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CHEE 330 Heat and Mass Transfer Units: 3.50
This course follows a unified approach to introduce the physical origins and rate equations of heat and mass transfer. The principal topics covered include identification of the driving forces for heat and mass diffusion, development of transport models from first principles, steady state and transient solutions, and convective transfer. The boundary layer analogies are introduced. Closed form analytical solutions and correlations derived from dimensional analysis are used to estimate the heat and mass transfer convection coefficients.
(Lec: 3, Lab: 0, Tut: 0.5)
(Lec: 3, Lab: 0, Tut: 0.5)
Requirements: Prerequisites: CHEE 210, CHEE 223, or permission of the department.
Corequisites:
Exclusions:
Offering Term: F
CEAB Units:
Mathematics 0
Natural Sciences 0
Complementary Studies 0
Engineering Science 42
Engineering Design 0
Offering Faculty: Smith Engineering
Course Learning Outcomes:
- Identify mechanisms of heat and mass transfer in order to formulate rate equations.
- Develop transport models based on the differential equations of heat and mass transfer and their simplified forms in order to identify suitable boundary conditions.
- Solve the differential equations for steady-state, one-dimensional problems and non-steady state problems.
- Estimate heat and mass transfer coefficients based on dimensional analysis, boundary layer analysis and similarity between momentum, heat and mass transfer.
- Solve problems involving convective heat and mass transfer in one phase and two-phase systems.