%0 Electronic Article
%A Lijun Yang
%A Xing Zhang
%A Peng Gao
%K wind power integration
%K electric load
%K thermal-electric coupling characteristics
%K information exchange
%K CHP dispatch model
%K load distribution
%K endothermic rates
%K CHP units
%K exothermic rates
%K heat coordinated dispatch model
%K electricity coordinated dispatch model
%K Newton–Raphson iterative method
%K combined heat and power units
%K multiagent model
%K wind curtailment
%K electric boiler with thermal storage
%K EBTS start-stop strategy
%K heat source
%X The thermal-electric coupling characteristics of combined heat and power (CHP) units make it critical problem to improve wind power accommodation ability in the heating season. This study establishes a CHP dispatch model for better integration of wind power based on electric boiler with thermal storage (EBTS). A start–stop strategy of EBTS is formulated that takes only the abandoned wind as the heat source. The electric boiler runs at maximum power during the wind curtailment, and the heat output of EBTS is changed by controlling the endothermic and exothermic rates of the thermal storage. Considering the scheduling difficulty of the CHP system with EBTS, the multi-agent model of heat and electricity is built. Through information exchange and load distribution between the agents, electric load is balanced by all units while thermal load by CHP units and EBTS. Finally, the Newton–Raphson iterative method is applied to solve the proposed model. The results of numerical examples validate effectiveness and economic improvement of the proposed method.
%@ 1751-8687
%T Research on heat and electricity coordinated dispatch model for better integration of wind power based on electric boiler with thermal storage
%B IET Generation, Transmission & Distribution
%D August 2018
%V 12
%N 15
%P 3736-3743
%I Institution of Engineering and Technology
%U https://digital-library.theiet.org/;jsessionid=bksn9t0h7iqf1.x-iet-live-01content/journals/10.1049/iet-gtd.2017.2032
%G EN