Coordinated dispatching strategy of multiple energy sources for wind power consumption

Heat storage systems with multiple heat sources play an important role in consuming extra wind power. A reasonable scheduling strategy for a hybrid system with multiple heat and electric sources could provide greater economic benefits. However, the present scheduling methods primarily focus on extra...

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Published inJournal of modern power systems and clean energy Vol. 7; no. 6; pp. 1461 - 1471
Main Authors RONG, Shuang, CHEN, Xiaoguang, GUAN, Wanlin, XU, Mingyu
Format Journal Article
LanguageEnglish
Published Singapore Springer Singapore 01.11.2019
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
IEEE
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Abstract Heat storage systems with multiple heat sources play an important role in consuming extra wind power. A reasonable scheduling strategy for a hybrid system with multiple heat and electric sources could provide greater economic benefits. However, the present scheduling methods primarily focus on extra wind power consumption alone. This paper aims to develop a coordinated dispatching method that targets the maximum extra wind power consumed and highest economic benefit of the hybrid energy system as the optimization objective. A two-step coordinated dispatching method is proposed, where the first step focuses on optimizing the extra wind power consumed by coordinating the consumption quota for different types of energy sources at the system level and distributes the consumption share for every unit within each type of energy source, thereby maximizing fuel savings and economic benefits in the second step. The effectiveness of the approach is demonstrated using simulation results for an electric-heat hybrid system. Compared with two existing dispatching methods, the scheduling strategy presented in this paper could consume more extra wind power and provide higher fuel savings and economic benefits.
AbstractList Heat storage systems with multiple heat sources play an important role in consuming extra wind power. A reasonable scheduling strategy for a hybrid system with multiple heat and electric sources could provide greater economic benefits. However, the present scheduling methods primarily focus on extra wind power consumption alone. This paper aims to develop a coordinated dispatching method that targets the maximum extra wind power consumed and highest economic benefit of the hybrid energy system as the optimization objective. A two-step coordinated dispatching method is proposed, where the first step focuses on optimizing the extra wind power consumed by coordinating the consumption quota for different types of energy sources at the system level and distributes the consumption share for every unit within each type of energy source, thereby maximizing fuel savings and economic benefits in the second step. The effectiveness of the approach is demonstrated using simulation results for an electric-heat hybrid system. Compared with two existing dispatching methods, the scheduling strategy presented in this paper could consume more extra wind power and provide higher fuel savings and economic benefits.
Author XU, Mingyu
GUAN, Wanlin
RONG, Shuang
CHEN, Xiaoguang
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Journal of Modern Power Systems and Clean Energy is a copyright of Springer, (2019). All Rights Reserved. © 2019. This work is published under http://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
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Issue 6
Keywords Primary heat circuit (PHC)
Combined heat and power (CHP)
Wind power consumption
Electric boiler
Heat storage tank (HST)
Coordinated dispatching
Language English
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Snippet Heat storage systems with multiple heat sources play an important role in consuming extra wind power. A reasonable scheduling strategy for a hybrid system with...
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SubjectTerms Combined heat and power (CHP)
Coordinated dispatching
Economics
Electric boiler
Electrical Machines and Networks
Energy
Energy resources
Energy sources
Energy storage
Energy Systems
Fuels
Heat sources
Heat storage
Heat storage tank (HST)
Hybrid systems
Optimization
Power consumption
Power Electronics
Primary heat circuit (PHC)
Renewable and Green Energy
Scheduling
Storage systems
Strategy
Wind power
Wind power consumption
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Title Coordinated dispatching strategy of multiple energy sources for wind power consumption
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