Aircrat Design - Ajoy Kumar Kundu.pdf - Konstruowanie - Projektowanie - damiano031

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AIRCRAFT DESIGN

Aircraft Design explores the conceptual phase of a ﬁxed-wing aircraft

design project. Designing an aircraft is a complex, multifaceted process

that embraces many technical challenges in a multidisciplinary envi-

ronment. By deﬁnition, the topic requires intelligent use of aerody-

namic knowledge to conﬁgure aircraft geometry suited speciﬁcally to

a customer’s demands. It involves conﬁguring aircraft shape, estimat-

ing its weight and drag, and computing the available thrust from the

matched engine. The methodology includes formal sizing of the air-

craft, engine matching, and substantiating performance to comply with

a customer’s demands and government regulatory standards. Associ-

ated topics include safety issues; environmental issues; material choice;

structural layout; and understanding the ﬂight deck, avionics, and sys-

tems (for both civil and military aircraft). Cost estimation and manu-

facturing considerations also are discussed. The chapters are arranged

to optimize understanding of industrial approaches to aircraft-design

methodology. Example exercises based on the author’s industrial

experience with typical aircraft design are included. Additional sec-

tions speciﬁc to military aircraft highlighted with an asterisk are avail-

able on the Web at www.cambridge.org/Kundu

Ajoy Kumar Kundu was educated in India (Jadavpur University),

the United Kingdom (Cranﬁeld University and Queen’s University

Belfast), and the United States (University of Michigan and Stanford

University). His experience spans nearly thirty years in the aircraft

industry and ﬁfteen years in academia. In India, he was Professor at

the Indian Institute of Technology, Kharagpur; and Chief Aircraft

Designer at Hindustan Aeronautics Ltd., Bangalore. In North Amer-

ica, he was Research Engineer for the Boeing Aircraft Company,

Renton, and Intermediate Engineer for Canadair Ltd., Montreal. He

began his aeronautical career in the United Kingdom with Short

Brothers and Harland Ltd., retiring from Bombardier Aerospace-

Shorts, Belfast, as Chief Assistant Aerodynamicist. He is currently

associated with Queen’s University Belfast. He held British, Indian,

and Canadian private pilot licenses. He is a Fellow of the Royal

Aeronautical Society and the Institute of Mechanical Engineers and

an Associate Fellow of the American Institute of Aeronautics and

Astronautics.

Cambridge Aerospace Series

Editors Wei Shyy and Michael J. Rycroft

1. J. M. Rolfe and K. J. Staples (eds.): Flight Simulation

2. P. Berlin: The Geostationary Applications Satellite

3. M. J. T. Smith: Aircraft Noise

4. N. X. Vinh: Flight Mechanics of High-Performance Aircraft

5. W. A. Mair and D. L. Birdsall: Aircraft Performance

6. M. J. Abzug and E. E. Larrabee: Airplane Stability and Control

7. M. J. Sidi: Spacecraft Dynamics and Control

8. J. D. Anderson: A History of Aerodynamics

9. A. M. Cruise, J. A. Bowles, C. V. Goodall, and T. J. Patrick: Principles of Space Instru-

ment Design

10. G. A. Khoury and J. D. Gillett (eds.): Airship Technology

11. J. Fielding: Introduction to Aircraft Design

12. J. G. Leishman: Principles of Helicopter Aerodynamics, 2nd Edition

13. J. Katz and A. Plotkin: Low Speed Aerodynamics, 2nd Edition

14. M. J. Abzug and E. E. Larrabee: Airplane Stability and Control: A History of the Tech-

nologies that Made Aviation Possible, 2nd Edition

15. D. H. Hodges and G. A. Pierce: Introduction to Structural Dynamics and Aeroelasticity

16. W. Fehse: Automatic Rendezvous and Docking of Spacecraft

17. R. D. Flack: Fundamentals of Jet Propulsion with Applications

18. E. A. Baskharone: Principles of Turbomachinery in Air-Breathing Engines

19. D. D. Knight: Numerical Methods for High-Speed Flows

20. C. Wagner, T. Huttl, and P. Sagaut: Large-Eddy Simulation for Acoustics

21. D. Joseph, T. Funada, and J. Wang: Potential Flows of Viscous and Viscoelastic Fluids

22. W. Shyy, Y. Lian, H. Liu, J. Tang, and D. Viieru: Aerodynamics of Low Reynolds Num-

ber Flyers

23. J. H. Saleh: Analyses for Durability and System Design Lifetime

24. B. K. Donaldson: Analysis of Aircraft Structures , Second Edition

25. C. Segal: The Scramjet Engine: Processes and Characteristics

26. J. Doyle: Guided Explorations of the Mechanics of Solids and Structures

27. A. Kundu: Aircraft Design

28. M. Friswell, J. Penny, S. Garvey, and A. Lees: Fundamentals of Rotor Dynamics

29. B. Conway (ed): Spacecraft Trajectory Optimization

Aircraft Design

Ajoy Kumar Kundu

Queen’s University Belfast

Aircrat Design - Ajoy Kumar Kundu.pdf

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