Dynamic simulation of innovative aircraft air conditioning

Müller, Christian; Scholz, Dieter; Giese, Tim

doi:10.48441/4427.2074

Please use this identifier to cite or link to this item: https://doi.org/10.48441/4427.2074

Publisher URL:	https://purl.org/ceas/proceedings-2007 https://www.fzt.haw-hamburg.de/pers/Scholz/FLECS/FLECS_Paper_CEAS_07-09-10.pdf http://FLECS.ProfScholz.de
Title:	Dynamic simulation of innovative aircraft air conditioning
Language:	English
Authors:	Müller, Christian Scholz, Dieter Giese, Tim
Other :	Council of European Aerospace Societies
Keywords:	Luftfahrt; aviation; aircraft; environmental control systems; ECS; MATLAB; Simulink; Airbus; A340; model; cabin; flow; resistance; validation; identification; simulation; dynamic; FLECS; temperature; conductivity
Issue Date:	2007
Publisher:	Deutsche Gesellschaft für Luft- und Raumfahrt - Lilienthal-Oberth
Part of Series:	Deutscher Luft- und Raumfahrtkongress 2007 : 1st CEAS, European Air and Space Conference ; proceedings
Volume number:	3
Project:	FLECS - Funktionale Modellbibliothek des Environment Control Systems
Conference:	European Air and Space Conference 2007 Deutscher Luft- und Raumfahrtkongress 2007
Abstract:	The development of innovative air conditioning systems for passenger aircrafts requires the application of dynamic simulation. FLECS, the "Functional Model Library of the Environmental Control System", was programmed to support such development processes of environmental control systems (ECS). FLECS offers a library with generic models from small ECS components up to the whole aircraft cabin. Fundamental to FLECS is the functional simulation in a MATLAB/Simulink environment based on a generalized volume and generalized resistances – mass flow resistances as well as heat flow resistances. Based on these generalized elements, specialised components like isobaric volumes and fan components were derived. Using measured datasets recorded during a test flight of an Airbus A340-600, a set of duct components as well as a cabin model was validated. The measured data was matched in both cases by the simulated response of the system. The validated duct components and the cabin model were used to simulate the control behaviour of an ECS. The cabin model of this simulation consisted of 2 zones of a single aisle aircraft. A highly dynamic test case was defined. The simulated behaviour of the system was plausible and could be well interpreted.
URI:	http://hdl.handle.net/20.500.12738/10030
DOI:	10.48441/4427.2074
ISSN:	0700-4083
Review status:	Currently there is no review planned for this version
Institute:	Forschungsgruppe Flugzeugentwurf und -systeme (AERO) Department Fahrzeugtechnik und Flugzeugbau Fakultät Technik und Informatik
Type:	Chapter/Article (Proceedings)
Additional note:	MÜLLER, Christian, SCHOLZ, Dieter, GIESE, Tim, 2007. Dynamic Simulation of Innovative Aircraft Air Conditioning. In: DGLR. Deutscher Luft- und Raumfahrt Kongress & First CEAS European Air and Space Conference (Berlin, 10 - 13 September 2007), Bonn : Deutsche Gesellschaft für Luft- und Raumfahrt, 2007. - Paper: CEAS-2007-466, CD, ISSN 0700-4083.
Funded by:	Hamburger Behörde für Wirtschaft, Verkehr und Innovation
Appears in Collections:	Publications with full text