Article | The First Japanese Modelica Conferences, May 23-24, Tokyo, Japan | Validated Modelica Building Package for Energy Performance Simulation for Educational and Teaching Purposes
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Title:
Validated Modelica Building Package for Energy Performance Simulation for Educational and Teaching Purposes
Author:
Shan Hua: Centre for Sustainable Building, TU MĂĽnchen, Germany Fabian ReuĂź: Institute of Energy Efficient and Sustainable Design and Building, TU MĂĽnchen, Germany Manuel Lindauer: Centre for Sustainable Building, TU MĂĽnchen, Germany Jochen Stopper: Centre for Sustainable Building, TU MĂĽnchen, Germany Christoph van Treeck: Chair of Energy Efficiency and Sustainable Building E3D, RWTH Aachen University, Germany
DOI:
10.3384/ecp16124129
Download:
Full text (pdf)
Year:
2016
Conference:
The First Japanese Modelica Conferences, May 23-24, Tokyo, Japan
Issue:
124
Article no.:
17,
Pages:
129-138
No. of pages:
10
Publication type:
Abstract and Fulltext
Published:
2016-05-18
ISBN:
978-91-7685-749-6
Series:
Linköping Electronic Conference Proceedings
ISSN (print):
1650-3686
ISSN (online):
1650-3740
Publisher:
Linköping University Electronic Press, Linköpings universitet


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This paper introduces the work and application of the Modelica IBPSBuilding package which has been developed at TU MĂĽnchen. The aim of the package is to simulate building energy performance, especially the thermal behaviour of buildings. Its application is focused on research and education in order to help application-oriented researchers and students to understand the physical processes of a building performance simulation and gain persuassive simulation results. The package describes all basic processes including conduction, convection, radiation and ventilation, and it is validated with German VDI-Guidelines.

Keywords: building modeling, energy simulation, adaptive façade

The First Japanese Modelica Conferences, May 23-24, Tokyo, Japan

Author:
Shan Hua, Fabian ReuĂź, Manuel Lindauer, Jochen Stopper, Christoph van Treeck
Title:
Validated Modelica Building Package for Energy Performance Simulation for Educational and Teaching Purposes
DOI:
http://dx.doi.org/10.3384/ecp16124129
References:

VDI 6020 Blatt 1: Anforderungen an Rechenverfahren zur Gebäude- und Anlagensimulation, 2001-05.


VDI 2078: Berechnung der Kühllast und Raumtemperaturen von Räumen und Gebäuden (VDI-Kühllastregeln), 2012.


VDI 6007 Blatt 1: Berechnung des instationären thermischen Verhaltens von Räumen und Gebäuden - Raummodell, 2012-03.


J Clarke. Energy Simulation in Building Design. Taylor& Francis, 2001. ISBN 9780750650823. URL http://books.google.de/books?id=ksNIQ4kx6UIC.


Marcus Fuchs, Ana Constantin, Moritz Lauster, Peter Remmen, Rita Streblow, and Dirk Müller. Structuring the building performance Modelica model library AixLib for open collaborative development. In Proceedings of 14th IBPSA Conf. Building Simulation 2015, pages 331–338, Hyderabad, 2015.


Daniel Gstoehl, Jochen Stopper, Stefan Bertsch, and Dietrich Schwarz. Fluidised glass façade elements for an active energy transmission control. In World Engineers’ Convention, Geneva, 2011.


Shan Hua. Entwicklung einer Schnittstelle zwischen IFCGebäudemodellen und Modelica. 2014.


Peter Remmen, Jun Cao, S. Ebertshäuser, J. Frisch, Moritz Lauster, Tobias Maile, J. O’Donnell, S. Pinheiro, J. Rädler, R. Streblow, M. Thorade, R. Wimmer, Dirk Müller, C. Nytsch-Geusen, and Christoph van Treeck. An open framework for integrated BIM-based building performance simulation using Modelica. In Proceedings of 14th IBPSA Conf. Building Simulation 2015, pages 379–386, Hyderabad, 2015.


Lothar Rouvel. Thermische Gebäudesimulation GEBSIMU - Berechnungsverfahren zum instationären thermischen Gebäudeverhalten, 2015. URL http://www.gebsimu.de.


Jochen Stopper, Felix Boeing, and Daniel Gstoehl. Fluid Glass Façade Elements : Influences of dyeable Liquids within the Fluid Glass Façade . In Energy Forum on Solar Building Skins, Bressanone, 2013.


Matthis Thorade, Jörg Rädler, Peter Remmen, Tobias Maile, Reinhard Wimmer, Jun Cao, Moritz Lauster, Christoph Nytsch-Geusen, Dirk Müller, and Christoph van Treeck. An Open Toolchain for Generating Modelica Code from Building Information Models. pages 383–391, sep 2015. doi: 10.3384/ecp15118383. URL http://www.ep.liu.se/ecp/article.asp?issue=118&volume=&article=41.


René Unger, Torsten Schwan, Beate Mikoleit, Bernard Bäker, Christian Kehrer, and Tobias Rodemann. "Green Building" - Modelling renewable building energy systems and electric mobility concepts using Modelica. Proceedings of the 9th International Modelica Conference, pages 897–906, 2012. doi: 10.3384/ecp12076897. URL http://www.ep.liu.se/ecp/article.asp?issue=76&volume=&article=93.


Christoph van Treeck. Introduction to Building Performance Modeling and Simulation. Habilitation thesis, Technische Universität München, 2010.


Michael Wetter and Christoph van Treeck. IEA EBC Annex 60 Website, 2016. URL http://www.iea-annex60.org/. Accessed: 2016-04-04.


Michael Wetter, Wangda Zuo, Thierry S Nouidui, and Xiufeng Pang. Modelica Buildings library. Journal of Building Performance Simulation, pages 1–18, mar 2013. ISSN 1940-1493. doi: 10.1080/19401493.2013.765506. URL http://dx.doi.org/10.1080/19401493. 2013.765506.

The First Japanese Modelica Conferences, May 23-24, Tokyo, Japan

Author:
Shan Hua, Fabian ReuĂź, Manuel Lindauer, Jochen Stopper, Christoph van Treeck
Title:
Validated Modelica Building Package for Energy Performance Simulation for Educational and Teaching Purposes
DOI:
http://dx.doi.org/10.3384/ecp16124129
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