Mechanical & Aerospace Engineering Books 2017
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Textbook
Dynamics Theory and Application of Kane’s Method
Carlos M. Roithmayr NASA-Langley Research Center, Virginia
Dewey H. Hodges Georgia Institute of Technology
This is a textbook for advanced students in engineering or physics, as well as a reference for professionals interested in deriving equations that govern the motions of mechanical systems. It presents Kane’s method, which is suited for dealing with multibody systems, and also analyzes the dynamics of complex spacecraft and robotic devices. ‘Dynamics: Theory and Application of Kane’s Method is a timely update of the now classical book by Kane and Levinson by two authors, collectively with many decades of experience stretching across academia and government laboratories. While providing coverage of a broader class of problems and of recent advances in the field, the rigor and clarity of the original text is retained. This new book will be welcomed by many working on dynamics and control of complex mechanical and aerospace multibody systems.’ Olivier A. Bauchau, Journal of Computational and Nonlinear Dynamics
Contents: 1. Differentiation of vectors; 2. Kinematics; 3. Constraints; 4. Mass distribution; 5. Generalized forces; 6. Constraint forces, constraint torques; 7. Energy functions; 8. Formulation of equations of motion; 9. Extraction of information from equations of motion; 10. Kinematics of orientation; Problem sets; Appendix I. Direction cosines as functions of orientation angles; Appendix II. Kinematical differential equations in terms of orientation angles; Appendix III. Inertia properties of uniform bodies; Index. 2016 253 x 177 mm 536pp 217 b/w illus. 34 tables 253 exercises 978-1-107-00569-3 Hardback £89.99 / US$135.00 For all formats available, see
www.cambridge.org/9781107005693
Continuum Mechanics and Thermodynamics of Matter S. Paolucci University of Notre Dame, Indiana
Aimed at advanced undergraduate and graduate students, this book provides a clear unifying approach to teaching continuum mechanics. It provides a wellgrounded mathematical structure and gives the reader a glimpse of how such material can be extended in a variety of directions, with special emphasis on thermodynamics. 2016 247 x 174 mm 520pp 53 b/w illus. 20 tables 250 exercises 978-1-107-08995-2 Hardback £110.00 / US$175.00 For all formats available, see
www.cambridge.org/9781107089952
The Gas Dynamics of Explosions John H. S. Lee McGill University, Montréal
The gas dynamics of explosions is a subject that continues to interest researchers from many fields of physics and engineering. Lee’s book describes the various analytical methods developed to determine non-steady shock propagation associated with explosions in a style accessible to graduate students and researchers in the subject. 2016 247 x 174 mm 216pp 55 b/w illus. 5 tables 978-1-107-10630-7 Hardback £89.99 / US$140.00 For all formats available, see
www.cambridge.org/9781107106307
Coarse Grained Simulation and Turbulent Mixing
Textbook
Modeling and Approximation in Heat Transfer
Edited by Fernando F. Grinstein Los Alamos National Laboratory
Leon R. Glicksman Massachusetts Institute of Technology
John H. Lienhard V Massachusetts Institute of Technology
This book describes the approach to engineering solutions through simplified modeling of important physical features and approximating their behavior. Students will have greater facility in breaking down complex engineering systems into simplified thermal models that allow essential features of their performance to be assessed and modified. Contents: 1. Introduction to modeling real world problems; 2. Steady state conduction heat transfer; 3. Transient conduction modeling; 4. Modeling convection; 5. Heat exchangers; 6. Radiation heat transfer. 2016 253 x 177 mm 240pp 122 b/w illus. 10 tables 66 exercises 978-1-107-01217-2 Hardback £74.99 / US$125.00
2016 247 x 174 mm 450pp 230 b/w illus. 32 colour illus. 20 tables 978-1-107-13704-2 Hardback £120.00 / US$190.00 For all formats available, see
www.cambridge.org/9781107137042
Hydrodynamic Control of Wave Energy Devices Umesh A. Korde South Dakota School of Mines and Technology
For all formats available, see
John V. Ringwood
www.cambridge.org/9781107012172
National University of Ireland, Maynooth
Fatigue Design of Marine Structures Inge Lotsberg Det Norske Veritas-Germanischer Lloyd, Norway
Fatigue Design of Marine Structures provides students and designers with a theoretical and practical background for fatigue design of marine structures including sailing ships, offshore structures for oil and gas production, and other welded structures subject to dynamic loading such as wind turbine structures. 2016 253 x 177 mm 504pp 308 b/w illus. 56 tables 47 exercises 978-1-107-12133-1 Hardback £74.99 / US$135.00
The mixing of materials by the small scales of turbulent motion is a critical element of many applications in engineering, geophysics and astrophysics. This book reviews our understanding of coarse grained simulation of turbulent mixing and will be of interest to graduate students and researchers in computational fluid dynamics and turbulence.
The appropriate design of wave energy device technology is crucial in the effort to make wave energy economic. This book shows how control techniques can be best applied to maximise converted power, while also considering the interplay with other design features, such as device geometry optimisation and array layout optimisation. 2016 253 x 177 mm 381pp 162 b/w illus. 16 tables 978-1-107-07970-0 Hardback £95.00 / US$125.00 For all formats available, see
www.cambridge.org/9781107079700
For all formats available, see
www.cambridge.org/9781107121331
eBooks available at www.cambridge.org/ebookstore
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Textbook
Combustion Thermodynamics and Dynamics Joseph M. Powers University of Notre Dame, Indiana
This book is for graduate and advanced undergraduate students in aerospace, mechanical and chemical engineering, as well as physics and applied mathematics. It is appropriate as both a textbook and an exposition of combustion science. It treats modern topics in thermodynamics, physical chemistry, and dynamics of advectionreaction-diffusion. Contents: Preface; Part I. Reactive Systems: 1. Introduction to chemical kinetics; 2. Gas mixtures; 3. Mathematical foundations of thermodynamics; 4. Thermochemistry of a single reaction; 5. Thermochemistry of multiple reactions; 6. Nonlinear dynamics of reduced kinetics; Part II. Advective-Reactive-Diffusive Systems: 7. Reactive Navier–Stokes equations; 8. Simple linear combustion; 9. Idealized solid combustion; 10. Premixed laminar flame; 11. Oscillatory combustion; 12. Detonation. 2016 253 x 177 mm 474pp 146 b/w illus. 17 tables 978-1-107-06745-5 Hardback £89.99 / US$125.00
Textbook
Foundations of Gas Dynamics Ruey-Hung Chen New Mexico State University
This reference on gas dynamics covers supersonic and subsonic flow phenomena where compressibility of the fluid cannot be ignored. It discusses applications in jet and rocket propulsion systems and industrial gas flow at high speeds. The applications focus and theoretical coverage will be appreciated by both students and engineers. Contents: 1. Properties and kinetic theory of gases; 2. Basic equations and thermodynamics of compressible flow; 3. Acoustic wave and flow regime; 4. Onedimensional isentropic flow, shock, and expansion waves; 5. One-dimensional flows in channels; 6. One-dimensional flows with friction; 7. One-dimensional flows with heat transfer; 8. Equations of multidimensional frictionless flow subject to small perturbation; 9. Applications of small perturbation theory; 10. Method of characteristics for two independent variables; 11. Unsteady flow; 12. Introduction to inviseid hypersonic flows. 2017 253 x 177 mm 565pp 978-1-107-08270-0 Hardback £89.99 / US$130.00
For all formats available, see
Publication March 2017
www.cambridge.org/9781107067455
For all formats available, see
www.cambridge.org/9781107082700
Two-Phase Flow, Boiling, and Condensation: In Conventional and Miniature Systems Second Edition
Textbook
Engineering Entrepreneurship from Idea to Business Plan A Guide for Innovative Engineers and Scientists
Paul Swamidass
S. Mostafa Ghiaasiaan Georgia Institute of Technology
Auburn University, Alabama
A comprehensive introduction to the fundamentals of flow and heat transfer, this new edition details recent research trends, applications, and common design problems, and includes numerous end-of-chapter problems. Essential for graduate courses on twophase flow, boiling, and condensation, and an ideal reference for researchers and professionals.
This book guides those who want to create new products that are incomeproducing for themselves and for investors. Learn to sharpen an idea and turn it into a product, conduct patent searches, complete a provisional patent application, and prepare a business plan from a business model.
Contents: Part I. Two-Phase Flow: 1. Thermodynamic and single-phase flow fundamentals; 2. Gas-liquid interfacial phenomena; 3. Two-phase mixtures, fluid dispersions, and liquid films; 4. Two-phase flow regimes – I; 5. Two-phase flow modeling; 6. The drift flux model and voidquality relations; 7. Two-phase flow regimes – II; 8. Pressure drop in two-phase flow; 9. Countercurrent flow limitation; 10. Twophase flow in small flow passages; Part II. Boiling and Condensation: 11. Pool boiling; 12. Flow boiling; 13. Critical heat flux and post-CHF heat transfer in flow boiling; 14. Flow boiling and CHF in small passages; 15. Fundamentals of condensation; 16. Internal-flow condensation and condensation on liquid jets and droplets; 17. Choking in two-phase flow. 2017 261 x 185 mm 794pp 266 b/w illus. 46 tables 978-1-107-15330-1 Hardback £95.00 / US$125.00 For all formats available, see
www.cambridge.org/9781107153301
Contents: 1. Engineers create value for investors; 2. Introduction to technological innovation; 3. The seven phases of technological innovation; 4. Engineers add value in stages; 5. Disruptive technological innovators: value creators; 6. Ideas: how do you find them?; 7. Turn your idea into a product; 8. Early detection of market potential; 9. Illustrative case: tennis racquet customer needs survey; 10. What engineers can do for product development; 11. Intellectual property, patents and trade secret; 12. If you cannot afford a patent attorney; 13. Reading and learning from a granted US patent; 14. Patent search and conclusions before drafting a patent application; 15. Pro se US patent applications do succeed; 16. Macroeconomics for innovators in engineering and science; 17. Customers, target markets and marketing; 18. The power of social media marketing; 19. Market analysis resources; 20. Illustrative case: market analysis for tennis racquets; 21. Competition research; 22. Manufacturing and sourcing; 23. Break-even analysis; 24. Sales and distribution – wholesale, direct and other; 25. Reaching your customer: advertising and promotion; 26. Selecting the prestart-up model; 27. Key decisions: costs
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estimation and pricing; 28. The business model versus the business plan; 29. The business plan: the end of phase 3; 30. A business plan is a war plan: anything can change; 31. Making the start-up business financially feasible; 32. What angel investors look for in a phase 4 company seeking funding; 33. Ethics in engineering and business professions; 34. Business as a legal entity in the United States; 35. Pre-start-up business organization and management; 36. An illustrative case: Amazon.com as a start-up; 37. Execution phases 4 to 6; 38. Phase 7: six case studies of mature firms; 39. Comparing phase 7 firms from different industries: Apple and Wal-Mart; 40. Teams and teamwork; 41. Leadership issues in start-up business; 42. What we know about entrepreneurs; 43. Creating value as an engineer in India.
Nonequilibrium Gas Dynamics and Molecular Simulation
2016 253 x 177 mm 254pp 978-1-107-65164-7 Paperback £24.99 / US$39.99
Cambridge Aerospace Series, 42
Iain D. Boyd University of Michigan, Ann Arbor
Thomas E. Schwartzentruber University of Minnesota
This current, comprehensive book provides an updated treatment of molecular gas dynamics topics for aerospace engineers, and is aimed at graduate students, engineers, and scientists. It features an explanation of the direct simulation Monte Carlo (DSMC) method, a numerical technique based on molecular simulation, through equations, algorithms, and physical models.
For all formats available, see
2017 253 x 177 mm 400pp 978-1-107-07344-9 Hardback £120.00 / US$155.00
www.cambridge.org/9781107651647
Publication March 2017 For all formats available, see
Grid-Connected Photovoltaic Power Generation Technologies, Engineering Economics, and Risk Management
Peter Gevorkian Vector Delta Design Group, Inc., California
Covering technical design and construction aspects as well as financial analysis and risk assessment, this professional reference work provides a comprehensive overview of solar power technology. The book is essential reading for anyone involved with solar power project development, and is suitable for both graduate students and professionals. 2017 253 x 177 mm 504pp 978-1-107-18132-8 Hardback £89.99 / US$135.00 Publication April 2017 For all formats available, see
www.cambridge.org/9781107181328
www.cambridge.org/9781107073449
textbook
Textbook
Introduction to Aircraft Design
Principles of Optimal Design: Modeling and Computation
Second Edition
John P. Fielding
Third Edition
Cranfield University, UK
The new edition of this popular textbook provides a modern, accessible introduction to the whole process of aircraft design from requirements to conceptual design, manufacture and inservice issues. The text includes updated costs, many new images and examples from real projects and unique data that’s invaluable to aircraft designers’ work. Contents: 1. Introduction; 2. Why should we design a new aircraft? 3. Why is it that shape? – civil aircraft; 4. Why is it that shape – other types; 5. What’s under the skin? – structure and properties; 6. What’s under the skin? – airframe systems; 7. What’s under the skin? – avionics, flight control and weapons systems; 8. Why do aircraft cost so much? 9. What help can I get? – bibliography and computer-aided design; 10. The shape of things to come – should the project continue? 11. What can go wrong? – some lessons from past aircraft projects, and a glimpse into the future; Appendix A. Useful aircraft design data; Appendix B. A-90 parametric study. Example. The A-90 500-seat airliner; Appendix C. The prediction of aircraft reliability and maintainability targets; References; Index.
Panos Y. Papalambros University of Michigan, Ann Arbor
Douglass J. Wilde Stanford University, California
Optimization is a standard concept in engineering design, and in other disciplines which use mathematical decision-making methods. This textbook presents the key concepts and algorithms available for solving design optimization problems. Featuring simple examples, it is intended for fourth- or fifth-year students and professional engineers. Contents: Preface; Notation; 1. Optimization models; 2. Model construction; 3. Model boundedness; 4. Interior optima; 5. Boundary optima; 6. Local computation; 7. Nongradient search; 8. Systems design; 9. Principles and practice; Notes; References; Author index; Subject index. 2017 258 x 193 mm 450pp 375 b/w illus. 978-1-107-13267-2 Hardback £54.99 / US$110.00 For all formats available, see
www.cambridge.org/9781107132672
2017 253 x177 mm. 455pp 325 b/w illus. 978-1-107-68079-1 Paperback £49.99 / US$64.99 For all formats available, see
www.cambridge.org/9781107680791
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