CH62035: Transport Processes In Physiological Systems
| CH62035 | |||||||||||||||||||||
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| Course name | Transport Processes In Physiological Systems | ||||||||||||||||||||
| Offered by | Chemical Engineering | ||||||||||||||||||||
| Credits | 4 | ||||||||||||||||||||
| L-T-P | 3-1-0 | ||||||||||||||||||||
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| Semester | Spring | ||||||||||||||||||||
Syllabus
Syllabus mentioned in ERP
Prerequisite-CH30012 or equivalentDefinition of transport processes and relative roles of convection, diffusion and chemical reaction; review of mathematical and engineering tools.Physical and flow properties of body fluids; Rheology of blood; Complex physiological flows-Blood flow in capillaries and porous tissues; Arterial Fluid Dynamics Diffusion-limited binding between in cells; Mass Transfer across Biological Membranes; Transport in Kidneys, Active and Facilitated Transport, Ion channels. Mass Transport in Porous Tissues; Transport of Gases between Blood and Tissues-Oxygen-Hemoglobin Binding Kinetics and Equilibria, Oxygen Transport in Lung Capillaries and to Tissues, Nitric Oxide Production and Transport in Tissues, Transport of CO and CO2 in the lungsPharmacokinetic Analysis: One- and Two-Compartment Models, Drug Transport in Solid Tumors.Text Book:1.Basic transport Phenomena in Biomedical Engineering by R. L.Fournier.2.Transport Phenomena in Biological Systems by G. A. Truskey, F. Yuan and D. F. Katz3.Transport Phenomena in Living Systems by E. N. Lightfoot.Reference Book:1.Biomedical Engineering Principles: An Introduction to Fluid, Heat and Mass Transport processes by D. O. Cooney2.Transport Phenomena in Medicine and Biology by M. M. Lih.