Blade Element Rotor Theory
This book presents an extension of the conventional blade element rotor theory to describe the dynamic properties of helicopter rotors. The presented theory focuses on the accurate mathematical determination of the forces and moments by which a rotor affects its rotorcraft at specified flight conditions and control positions. Analyzing the impact of a blade's non-uniform properties, the book covers blade twisting, the non-rectangular planform shape of a blade, and inhomogeneous airfoil along the blade. It discusses inhomogeneous induced airflow around a rotor disc in terms of the blade element rotor theory. This book also considers the impact of flapping hinge offset on the rotor's dynamic properties.
Features
Focuses on a comprehensive description and accurate determination of the rotor's aerodynamic properties
Presents precise helicopter rotor properties with inhomogeneous aerodynamic properties of rotor blades
Considers inhomogeneous distribution of induced flow
Discusses a mathematical model of a main helicopter rotor for a helicopter flight simulator
This book is intended for graduate students and researchers studying rotor dynamics and helicopter flight dynamics
1. Introduction.
2. General Statements.
3. Blade Element Properties.
4. Characteristic Measures of Non-Uniform Parameters.
5. Analysis of Blade Rotations.
6. Force on the Flapping Hinge.
7. Total Rotor Force.
8. Rotor Moment on the Hub.
9. Conclusions.
Pylyp Volodin worked for the company MARKET-MATS ltd. (Lviv, Ukraine) as a software engineer. The company develops, manufactures, and maintenances flight simulators of aircraft and helicopters. Mr. Volodin handled the development and validation of flight dynamics software. The flight dynamics software was developed for simulators of aircraft L-39 (Albatros) and helicopter Mi-24. His work is centered around motion dynamics and aerodynamics.
Rohkem infot Taylor & Francis e-raamatute kohta