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! Title: **Basic Helicopter Aerodynamic, 3rd Edition** ! Year: 2015 Review This book has received widespread recognition because of its accessibility and rounded treatment of the fundamental principles of helicopter aerodynamics. Simon Newman improved this edition from previous versions by incorporating updated illustrations and adding new material related to drone rotor physics and ship operations. He expanded the coverage of blading dynamics to include flapping and ground resonance, providing valuable insight for engineers working with UAV technologies. Addressing rotor tips and blade flow patterns both approaching and leaving the airframe, he successfully integrated this topic with flight maneuvers such as hover, vertical takeoff, forward motion, and apogee recovery. Basic Helicopter Aerodynamics continues to be recognized as an excellent primer in helicopter engineering, addressed to both graduate and undergraduate students working in aeronautic fields. Table of Contents Chapter 1: Introduction to the Rotorcraft * Chapter 2: Single Main Rotor System Properties and Concepts * Chapter 3: Hover Performance and Off-State Flight Dynamics * Chapter 4: Rolling Flight: Forward Motions * Chapter 5: Pitching and Recovery Dynamics * Chapter 6: Helicopter Airflow Conditions and Effects * Chapter 7: Helicopter Stability and Control * Chapter 8: Fields and Applications in Helicopter Design Chapter 9: Small Unmanned & Autonomous * Helicopter Operations Chapter 10: Attitude Control Chapter 11: Low-Speed Aerodynamic * Design of Helicopters Chapter 12: Specific Airfoil, Vortex Fringe, and Winglet Section Design for Helicopters * Appendix A: Matlab Codes *Appendix B: PowerPoint Presentations Appendix C: Calculation Files Illustrations
Basic Helicopter Aerodynamics by Simon Newman, is an extremely broadly digested, rounded insight into the fundamental points of the aerodynamic science of helicopter cruise. In this third variation of this book, the author installed a fully new group of illustrations and figures. Moreover, there's an inbound website, which contains the entirety of the equations files utilized within the book - issues, solutions, Microsoft PowerPoint slides, and supplementary MATLAB program code. The book handles the special things an issue of helicopters (UAVs) and multicopters (MAVs) deal with, and expands dynamic developments to incorporate flapping, pumping, and ground vibrance. New stuff is offered with regards to blade tip mechanical plan, stream properties surrounding the skewer in advance movement, after rotors, navy-outage, blade sail and sea activities. It generally centers around the broadly popular Sikorsky arrangement of solitary top spouse with tail skewer, the earliest chapters speak about the aerokinetic work of the skewer being calm, linear motion, direct cruise, and climb. Anaylsis of these movements are branched out to the region of securing the initial outcomes for drag, energy and affiliated elements. Coming chapters zero in on the general qualities of the helicopter, its success, stability and manoeuvring, and critical of aerodinamic research, with some finder bibliographic case to aerotechnical constructing techniques too. This unifying impact on the aerokinetics of helicopter freight will fascinate builders of aircraft machines and understudies within the engineering sector, in addition to functioning engineers searching for an authorities entrance or join program concerning the topic.
Электронная Книга «Basic Helicopter Aerodynamics» написана автором Newman Simon в году.
Минимальный возраст читателя: 0
Язык: Английский
ISBN: 9781119994107
Описание книги от Newman Simon
Basic Helicopter Aerodynamics is widely appreciated as an easily accessible, rounded introduction to the first principles of the aerodynamics of helicopter flight. Simon Newman has brought this third edition completely up to date with a full new set of illustrations and imagery. An accompanying website www.wiley.com/go/seddon contains all the calculation files used in the book, problems, solutions, PPT slides and supporting MATLAB® code. Simon Newman addresses the unique considerations applicable to rotor UAVs and MAVs, and coverage of blade dynamics is expanded to include both flapping, lagging and ground resonance. New material is included on blade tip design, flow characteristics surrounding the rotor in forward flight, tail rotors, brown-out, blade sailing and shipborne operations. Concentrating on the well-known Sikorsky configuration of single main rotor with tail rotor, early chapters deal with the aerodynamics of the rotor in hover, vertical flight, forward flight and climb. Analysis of these motions is developed to the stage of obtaining the principal results for thrust, power and associated quantities. Later chapters turn to the characteristics of the overall helicopter, its performance, stability and control, and the important field of aerodynamic research is discussed, with some reference also to aerodynamic design practice. This introductory level treatment to the aerodynamics of helicopter flight will appeal to aircraft design engineers and undergraduate and graduate students in aircraft design, as well as practising engineers looking for an introduction to or refresher course on the subject.