A BOUNDARY PERTURBATION SOLUTION FOR THE HYDRODYNAMIC STABILITY OF BLOOD FLOW IN A CONETYPE BLOOD PROCESSOR

Applied Mathematics and Mechanics (English Edition) ›› 1983, Vol. 4 ›› Issue (4): 599-610.

A BOUNDARY PERTURBATION SOLUTION FOR THE HYDRODYNAMIC STABILITY OF BLOOD FLOW IN A CONETYPE BLOOD PROCESSOR

朱月锐, 张效慈

Department of Engineering Mechanics, Shanghai Jiao-Tong University, Shanghai

收稿日期:1981-07-01 出版日期:1983-07-18 发布日期:1983-07-18
通讯作者: Chien Wei-zang

A BOUNDARY PERTURBATION SOLUTION FOR THE HYDRODYNAMIC STABILITY OF BLOOD FLOW IN A CONETYPE BLOOD PROCESSOR

Zhu Yueh-rui, Zhang Xiao-ci

Department of Engineering Mechanics, Shanghai Jiao-Tong University, Shanghai

Received:1981-07-01 Online:1983-07-18 Published:1983-07-18

摘要/Abstract

摘要： This paper may be the first attempt to solve the flow-field of homogeneous fluid between concentric cones (narrow gap) with equal angular velocities of rotation by using a boundary perturbation method, and the hydrodynamic stability of blood flow in the cone-type blood processor is verified, under conditions of the narrow gap between the cones and small axial Re numbers. This paper also verifies the hydrodynamic stability between concentric cylinders (narrow gap) with equal angular velocities of rotation by using a new mathematical technic.These theoretical analyses are in agreement with the experimental observations, which have been made by Shanghai Medical Instruments Institute.

关键词: unknown parameter, nonlinear input, uncertainty, non-autonomous chaotic gyroscope, finite-time control

Abstract: This paper may be the first attempt to solve the flow-field of homogeneous fluid between concentric cones (narrow gap) with equal angular velocities of rotation by using a boundary perturbation method, and the hydrodynamic stability of blood flow in the cone-type blood processor is verified, under conditions of the narrow gap between the cones and small axial Re numbers. This paper also verifies the hydrodynamic stability between concentric cylinders (narrow gap) with equal angular velocities of rotation by using a new mathematical technic.These theoretical analyses are in agreement with the experimental observations, which have been made by Shanghai Medical Instruments Institute.

Key words: nonlinear input, unknown parameter, uncertainty, finite-time control, non-autonomous chaotic gyroscope

朱月锐;张效慈. A BOUNDARY PERTURBATION SOLUTION FOR THE HYDRODYNAMIC STABILITY OF BLOOD FLOW IN A CONETYPE BLOOD PROCESSOR[J]. Applied Mathematics and Mechanics (English Edition), 1983, 4(4): 599-610.

Zhu Yueh-rui;Zhang Xiao-ci. A BOUNDARY PERTURBATION SOLUTION FOR THE HYDRODYNAMIC STABILITY OF BLOOD FLOW IN A CONETYPE BLOOD PROCESSOR[J]. Applied Mathematics and Mechanics (English Edition), 1983, 4(4): 599-610.

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A BOUNDARY PERTURBATION SOLUTION FOR THE HYDRODYNAMIC STABILITY OF BLOOD FLOW IN A CONETYPE BLOOD PROCESSOR

A BOUNDARY PERTURBATION SOLUTION FOR THE HYDRODYNAMIC STABILITY OF BLOOD FLOW IN A CONETYPE BLOOD PROCESSOR

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