Enhancing Wind Power Integration through Optimal Use of Flexibility in Multi-Carrier Energy Systems from the Danish Perspective

Yi Zong, M. A. Ahmed Awadelrahman, Jiawei Wang, Shi You, Chresten Træholt, Xianyong Xiao

Research output: Contribution to journalJournal articleResearchpeer-review

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Abstract

Denmark’ goal of being independent of fossil energy sources in 2050 puts forward great demands on all energy subsystems (electricity, heat, gas and transport,
etc.) to be operated in a holistic manner. The Danish experience and challenges of wind power integration and the development of district heating systems are summarized in this paper. How to optimally use the cross-sectoral flexibility by intelligent control (model predictive control-based) of the key coupling components in an integrated heat and power system including electrical heat pumps in the demand side, and thermal storage applications in buildings is investigated.
Original languageEnglish
JournalWorld Journal of Engineering and Technology
Volume5
Issue number4
Pages (from-to)78-88
ISSN2331-4249
DOIs
Publication statusPublished - 2017

Keywords

  • Cross-Sectoral Flexibility
  • District Heating Systems
  • Multi-Carrier Energy Systems
  • Power to Heat
  • Wind Power Integration

Cite this

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title = "Enhancing Wind Power Integration through Optimal Use of Flexibility in Multi-Carrier Energy Systems from the Danish Perspective",
abstract = "Denmark’ goal of being independent of fossil energy sources in 2050 puts forward great demands on all energy subsystems (electricity, heat, gas and transport,etc.) to be operated in a holistic manner. The Danish experience and challenges of wind power integration and the development of district heating systems are summarized in this paper. How to optimally use the cross-sectoral flexibility by intelligent control (model predictive control-based) of the key coupling components in an integrated heat and power system including electrical heat pumps in the demand side, and thermal storage applications in buildings is investigated.",
keywords = "Cross-Sectoral Flexibility, District Heating Systems, Multi-Carrier Energy Systems, Power to Heat, Wind Power Integration",
author = "Yi Zong and Awadelrahman, {M. A. Ahmed} and Jiawei Wang and Shi You and Chresten Tr{\ae}holt and Xianyong Xiao",
year = "2017",
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language = "English",
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}

Enhancing Wind Power Integration through Optimal Use of Flexibility in Multi-Carrier Energy Systems from the Danish Perspective. / Zong, Yi; Awadelrahman, M. A. Ahmed; Wang, Jiawei; You, Shi; Træholt, Chresten; Xiao, Xianyong.

In: World Journal of Engineering and Technology, Vol. 5, No. 4, 2017, p. 78-88.

Research output: Contribution to journalJournal articleResearchpeer-review

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T1 - Enhancing Wind Power Integration through Optimal Use of Flexibility in Multi-Carrier Energy Systems from the Danish Perspective

AU - Zong, Yi

AU - Awadelrahman, M. A. Ahmed

AU - Wang, Jiawei

AU - You, Shi

AU - Træholt, Chresten

AU - Xiao, Xianyong

PY - 2017

Y1 - 2017

N2 - Denmark’ goal of being independent of fossil energy sources in 2050 puts forward great demands on all energy subsystems (electricity, heat, gas and transport,etc.) to be operated in a holistic manner. The Danish experience and challenges of wind power integration and the development of district heating systems are summarized in this paper. How to optimally use the cross-sectoral flexibility by intelligent control (model predictive control-based) of the key coupling components in an integrated heat and power system including electrical heat pumps in the demand side, and thermal storage applications in buildings is investigated.

AB - Denmark’ goal of being independent of fossil energy sources in 2050 puts forward great demands on all energy subsystems (electricity, heat, gas and transport,etc.) to be operated in a holistic manner. The Danish experience and challenges of wind power integration and the development of district heating systems are summarized in this paper. How to optimally use the cross-sectoral flexibility by intelligent control (model predictive control-based) of the key coupling components in an integrated heat and power system including electrical heat pumps in the demand side, and thermal storage applications in buildings is investigated.

KW - Cross-Sectoral Flexibility

KW - District Heating Systems

KW - Multi-Carrier Energy Systems

KW - Power to Heat

KW - Wind Power Integration

U2 - 10.4236/wjet.2017.54B009

DO - 10.4236/wjet.2017.54B009

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JF - World Journal of Engineering and Technology

SN - 2331-4249

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