| Ref.No: | 62424400 |
| Start date: | 06.03.2024 |
| End date: | 31.12.2026 |
| Approval date: | 28.02.2024 |
| Department: | MECHANICAL ENGINEERING |
| Sector: | FLUIDS |
| Financier: | CORINTIS |
| Budget: | 37.200,00 € |
| Public key: | 9ΡΨ646ΨΖΣ4-12Φ |
| Scientific Responsible: | Prof. GIANNAKOGLOU |
| Email: | kgianna@mail.ntua.gr |
| Description: | A COMPUTATIONAL FLUID DYNAMICS AND HEAT TRANSFER SOLVER WILL BE DEVELOPED IN THIS RESEARCH PROJECT, TO BE USED IN THE ANALYSIS AND OPTIMIZATION OF CPU MICRO HEAT EXCHANGERS. THE SOLVER WILL TAKE INTO CONSIDERATION THE THIRD, THIN DIRECTION USING A 2.5D MODEL. THEN, THE ADJOINT TO THIS SOLVER WILL BE DEVELOPED TO SUPPORT THE TOPOLOGY OPTIMIZATION OF THESE HEAT EXCHANGERS, WITH TARGETS RELATED TO TOTAL PRESSURE LOSSES AND THE MEAN/MAX TEMPERATURE IN THE HEAT EXCHANGER. TOPOLOGY OPTIMIZATION IS GOING TO BE CONDUCTED USING THE POROSITY-BASED AND THE CUT-CELL APPROACHES AND RESULTS FROM THE TWO WILL BE COMPARED WITH RESPECT TO THE SOLUTION ACCURACY, QUALITY AND COST OF OBTAINING THE OPTIMIZED SOLUTION |
