NOC:Transport Phenomena in Biological Systems (USB)

Media Storage Type : 32 GB USB Stick

NPTEL Subject Matter Expert : Prof. G.K. Suraishkumar

NPTEL Co-ordinating Institute : IIT Madras

NPTEL Lecture Count : 81

NPTEL Course Size : 11 GB

NPTEL PDF Text Transcription : Available and Included

NPTEL Subtitle Transcription : Available and Included (SRT)

Lecture Titles:

Lecture 1 - Introduction
Lecture 2 - Mass Conservation
Lecture 3 - Mass Conservation for a Macroscopic System
Lecture 4 - Mass Conservation for a Microscopic System
Lecture 5 - Useful Derivatives
Lecture 6 - Equation of Continuity
Lecture 7 - Mass Flux
Lecture 8 - Mass and Molar Fluxes
Lecture 9 - Shell Balance Approach
Lecture 10 - Continuity Equation Approach
Lecture 11 - Steady-state Diffusion
Lecture 12 - Steady-state Diffusion across Tubular Walls
Lecture 13 - Steady-state Radial Diffusion
Lecture 14 - Steady-state Diffusion with Reaction
Lecture 15 - Unsteady-state Diffusion
Lecture 16 - Unsteady-state Diffusion (Continued...)
Lecture 17 - Pseudo Steady State Approximation (Continued...)
Lecture 18 - Pseudo Steady State Approximation (Continued...)
Lecture 19 - Review of Mass Flux
Lecture 20 - Momentum Flux - Introduction
Lecture 21 - Rheology
Lecture 22 - Fluid Flow types
Lecture 23 - Shell Momentum Balances
Lecture 24 - Shell Momentum Balances (Continued...)
Lecture 25 - Equation of Motion
Lecture 26 - Equation of Motion (Continued...)
Lecture 27 - Application of Equation of Motion to Flow Over an Inclined Plane
Lecture 28 - Laminar Flow through a Pipe
Lecture 29 - Laminar Flow through a Pipe (Continued...)
Lecture 30 - Capillary Flow
Lecture 31 - Couette Flow
Lecture 32 - Non-dimensional Analysis
Lecture 33 - Unsteady State Flow
Lecture 34 - Unsteady State Flow (Continued...)
Lecture 35 - Pulsatile Flow
Lecture 36 - Turbulent Flow
Lecture 37 - Macroscopic Aspects: The Engineering Bernoulli Equation
Lecture 38 - Friction Factor for Flow through a Straight Horizontal Pipe
Lecture 39 - Application of the Engineering Bernoulli Equation to a Piping Network
Lecture 40 - Stenosis in an Artery
Lecture 41 - Friction Factor for Relative Motion between a Solid and a Liquid
Lecture 42 - Friction Factor for Packed Beds
Lecture 43 - Review of Momentum Flux
Lecture 44 - Review of Momentum Flux (Continued...)
Lecture 45 - Thermal Energy Flux
Lecture 46 - Equation of Energy
Lecture 47 - Temperature Profile in a Tissue
Lecture 48 - Unsteady-state Heat Conduction
Lecture 49 - Review of Heat Flux
Lecture 50 - Charge Flux
Lecture 51 - Charge Flux - Some Fundamentals
Lecture 52 - Charge Flux - Some More Fundamentals
Lecture 53 - Getting Useful Relationships through Maxwell's Equations
Lecture 54 - Charges/Ions in Solution
Lecture 55 - Charge Flux: Review
Lecture 56 - Fluxes Under Simultaneous, Multiple Driving Forces
Lecture 57 - Simultaneous Concentration Gradient and Electrical Potential Gradient
Lecture 58 - Mobility of Ions Across a Membrane
Lecture 59 - Electrical Circuit Representation of a Membrane
Lecture 60 - Action Potential and Axial Current
Lecture 61 - Electrophoresis
Lecture 62 - Simultaneous Concentration Gradient and Velocity Gradient
Lecture 63 - Simultaneous Concentration Gradient and Velocity Gradient - Bioreactor Kla
Lecture 64 - Gas-Liquid Interphase Transport
Lecture 65 - Gas-Liquid Interphase Transport (Continued...)
Lecture 66 - Bioreactor Kla Estimation
Lecture 67 - Liquid Phase Oxygen-Supply Strategy
Lecture 68 - LPOS and Its Mechanism
Lecture 69 - LPOS for Mold Cultivations
Lecture 70 - LPOS Optimization and Costs
Lecture 71 - Couette Flow Cultivations
Lecture 72 - Pseudo-Steady State Approximation Applied to Bio-oil Production
Lecture 73 - Pseudo-Steady State Approximation Applied to Cancer Treatment
Lecture 74 - Kinetics of a Process with an Enzyme Immobilized on a Non-porous Slab
Lecture 75 - Simultaneous Temperature Gradient and Velocity Gradient
Lecture 76 - Design of Heat Exchangers
Lecture 77 - Design of Heat Exchangers (Continued...)
Lecture 78 - Course Review - Part 1
Lecture 79 - Course Review - Part 2
Lecture 80 - Course Review - Part 3
Lecture 81 - Course Review - Part 4