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Fundamentals of Aircraft and Rocket Propulsion [electronic resource] / by Ahmed F. El-Sayed.

By: El-Sayed, Ahmed F [author.].
Contributor(s): SpringerLink (Online service).
Material type: materialTypeLabelBookPublisher: London : Springer London : Imprint: Springer, 2016Description: XXI, 1010 p. 571 illus., 242 illus. in color. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9781447167969.Subject(s): Engineering | Fluids | Thermodynamics | Fluid mechanics | Aerospace engineering | Astronautics | Engineering | Aerospace Technology and Astronautics | Engineering Fluid Dynamics | Fluid- and Aerodynamics | ThermodynamicsAdditional physical formats: Printed edition:: No titleDDC classification: 629.1 Online resources: Click here to access online
Contents:
Classifications of Aircrafts and Propulsion Systems -- Basic Laws for Fluids; Performance Parameters of Jet Engines -- Piston Engines and Propellers -- Pulsejet, Ramjet, and Scramjet Engines -- Turbojet, Turbofan, and Turboramjet Engines -- Shaft Engines -- Stationary Modules of Airbreathing Engines -- Rotating Modules of Airbreathing Engines -- Special Topics -- Rockets; Rocket Engines.
In: Springer eBooksSummary: This book provides a comprehensive basics-to-advanced course in an aero-thermal science vital to the design of engines for either type of craft. The text classifies engines powering aircraft and single/multi-stage rockets, and derives performance parameters for both from basic aerodynamics and thermodynamics laws. Each type of engine is analyzed for optimum performance goals, and mission-appropriate engines selection is explained. Fundamentals of Aircraft and Rocket Propulsion provides information about and analyses of: thermodynamic cycles of shaft engines (piston, turboprop, turboshaft and propfan); jet engines (pulsejet, pulse detonation engine, ramjet, scramjet, turbojet and turbofan); chemical and non-chemical rocket engines; conceptual design of modular rocket engines (combustor, nozzle and turbopumps); and conceptual design of different modules of aero-engines in their design and off-design state. Aimed at graduate and final-year undergraduate students, this textbook provides a thorough grounding in the history and classification of both aircraft and rocket engines, important design features of all the engines detailed, and particular consideration of special aircraft such as unmanned aerial and short/vertical takeoff and landing aircraft. End-of-chapter exercises make this a valuable student resource, and the provision of a downloadable solutions manual will be of further benefit for course instructors.
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Classifications of Aircrafts and Propulsion Systems -- Basic Laws for Fluids; Performance Parameters of Jet Engines -- Piston Engines and Propellers -- Pulsejet, Ramjet, and Scramjet Engines -- Turbojet, Turbofan, and Turboramjet Engines -- Shaft Engines -- Stationary Modules of Airbreathing Engines -- Rotating Modules of Airbreathing Engines -- Special Topics -- Rockets; Rocket Engines.

This book provides a comprehensive basics-to-advanced course in an aero-thermal science vital to the design of engines for either type of craft. The text classifies engines powering aircraft and single/multi-stage rockets, and derives performance parameters for both from basic aerodynamics and thermodynamics laws. Each type of engine is analyzed for optimum performance goals, and mission-appropriate engines selection is explained. Fundamentals of Aircraft and Rocket Propulsion provides information about and analyses of: thermodynamic cycles of shaft engines (piston, turboprop, turboshaft and propfan); jet engines (pulsejet, pulse detonation engine, ramjet, scramjet, turbojet and turbofan); chemical and non-chemical rocket engines; conceptual design of modular rocket engines (combustor, nozzle and turbopumps); and conceptual design of different modules of aero-engines in their design and off-design state. Aimed at graduate and final-year undergraduate students, this textbook provides a thorough grounding in the history and classification of both aircraft and rocket engines, important design features of all the engines detailed, and particular consideration of special aircraft such as unmanned aerial and short/vertical takeoff and landing aircraft. End-of-chapter exercises make this a valuable student resource, and the provision of a downloadable solutions manual will be of further benefit for course instructors.

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