Intro to Modeling Heat Transfer with COMSOL Multiphysics®
时长: 45:43
Watch this archived webinar to learn how to simulate heat transfer in fluids using the COMSOL Multiphysics® software. We discuss methods that involve simple approximations, high-fidelity nonisothermal flow coupling, modeling heat transfer at fluid-solid interfaces, boundary approximations using heat transfer coefficients, techniques to fully resolve the flow and temperature fields, and more.
Want to learn more about modeling heat transfer in fluids? Contact COMSOL for a software evaluation.
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Introduction and Agenda (0:00)
Agenda (1:27)
COMSOL Multiphysics® (2:35)
The COMSOL® Product Suite (3:54)
Heat Transfer in Fluids (10:40)
Heat Transfer Coefficients (6:53)
Recommended Example: Turbine Stator (8:31)
Isothermal Domains (9:33)
Live Demonstration: Coffee Cooling (11:55)
Bulk Convection (19:56)
Convection: Fluid-Solid Interface (20:56)
Conjugate Heat Transfer (21:53)
Forced Convection (24:05)
Conjugate Heat Transfer: Fluid-Solid Interface (24:40)
Turbulent Flow (25:20)
Computational Cost for Turbulence Models (26:19)
Natural Convection (26:32)
Compressibility, Gravity and Nonisothermal Flow (27:24)
Which Natural Convection Method Should I Use? (28:07)
Live Demonstration: Coffee Cooling Extended (28:18)
Multiphysics Couplings (36:09)
Additional Heat Transfer in Fluids in COMSOL Multiphysics® (36:28)
Q&A (36:55)
Further Resources (43:10)
Contact Us (45:07)