Overview
ABSTRACT
Several types of space propulsion exist according to the way the propulsive mass is accelerated. Regardless of the chosen method, designing propulsion systems involves several mechanical principles and theories. The dimensioning and production of the propulsion system requires the knowledge and mastery of mathematical and physical tools. This article thus reviews the essential notions of the flight (regime, standard atmosphere, etc.), the aerodynamic and thermodynamic formulae which are used in propulsion in the planning stages, as well as the various level of air and combustion modeling.
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Read the articleAUTHOR
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Marc BOUCHEZ: Graduate of the Catholic School of Arts and Crafts in Lyon and the Higher School of Aerospace Technology - Adjunct professor of propulsion at several universities and prestigious higher education institutions - Distinguished Member of the French Aeronautics and Astronautics Association - Engineer, Technical Expert for the Aerodynamics, Propulsion and Lethality Division at MBDA, Bourges, France
INTRODUCTION
The four articles
This article therefore serves as a reminder of the essential concepts of flight (airfoils, standard atmosphere, etc.), the aerodynamic and thermodynamic formulas used in propulsion at the preliminary design stage, and the different levels of air and combustion modeling.
The main definitions are discussed: constructive index, dilution rate, specific impulse.
What is flight Mach number? How is shutdown temperature or generator pressure defined and used? What are the specific characteristics of supersonic and hypersonic flight? How do we calculate the changes in propellant gas in an engine? What parameters are used to quantify the performance of a propulsion system? Beyond thrust and fuel consumption, how do we quantify other useful aspects? Most engines use energy obtained through combustion. How do we model this?
In this article, particular attention is paid to the link with the design of the flying vehicle whose propulsion we want to study and to the orders of magnitude of the parameters related to a given level of technology.
The examples and data provided, sometimes deliberately left in English, are taken from open literature, as the applications of these engines inevitably lead to restrictions on certain specific aspects of these propulsion systems from a commercial or military point of view.
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KEYWORDS
modeling | conception | propulsion | performance index | advanced study
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Hydraulic, aerodynamic and thermal machines
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Reminders and useful information
The bibliography has been deliberately limited to a few works that cover all the aspects presented here and provide numerical examples and calculation methods that are accessible to engineers without supercomputers.
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French Aeronautics and Astronautics Association (3AF)
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