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Theory of Aerospace Propulsion

Name: Theory of Aerospace Propulsion
Author: Pasquale M. Sforza

Pasquale M. Sforza

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704 Seiten
English
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eBook - ePub

Theory of Aerospace Propulsion

Pasquale M. Sforza

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Theory of Aerospace Propulsion provides excellent coverage of aerospace propulsion systems, including propellers, nuclear rockets, and space propulsion. The book's in-depth, quantitative treatment of the components of jet propulsion engines provides the tools for evaluation and component matching for optimal system performance. Worked examples and end of chapter exercises provide practice for analysis, preliminary design, and systems integration.

Readers of this book will be able to utilize the fundamental principles of fluid mechanics and thermodynamics to analyze aircraft engines; understand the common gas turbine aircraft propulsion systems and be able to determine the applicability of each; perform system studies of aircraft engine systems for specified flight conditions; perform preliminary aerothermal design of turbomachinery components; conceive, analyze, and optimize competing preliminary designs for conventional and unconventional missions. The book is organized into 15 chapters covering a wide array of topics such as idealized flow machines; quasi-one-dimensional flow equations; idealized cycle analysis of jet engines; combustion chambers for airbreathing engines; nozzles and inlets; turbomachinery; blade element analysis of axial flow turbomachines; turbine engine performance and component integration; propellers; liquid rockets; solid propellant rockets; nuclear rockets; space propulsion; and propulsion aspects of high-speed flight.

This book will appeal to aerospace or mechanical engineers working in gas turbines, turbomachinery, aircraft propulsion and rocket propulsion, and to undergraduate and graduate level students in aerospace or mechanical engineering studying aerospace propulsion or turbomachinery.

Early coverage of cycle analysis providesa systemsperspective, and offers context for thechapters on turbomachinery and components
Broader coverage than found in most other books - including coverage of propellers, nuclear rockets, and space propulsion - allows analysis and design ofmore types of propulsion systems
In depth, quantitative treatments of the components of jet propulsion engines provides the tools for evaluation and component matching for optimal system performance
Worked examples and end of chapter exercises providepractice for analysis, preliminary design, and systems integration

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Information

Verlag

Butterworth-Heinemann

Jahr

2011

ISBN

9780123848895

Thema

Technology & Engineering

Thema

Aeronautic & Astronautic Engineering

Chapter 1. Idealized Flow Machines

Outline

1.1 Conservation Equations1

1.1.1 Conservation of mass2

1.1.2 Conservation of momentum3

1.1.3 Conservation of energy3

1.2 Flow Machines with No Heat Addition: The Propeller3

1.2.1 Zero heat addition with V_e >V₀3

1.2.2 Zero heat addition with V_e < V₀4

1.2.3 Zero heat addition with P = constant > 04

1.2.4 Propulsive efficiency4

1.3 Flow Machines with P = 0 and Q = Constant: The Turbojet, Ramjet, and Scramjet5

1.3.1 Heat addition, Q > 05

1.3.2 Constant heat addition, Q = constant > 07

1.3.3 Overall efficiency8

1.3.4 Fuel efficiency8

1.4 Flow Machines with P = 0, Q = Constant, and A₀ = 0: The Rocket11

1.5 The Special Case of Combined Heat and Power: The Turbofan12

1.5.1 Very small bypass ratio, β ≪ 1, the turbojet15

1.5.2 Very large bypass ratio, β ≫ 1, the turboprop15

1.5.3 Finite β, the turbofan16

1.6 Force Field for Air-Breathing Engines16

1.7 Conditions for Maximum Thrust22

1.8 Example: Jet and Rocket Engine Performance25

1.8.1 Jet engine performance25

1.8.2 Rocket engine performance26

1.9 Nomenclature27

1.9.1 Subscripts28

1.10 Exercises29

Reference34

Gas dynamic conservation equations in quasi-one dimensional form are introduced and used to classify the different types of jet propulsion engines and their performance. These are considered to be flow machines in which a fluid enters and has work and/or heat added to it prior to its exit from the machine as a jet. The propeller, in which work is done on the fluid passing through it but no heat is added, is shown to be efficient but speed limited. Conversely, the turbojet, ramjet, and scramjet, in which no work is done on the fluid passing through it, but heat is added, are shown to be less efficient but capable of good high-speed performance. The rocket, a variant of this case, carries onboard all the fluid to which heat is added and subsequently ejected as a jet. The rocket is able to operate in the vacuum of space but has lower efficiency than the others. The turbofan, in which both heat and work are added to the fluid, is a hybrid that derives some of the special benefits of the propeller and the turbojet. After illustrating the different engine types that use the principle of jet propulsion, attention is focused on the force field generated and the conditions for which maximum thrust is produced and developed.

1.1. Conservation Equations

A flow machine is one that ingests a stream of fluid, processes it internally in some fashion, and then ejects the processed fluid back into the ambient surroundings. An idealization of such a generalized flow machine is depicted schematically in Figure 1.1

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FIGURE 1.1

Schematic diagram of idealized flow machine and associated streamtube control volume.

In order to develop the basic features of operation of the idealized flow machine ...