rate; Viscous dissipative stresses; Particle image velocimetryTokyo: Springer Japan KKJournal of Artificial Organs 17(2), pp.178-185Non-physiologic turbulent flow occurs in medical cardiovascular devices resulting in hemodynamic stresses that may damage red blood cells (RBC) and cause hemolysis. Hemolysis was previously thought to result from Reynolds shear stress (RSS) in turbulent flows. A more recent hypothesis suggests that turbulent viscous shear stresses (TVSS) at spatial scales similar in size to RBCs are related to their damage. We applied two-dimensional digital particle image velocimetry to measure the flow field of a free-submerged axisymmetric jet that was utilized to hemolyze porcine RBCs in
2 102/2 化學系 陳銘凱 副教授 期刊論文 發佈 The effect of turbulent viscous shear stress on red blood cell hemolysis , [102-2] :The effect of turbulent viscous shear stress on red blood cell hemolysis期刊論文The effect of turbulent viscous shear stress on red blood cell hemolysisYen, Jen-Hong; Chen, Sheng-Fu; Chern, Ming-Kai; Lu, Po-Chien淡江大學水資源及環境工程學系;淡江大學化學學系Hemolysis; Sub-grid scale; Turbulent dissipation rate; Viscous dissipative stresses; Particle image velocimetryTokyo: Springer Japan KKJournal of Artificial Organs 17(2), pp.178-185Non-physiologic turbulent flow occurs in medical cardiovascular devices resulting in hemodynamic stresses that may damage red blood cells (RBC) and cause hemolysis. Hemolysis was previously thought to result from Reynolds shear stress (RSS) in turbulent flows. A more recent hypothesis suggests that turbulent viscous shear stresses (TVSS) at spatial scales similar in size to RBCs are related to their damage. We applied two-dimensional digital particle image velocimetry to measure the flow field of a free-submerged axisymmetric jet that was utilized to hemolyze porcine RBCs in
3 102/2 水環系 盧博堅 教授 期刊論文 發佈 The effect of turbulent viscous shear stress on red blood cell hemolysis , [102-2] :The effect of turbulent viscous shear stress on red blood cell hemolysis期刊論文The effect of turbulent viscous shear stress on red blood cell hemolysisYen, Jen-Hong; Chen, Sheng-Fu; Chern, Ming-Kai; Lu, Po-Chien淡江大學水資源及環境工程學系Hemolysis; Sub-grid scale; Turbulent dissipation rate; Viscous dissipative stresses; Particle image velocimetryTokyo: Springer Japan KKJournal of Artificial Organs 17(2), pp.178-185Non-physiologic turbulent flow occurs in medical cardiovascular devices resulting in hemodynamic stresses that may damage red blood cells (RBC) and cause hemolysis. Hemolysis was previously thought to result from Reynolds shear stress (RSS) in turbulent flows. A more recent hypothesis suggests that turbulent viscous shear stresses (TVSS) at spatial scales similar in size to RBCs are related to their damage. We applied two-dimensional digital particle image velocimetry to measure the flow field of a free-submerged axisymmetric jet that was utilized to hemolyze porcine RBCs in selected locati
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