'lbere is much discussion today concerning "Bioengineering" (or "Biomedical Engineering"). It is not exactly clear what these names signify, particularly in chemical engineering. Some have suggested retreading the old war horse "Biochemical Engineering" (or was it "Biomedical Chemical Engineering). In an effort to demonstrate the on-going activities of chemical engineers in the life science area, we accepted the invitation of the Industrial and Engineering Division of the American Chemical Society to organize the 33rd Annual Chemical Engineering Symposium. We decided to call the symposium, Chemical Engineering in Medicine and Biology, and hence avoided the problem of having to decide which "bio" prefix to use. Many chemical engineers in the academic and industrial world were contacted. From these contacts and a good deal of publicity arose the Symposium. The two-day meeting was held at the University of Cincinnati in the Losantiville Room of the Student Union Building on October 20-21, 1966. Twenty-one papers were presented on topics relating chemical engineering to medicine and biology. Tile papers were representation al of the scope of the activities across the country with presenters coming from Washington, California, Massachusetts, New York, South Carolina, Wisconsin, Iowa, Pennsylvania, Michigan, Indiana and Texas. TOpics ranged over blood flow properties, diffusion in blood phenomena, ix INTRODUCTION X mass transfer in the eye, artificial kidney analysis, separation of bacteria by ion exchange, mathematical modeling of drug distribution, carbon dioxide respiration, photosynthetic kinetics, water in frozen tissues, electrophoretic separation of proteins, and outerspace re search on life support systems.
Digital Computer Simulation of Arterial Blood Flow.- Flow Properties of Blood Under Low Shear Rate.- Hemodynamic Model for Determination of Asymmetric Flow.- Conditions for Countergradient Diffusion of Oxygen Through a Hemoglobin Barrier.- Oxygen Diffusion Coefficients for Blood Flowing Down a Wetted-Wall Column.- A Mathematical Simulation of Oxygen Release, Diffusion, and Consumption in the Capillaries and Tissue of the Human Brain.- Evaluating Mass Transfer Coefficients for Glucose into the Rabbit Eye.- Mass Transfer in Hemodialyzer.- Engineering Aspects of Artificial Kidney Systems.- The Suitability of Fixed-Bed Sorbers as Artificial Kidneys.- A Technique for Producing an Artificial Biological Membrane Suitable for Diffusion Studies.- The Separation of Bacteria by Adsorption onto Ion Exchange Resins: II. Resolution of Binary Mixtures.- Applications of a Mathematical Model for Drug Distribution In Mammals.- A Study of Respiratory Gas Transport in Pulmonary Capillaries.- The Kinetics of a Photosynthetic Gas Exchanger with Laminar Flow During Low Intensity Illumination.- Water in Frozen Tissue.- Stable-Flow Free-Boundary (Staflo) Electrophoresis: Three Dimensional Fluid Flow Properties and Applications to Lipoprotein Studies.- Microbiological Life Support Systems: Photosynthesis Versus Chemosynthesis.- The Role of Chemical Processes in Advanced Life Support System Development.- The Feasibility of Cryogenic Freeze-Out for Control of Atmospheric Trace Contaminants in Manned Spacecraft.- Author Index.
'lbere is much discussion today concerning "Bioengineering" (or "Biomedical Engineering"). It is not exactly clear what these names signify, particularly in chemical engineering. Some have suggested retreading the old war horse "Biochemical Engineering" (or was it "Biomedical Chemical Engineering). In an effort to demonstrate the on-going activities of chemical engineers in the life science area, we accepted the invitation of the Industrial and Engineering Division of the American Chemical Society to organize the 33rd Annual Chemical Engineering Symposium. We decided to call the symposium, Chemical Engineering in Medicine and Biology, and hence avoided the problem of having to decide which "bio" prefix to use. Many chemical engineers in the academic and industrial world were contacted. From these contacts and a good deal of publicity arose the Symposium. The two-day meeting was held at the University of Cincinnati in the Losantiville Room of the Student Union Building on October 20-21, 1966. Twenty-one papers were presented on topics relating chemical engineering to medicine and biology. Tile papers were representation al of the scope of the activities across the country with presenters coming from Washington, California, Massachusetts, New York, South Carolina, Wisconsin, Iowa, Pennsylvania, Michigan, Indiana and Texas. TOpics ranged over blood flow properties, diffusion in blood phenomena, ix INTRODUCTION X mass transfer in the eye, artificial kidney analysis, separation of bacteria by ion exchange, mathematical modeling of drug distribution, carbon dioxide respiration, photosynthetic kinetics, water in frozen tissues, electrophoretic separation of proteins, and outerspace re search on life support systems.
Inhaltsverzeichnis
Digital Computer Simulation of Arterial Blood Flow.- Flow Properties of Blood Under Low Shear Rate.- Hemodynamic Model for Determination of Asymmetric Flow.- Conditions for Countergradient Diffusion of Oxygen Through a Hemoglobin Barrier.- Oxygen Diffusion Coefficients for Blood Flowing Down a Wetted-Wall Column.- A Mathematical Simulation of Oxygen Release, Diffusion, and Consumption in the Capillaries and Tissue of the Human Brain.- Evaluating Mass Transfer Coefficients for Glucose into the Rabbit Eye.- Mass Transfer in Hemodialyzer.- Engineering Aspects of Artificial Kidney Systems.- The Suitability of Fixed-Bed Sorbers as Artificial Kidneys.- A Technique for Producing an Artificial Biological Membrane Suitable for Diffusion Studies.- The Separation of Bacteria by Adsorption onto Ion Exchange Resins: II. Resolution of Binary Mixtures.- Applications of a Mathematical Model for Drug Distribution In Mammals.- A Study of Respiratory Gas Transport in Pulmonary Capillaries.- The Kinetics of a Photosynthetic Gas Exchanger with Laminar Flow During Low Intensity Illumination.- Water in Frozen Tissue.- Stable-Flow Free-Boundary (Staflo) Electrophoresis: Three Dimensional Fluid Flow Properties and Applications to Lipoprotein Studies.- Microbiological Life Support Systems: Photosynthesis Versus Chemosynthesis.- The Role of Chemical Processes in Advanced Life Support System Development.- The Feasibility of Cryogenic Freeze-Out for Control of Atmospheric Trace Contaminants in Manned Spacecraft.- Author Index.
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