Dmitrij Usov

Engineering

1. Rotors 100%
2. Free Vortex 74%
3. Propeller 67%
4. Rotorcraft 50%
5. Rotor System 45%
6. Aerodynamic Interference 45%
7. Conventional Propeller 45%
8. Aerodynamic Model 40%
9. Power Budget 33%
10. Induced Velocity 33%
11. Propeller Geometry 33%
12. Propulsive Efficiency 33%
13. Thrust Power 33%
14. Marginals 33%
15. Static Thrust 33%
16. Computer Simulation 33%
17. Vortex 33%
18. Power Ratio 18%
19. Lifting Line 16%
20. Airframe 16%
21. Computational Fluid Dynamics 16%
22. Loading Condition 16%
23. Scale Variation 16%
24. Blade Model 16%
25. Combined Method 16%
26. Propeller Thrust 16%
27. Genetic Algorithm 13%
28. Particle Swarm Optimization 13%
29. Performance Parameter 11%
30. Size Parameter 11%
31. Computational Time 11%
32. Separation Distance 11%
33. Discretization 11%
34. Velocity Field 11%
35. Systems Performance 11%
36. Blade Span 11%
37. Propulsion System 9%
38. Takeoff Weight 7%
39. Operating Point 6%
40. Two Dimensional 6%
41. Rotor Position 6%
42. Optimisation Problem 6%
43. Execution Time 6%
44. Objective Function 6%
45. Aerodynamic Performance 5%
46. Main Conclusion 5%
47. Power Requirement 5%
48. System Component 5%
49. Potential Failure 5%
50. Failure Event 5%