Carlos Lange, PhD, PEng
Contact
Associate Professor, Faculty of Engineering - Mechanical Engineering Dept
- clange@ualberta.ca
- Phone
- (780) 492-6714
- Address
-
10-277 Donadeo Innovation Centre For Engineering
9211 116 StEdmonton ABT6G 2H5
Overview
Area of Study / Keywords
Website: https://sites.ualberta.ca/~clange/ Biomechanics And Biomedical Engineering Fluid Mechanics Computational Fluid Dynamics Biomedical Aerosols Planetary Atmospheres Non-Newtonian Fluids Enhanced Oil Recovery Net-Zero Energy Housing
About
Education:
- Ph.D. (Friedrich-Alexander University Erlangen-Nuremberg, Germany, 1997)
- M.Sc. (Federal Univ. of Rio Grande do Sul, Brazil, 1992)
- B.Sc. (Federal Univ. of Rio Grande do Sul, Brazil, 1988)
Courses
MEC E 331 - Fluid Mechanics I
External flow, boundary layers, momentum theories, similitude, fluid metering, fluid friction, fluid friction in pipes, pipe networks. Prerequisites: MEC E 230, MEC E 250, MATH 209. Corequisite: MEC E 240 or CH E 243. Credit can only be granted for one of MEC E 330 or MEC E 331.
MEC E 371B - Heat Transfer
Mechanisms of heat transfer, steady and unsteady heat conduction, numerical analysis, thermal radiation, free and forced convection, heat exchanger analysis and heat transfer with change of phase and mass transfer. Prerequisites: MEC E 230, CH E 243. Corequisites: MATH 300 and MEC E 331. Credit can only be granted for one of MEC E 370 or MEC E 371.
MEC E 463 - Thermo-Fluids Systems Design
Design and optimization of thermo-fluid systems, heating and ventilating equipment and load calculations, system design, piping networks, heat exchanger analysis and design, computer-aided design projects. Prerequisites: MEC E 330 or 331, 340, and 370 or 371.
MEC E 539B - Applied Computational Fluid Dynamics
Model selection and simplification, grid generation and grid independence, transient and advection terms treatment, turbulence modeling, verification and validation, best practices. Hands-on experience with commercial CFD codes to demonstrate the application of: theory, proper setup and analysis. Prerequisites: MEC E 390, and 331 or equivalent.
MEC E 639 - Computational Fluid Dynamics
Computational fluid dynamics methods for incompressible and compressible fluids. Model development, discretization methods, and topics on advanced coding, e.g., high performance computing, and parallelism, will be covered.