Affiliation:
1. ACS College of Engineering, India
2. Government College of Technology, Coimbatore, India
Abstract
This chapter describes the basic concepts of aerodynamics, evolution of lift and drag, types of drag, reduction of wing tip vortices, non-planar wing concepts for increased aerodynamic efficiency, various methods for determination of aerodynamic forces of an airplane, classification of wind tunnels, blower balance tunnels, and a case study report on aerodynamic force measurement of the non-planar wing systems. To increase the aerodynamic efficiency of the monoplane configuration, the ‘C-wing' configuration is presented in this chapter. The aim is to prove, at all angles of attack, C-wing produces a higher (L/D) ratio than straight wing for the same wetted surface area. The aerodynamic characteristics of three different wing models with NACA-64215 aerofoil such as straight wing, C-wing, and inverted C-wing at different angles of attack and low Reynolds number are shown. The inverted C-wing created more lift but produced more vibration, which may lead to lesser structural integrity.
Reference33 articles.
1. Comparison of Induced and Parasitic Drag on Wings with Minimum Induced Drag
2. WINGLET CANT AND SWEEP ANGLES EFFECT ON AIRCRAFT WING PERFORMANCE
3. Al Sidairi, K.A., & Rameshkumar, G.R. (2016). Design of Winglet Device for Aircraft. International Journal of Multidisciplinary Sciences and Engineering, 23–30.
4. Preliminary design process for an adaptive winglet;G.Amendola;International Journal of Mechanical Engineering and Robotics Research,2018
5. Simulate To Innovate;W.Analysis;Aerospace (Basel, Switzerland),2011