Integration of aquifer thermal energy systems (ATES) into virtual powerplant as a source of flexibility

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/CongresprocedureConferentiebijdrageAcademicpeer review

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Uittreksel

Rapid deployment of distributed energy resources (DER) has changed traditional billing system into dynamic pricing due to the fluctuations in power generation. Virtual power plant (VPP) concept has emerged to take full economic benefit of electricity market and enhancing reliability of electricity system by aggregating the capacity of storage and controllable technologies. It also add flexibility into energy use. Imbalances between demand and supply due to the prediction error in electricity market is inevitable and remained as a problem for end user in VPP concept. On the one hand, there is a penalty for imbalances, on the other hand, there is additional operational cost for the compensation. In this study, the future prospects of aquifer thermal energy storage (ATES) has been investigated under the control of multiagent system (MAS). Restrictions and capabilities of ATES have been introduced correspondingly.
Originele taal-2Engels
TitelHuman-Centered Building(s) : 5th German-Austrian Conference of International Building Performance Simulationm Association (Bau Sim) , 22-24 September 2014, Aachen, Germany
RedacteurenC. Treeck, van, D. Müller
Plaats van productieAachen
UitgeverijRWTH Aachen
Pagina's603-610
Aantal pagina's8
ISBN van geprinte versie978-3-00-047160-5
StatusGepubliceerd - 2014
Evenement5th IBPSA Germany-Austrian Conference (BauSIM 2014), September 22-24, 2014, Aachen, Germany - RWTH Aachen University, Aachen, Duitsland
Duur: 22 sep 201424 sep 2014

Congres

Congres5th IBPSA Germany-Austrian Conference (BauSIM 2014), September 22-24, 2014, Aachen, Germany
Verkorte titelBauSIM 2014
LandDuitsland
StadAachen
Periode22/09/1424/09/14
AnderBauSim 2014

Vingerafdruk

Thermal energy
Aquifers
Power plants
Energy resources
Multi agent systems
Energy storage
Power generation
Costs
Dynamical systems
Electricity
Economics
Power markets
Compensation and Redress

Citeer dit

Bozkaya, B., Zeiler, W., & Boxem, G. (2014). Integration of aquifer thermal energy systems (ATES) into virtual powerplant as a source of flexibility. In C. Treeck, van, & D. Müller (editors), Human-Centered Building(s) : 5th German-Austrian Conference of International Building Performance Simulationm Association (Bau Sim) , 22-24 September 2014, Aachen, Germany (blz. 603-610). Aachen: RWTH Aachen.
Bozkaya, B. ; Zeiler, W. ; Boxem, G. / Integration of aquifer thermal energy systems (ATES) into virtual powerplant as a source of flexibility. Human-Centered Building(s) : 5th German-Austrian Conference of International Building Performance Simulationm Association (Bau Sim) , 22-24 September 2014, Aachen, Germany. redacteur / C. Treeck, van ; D. Müller. Aachen : RWTH Aachen, 2014. blz. 603-610
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title = "Integration of aquifer thermal energy systems (ATES) into virtual powerplant as a source of flexibility",
abstract = "Rapid deployment of distributed energy resources (DER) has changed traditional billing system into dynamic pricing due to the fluctuations in power generation. Virtual power plant (VPP) concept has emerged to take full economic benefit of electricity market and enhancing reliability of electricity system by aggregating the capacity of storage and controllable technologies. It also add flexibility into energy use. Imbalances between demand and supply due to the prediction error in electricity market is inevitable and remained as a problem for end user in VPP concept. On the one hand, there is a penalty for imbalances, on the other hand, there is additional operational cost for the compensation. In this study, the future prospects of aquifer thermal energy storage (ATES) has been investigated under the control of multiagent system (MAS). Restrictions and capabilities of ATES have been introduced correspondingly.",
author = "B. Bozkaya and W. Zeiler and G. Boxem",
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pages = "603--610",
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Bozkaya, B, Zeiler, W & Boxem, G 2014, Integration of aquifer thermal energy systems (ATES) into virtual powerplant as a source of flexibility. in C Treeck, van & D Müller (redactie), Human-Centered Building(s) : 5th German-Austrian Conference of International Building Performance Simulationm Association (Bau Sim) , 22-24 September 2014, Aachen, Germany. RWTH Aachen, Aachen, blz. 603-610, Aachen, Duitsland, 22/09/14.

Integration of aquifer thermal energy systems (ATES) into virtual powerplant as a source of flexibility. / Bozkaya, B.; Zeiler, W.; Boxem, G.

Human-Centered Building(s) : 5th German-Austrian Conference of International Building Performance Simulationm Association (Bau Sim) , 22-24 September 2014, Aachen, Germany. redactie / C. Treeck, van; D. Müller. Aachen : RWTH Aachen, 2014. blz. 603-610.

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/CongresprocedureConferentiebijdrageAcademicpeer review

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T1 - Integration of aquifer thermal energy systems (ATES) into virtual powerplant as a source of flexibility

AU - Bozkaya, B.

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AU - Boxem, G.

PY - 2014

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N2 - Rapid deployment of distributed energy resources (DER) has changed traditional billing system into dynamic pricing due to the fluctuations in power generation. Virtual power plant (VPP) concept has emerged to take full economic benefit of electricity market and enhancing reliability of electricity system by aggregating the capacity of storage and controllable technologies. It also add flexibility into energy use. Imbalances between demand and supply due to the prediction error in electricity market is inevitable and remained as a problem for end user in VPP concept. On the one hand, there is a penalty for imbalances, on the other hand, there is additional operational cost for the compensation. In this study, the future prospects of aquifer thermal energy storage (ATES) has been investigated under the control of multiagent system (MAS). Restrictions and capabilities of ATES have been introduced correspondingly.

AB - Rapid deployment of distributed energy resources (DER) has changed traditional billing system into dynamic pricing due to the fluctuations in power generation. Virtual power plant (VPP) concept has emerged to take full economic benefit of electricity market and enhancing reliability of electricity system by aggregating the capacity of storage and controllable technologies. It also add flexibility into energy use. Imbalances between demand and supply due to the prediction error in electricity market is inevitable and remained as a problem for end user in VPP concept. On the one hand, there is a penalty for imbalances, on the other hand, there is additional operational cost for the compensation. In this study, the future prospects of aquifer thermal energy storage (ATES) has been investigated under the control of multiagent system (MAS). Restrictions and capabilities of ATES have been introduced correspondingly.

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Bozkaya B, Zeiler W, Boxem G. Integration of aquifer thermal energy systems (ATES) into virtual powerplant as a source of flexibility. In Treeck, van C, Müller D, redacteurs, Human-Centered Building(s) : 5th German-Austrian Conference of International Building Performance Simulationm Association (Bau Sim) , 22-24 September 2014, Aachen, Germany. Aachen: RWTH Aachen. 2014. blz. 603-610