Thermal Building Modeling and Simulation for the Automated Load Shifting Purposes in the Non-Residential Building Sector

Tarik Ferhatbegovic; Stefan Hauer; Ines Leobner; Karl Ponweiser; Alexander Schirrer; Martin Kozek

Thermal Building Modeling and Simulation for the Automated Load Shifting Purposes in the Non-Residential Building Sector

Tarik Ferhatbegovic (Vortragende:r)
, Stefan Hauer
, Ines Leobner
, Karl Ponweiser
, Alexander Schirrer
, Martin Kozek

Digital Resilient Cities

TU Wien

Publikation: Beitrag in Buch oder Tagungsband › Vortrag mit Beitrag in Tagungsband › Begutachtung

Abstract

The optimized control of renewable energy generated locally (e.g.: in non-residential buildings) can significantly improve the integration of distributed generation in urban electric power systems. Existing infrastructure can thus be utilized more efficiently which can lead to an increased integration of renewables into the electric grid. Through predictive and optimizing control, demands within buildings are satisfied efficiently: local as well as decentralized energy sources are used efficiently and shiftable loads are exploited using thermal and electrical storage possibilities (Demand Side Management, DSM). The present paper addresses the development of thermal building models and simulation studies for load shifting purposes in the non-residential building sector. This is seen as a prerequisite to the actual design of model based predictive controllers.

Originalsprache	Englisch
Titel	European Conference on Product and Process Modelling
Seiten	511-517
Seitenumfang	7
Publikationsstatus	Veröffentlicht - 2014
Veranstaltung	European Conference on Product and Process Modelling - Dauer: 17 Sept. 2014 → 19 Sept. 2014

Konferenz

Konferenz	European Conference on Product and Process Modelling
Zeitraum	17/09/14 → 19/09/14

UN SDGs

Dieser Output leistet einen Beitrag zu folgendem(n) Ziel(en) für nachhaltige Entwicklung

SDG 7 – Erschwingliche und saubere Energie

Research Field

Ehemaliges Research Field - Energy

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title = "Thermal Building Modeling and Simulation for the Automated Load Shifting Purposes in the Non-Residential Building Sector",

abstract = "The optimized control of renewable energy generated locally (e.g.: in non-residential buildings) can significantly improve the integration of distributed generation in urban electric power systems. Existing infrastructure can thus be utilized more efficiently which can lead to an increased integration of renewables into the electric grid. Through predictive and optimizing control, demands within buildings are satisfied efficiently: local as well as decentralized energy sources are used efficiently and shiftable loads are exploited using thermal and electrical storage possibilities (Demand Side Management, DSM). The present paper addresses the development of thermal building models and simulation studies for load shifting purposes in the non-residential building sector. This is seen as a prerequisite to the actual design of model based predictive controllers.",

author = "Tarik Ferhatbegovic and Stefan Hauer and Ines Leobner and Karl Ponweiser and Alexander Schirrer and Martin Kozek",

year = "2014",

language = "English",

isbn = "978-1-138-02710-7",

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booktitle = "European Conference on Product and Process Modelling",

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Thermal Building Modeling and Simulation for the Automated Load Shifting Purposes in the Non-Residential Building Sector. / Ferhatbegovic, Tarik (Vortragende:r); Hauer, Stefan; Leobner, Ines et al.
European Conference on Product and Process Modelling. 2014. S. 511-517.

Publikation: Beitrag in Buch oder Tagungsband › Vortrag mit Beitrag in Tagungsband › Begutachtung

TY - GEN

T1 - Thermal Building Modeling and Simulation for the Automated Load Shifting Purposes in the Non-Residential Building Sector

AU - Hauer, Stefan

AU - Leobner, Ines

AU - Ponweiser, Karl

AU - Schirrer, Alexander

AU - Kozek, Martin

A2 - Ferhatbegovic, Tarik

PY - 2014

Y1 - 2014

N2 - The optimized control of renewable energy generated locally (e.g.: in non-residential buildings) can significantly improve the integration of distributed generation in urban electric power systems. Existing infrastructure can thus be utilized more efficiently which can lead to an increased integration of renewables into the electric grid. Through predictive and optimizing control, demands within buildings are satisfied efficiently: local as well as decentralized energy sources are used efficiently and shiftable loads are exploited using thermal and electrical storage possibilities (Demand Side Management, DSM). The present paper addresses the development of thermal building models and simulation studies for load shifting purposes in the non-residential building sector. This is seen as a prerequisite to the actual design of model based predictive controllers.

AB - The optimized control of renewable energy generated locally (e.g.: in non-residential buildings) can significantly improve the integration of distributed generation in urban electric power systems. Existing infrastructure can thus be utilized more efficiently which can lead to an increased integration of renewables into the electric grid. Through predictive and optimizing control, demands within buildings are satisfied efficiently: local as well as decentralized energy sources are used efficiently and shiftable loads are exploited using thermal and electrical storage possibilities (Demand Side Management, DSM). The present paper addresses the development of thermal building models and simulation studies for load shifting purposes in the non-residential building sector. This is seen as a prerequisite to the actual design of model based predictive controllers.

M3 - Conference Proceedings with Oral Presentation

SN - 978-1-138-02710-7

SP - 511

EP - 517

BT - European Conference on Product and Process Modelling

T2 - European Conference on Product and Process Modelling

Y2 - 17 September 2014 through 19 September 2014

ER -

Thermal Building Modeling and Simulation for the Automated Load Shifting Purposes in the Non-Residential Building Sector

Abstract

Konferenz

UN SDGs

Research Field

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