Abstract
A numerical study of the effects of airfoil shape on low Reynolds number aerodynamics is presented. The large-eddy simulations are performed with 6 th-order compact finite difference scheme and 10th-order low pass filter, and 2nd-order backward implicit time integration with inner iterations. Systematic numerical excesses show the feasibility of the current simulations to predict flow fields around fixed-wing configurations involving a laminar separation and laminar-to-turbulence transition at low Reynolds number. At the Reynolds number of 2.3×104, two types of thin and asymmetric airfoils as a target airfoil shape of micro-size air vehicle are considered. The results show that the airfoil cross section affects the formation of a laminar separation bubble and the transition to turbulence in the three-dimensional flow around the wings at low angle of attack and hence significant influence on the aerodynamic performance.
| Original language | English |
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| Title of host publication | Proceedings of the 8th International Conference on Engineering Computational Technology, ECT 2012 |
| Publisher | Civil-Comp Press |
| Volume | 100 |
| ISBN (Print) | 9781905088553 |
| Publication status | Published - 2012 |
| Event | 8th International Conference on Engineering Computational Technology, ECT 2012 - Dubrovnik, Croatia Duration: 2012 Sept 4 → 2012 Sept 7 |
Conference
| Conference | 8th International Conference on Engineering Computational Technology, ECT 2012 |
|---|---|
| Country/Territory | Croatia |
| City | Dubrovnik |
| Period | 12/9/4 → 12/9/7 |
Keywords
- Implicit large-eddy simulation
- Laminar separation bubble
- Low reynolds number flow
- Transition