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.
Section | Capacity | Class times | Instructor(s) |
---|---|---|---|
LECTURE B1
(12336) |
50 |
2024-01-08 - 2024-04-12 (TR)
11:00 - 12:20
ECERF W2-010
|
Primary Instructor: Arman Hemmati
|
Section | Capacity | Class times | Instructor(s) |
---|---|---|---|
LAB H21
(12364) |
50 |
2024-01-08 - 2024-04-12 (T)
14:00 - 16:50
ETLC E2-005
|
Primary Instructor: Arman Hemmati
|
Section | Capacity | Class times | Instructor(s) |
---|---|---|---|
LECTURE A1
(46798) |
75 |
2024-09-03 - 2024-12-09 (TR)
11:00 - 12:20
ETLC E2-001
|
|
Section | Capacity | Class times | Instructor(s) |
---|---|---|---|
LAB D21
(46799) |
75 |
2024-09-03 - 2024-12-09 (T)
14:00 - 16:50
ETLC E2-005
|
|
Section | Capacity | Class times | Instructor(s) |
---|---|---|---|
LECTURE B1
(72034) |
70 |
2025-01-06 - 2025-04-09 (TR)
11:00 - 12:20
SAB 4-36
|
|
Section | Capacity | Class times | Instructor(s) |
---|---|---|---|
LAB H21
(72062) |
70 |
2025-01-06 - 2025-04-09 (T)
14:00 - 16:50
ETLC E2-005
|
|