Overview
ABSTRACT
Several systems of aerospace propulsion are available and the choice is made according to the desired usage. Engines are classified according to several criteria: technological, functional, or even according to the chemical process of the reaction. This article presents the main type of propulsion systems (turboprops, propellers, ramjets, turbojet and urbofan, pulsed detonation engines, turbo rockets, etc.) as well as certain of their characteristics (type of reaction, area of use, domain of Mach number, etc.). As an example, it more specifically focuses on the choice of propulsion for missiles (anti-missiles, anti-ships, etc.) according to the type of mission carried out.
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Marc BOUCHEZ: Graduate of the Catholic School of Arts and Crafts in Lyon and the Higher School of Aerospace Technology - Engineer, Technical Expert in the Aerodynamics, Propulsion and Lethality Department at MBDA France - Adjunct professor of propulsion at several universities and prestigious higher education institutions
INTRODUCTION
This article presents the main types of aerospace propulsion systems and their characteristics. It begins by showing, as an example of their use, various applications in different types of missile systems; the choice of propulsion system depends on the mission and context.
Particular attention is paid to the link with the design of the flying vehicle whose propulsion is to be studied and to the orders of magnitude of the parameters associated with a given level of technology.
How can we use the information provided in the other articles in this treatise to understand the architecture of anti-ship missiles such as the famous Exocet? How can we calculate the cruise range of a supersonic missile? How can propulsion also be used to guide the missile underwater or at very high altitudes?
In the second part, this article presents different ways of cataloging, comparing, and distinguishing aerospace propulsion systems for flight in the atmosphere or in outer space.
We learn more about rocket engines and aerobic thrusters, turbomachinery and pulsed or continuous detonation engines, ramjets, combined engines, and heliothermal, nuclear, or electric space propulsion.
The examples and data provided are taken from the open literature, as the applications of these engines inevitably lead to restrictions on certain specific aspects of propulsion systems from a commercial or military perspective.
A glossary of terms used can be found at the end of the article.
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KEYWORDS
design | propulsion systems | advanced study
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Aerospace propulsion
Choice of propulsion for some missiles
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