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Course Information
Course Name
Turkish
Taşınım Olayları I
English
Transport Phenomena I
Course Code
KMM 501E
Credit
Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester

3
3


Course Language
English
Course Coordinator
Hüsnü Atakül
Şerife Birgül Ersolmaz
Course Objectives
The students will learn:
1. how to formulate conservation statements in momentum and heat multiscales from microscopic to macroscopic in both steady and unsteady modes.
2. to determine velocity and pressure profiles in laminar steady and unsteady –state flow systems, steady and unsteadystate temperature in isotropic solids and flow
3. how to solve analytic linear partial differential equations including separation of variables and similarity solutions.
4. how to formulate simultaneous momentum and heat transfer
Course Description
Introduction. Shell Momentum Balance and Velocity Distributions in Laminar Flow. The Equations of Change for Isothermal Systems. Velocity &Temperatures Distributions with More Than One Independent Variables. Interphase Transport in Isothermal Systems. Macroscopic Balances for Isothermal Flow Systems. Shell Energy Balances and Temperature Distributions in Solids and Laminar Flow. The Equations of Change for Nonisothermal Systems. Macroscopic Balances for Nonisothermal Systems.
Course Outcomes
Upon completion of this course, a student should be able to :
1. perform shell balances for momentum, heat and mass and obtain the differential equation describing the velocity, pressure and temperature gradient in laminar flow.
2. apply principles of momentum and energy conservation and force balance to derive differential equations for treedimensional steady and unsteadystate systems for different geometries
3. simplify the Equations of continuity and change for rectangular, cylindrical and spherical coordinates to the terms applicable for a specific case/condition.
4. analyze advanced transport problems in momentum and heat, both microscopic and macroscopic
5. formulate simultaneous momentum and energy balances in chemical processes.
6. solve simple linear partial differential equations arising in transport problems.
Prerequisite(s)
Required Facilities
Other
Textbook
Transport Phenomena, B. R. Bird, W. E. Stewart and E. N. Lightfoot 2nd Edition, John Wiley, NY, 2002.
Other References
 Advanced Engineering Mathematics, E. Kreyszig, 8th Edition, John Wiley & Sons, Inc., NY, 1999.
 Analysis of Transport Phenomena, W. M. Deen, Oxford, NY, 1998.
 Mathematical Methods in Chemical Engineering, V.G. Jenson and G.V. Jeffreys, 2nd Ed., Academic Press, NY, 1977.
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