This volume contains the main results of the three years study (2003 - 2007) of the Virtual Institute RESPACE (Key Technologies for Re-Usable Space Systems), consisting of three DLR departments and four institutes of the RWTH Aachen, the University of Stuttgart and the Technical University München. The nine topics treated with a multidisciplinary numerical and experimental approach are systems aspects of advanced space transportation vehicles, vehicle base flow, propulsion jet and external flow interaction, active cooling of hot structures, film cooling and its influence on boundary-layer flow.
Zusammenfassung
A few years ago the Helmholtz Association (HGF) consisting of 15 research Institutions including the German Aerospace Center (DLR) started a network research program called 'Virtual Institutes'. The basic idea of this program was to establish research groups formed by Helmholtz research centers and universities to study and develop methods or technologies for future applications and educate young scientists. It should also enable and encourage the partners of this Virtual Institute after 3 years funding to continue their cooperation in other programs. Following this HGF request and chance the DLR Windtunnel Department of the Institute of Aerodynamics and Flow Technology took the initiative and established a network with other DLR institutes and German u- versities RWTH Aachen, University of Stuttgart and Technical University Munich. The main goal of this network was to share the experience in system analysis, ae- dynamics and material science for aerospace for improving the understanding and applicability of some key technologies for future reusable space transportation s- tems. Therefore, the virtual institute was named RESPACE (Key Technologies for Re- Usable Space Systems).
Inhalt
General Introduction.- System Requirements on Investigation of Base Flow/Plume Interaction.- Experimental Study of the Base Flow.- Large-Eddy Simulation of a Generic Space Vehicle.- Large Eddy Simulation of Nozzle Jet - External Flow Interaction.- Application of Transpiration Cooling for Hot Structures.- Qualification of Active Cooling Concepts in Ground Facilities.- Experimental Study of Active Cooling in 8 Laminar Hypersonic Flows.- Numerical Investigations of Film Cooling.- Transpiration Cooling Methods for the SpaceLiner.
Titel
RESPACE - Key Technologies for Reusable Space Systems
Untertitel
Results of a Virtual Institute Programme of the German Helmholtz-Association, 2003 - 2007
Autor
Editor
EAN
9783540778196
ISBN
978-3-540-77819-6
Format
E-Book (pdf)
Hersteller
Herausgeber
Veröffentlichung
24.01.2008
Digitaler Kopierschutz
Wasserzeichen
Dateigrösse
30.8 MB
Anzahl Seiten
190
Jahr
2008
Untertitel
Englisch
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