Study on Thermal Storage Device Model and Control Strategy for Cogeneration and Wind Power Heating System

Le Ping Zhang; Lei Chen; Xiao Wang; Peng Huang; Mao Sheng Ding; Juan Li

doi:10.4028/www.scientific.net/AMM.740.460

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 740Study on Thermal Storage Device Model and Control...

Study on Thermal Storage Device Model and Control Strategy for Cogeneration and Wind Power Heating System

Abstract:

Resources of wind power due to its presence greater volatility, increasing the difficulty of regulating for the power grid. In the supply side, by installing thermal storage device to the cogeneration units so as to increase the adjusting capacity in the supply side of the power system, in the load side, the wind power heating system added heat storage device, increasing the load that can be adjusted. These two measures could be better to solve the problem that part of the abandoned wind. In this paper, analyzed the theoretical basis of each system briefly, added thermal storage device in electric –thermal combine system, and the thermal storage device installation position has been described too. Due mostly theoretical on thermal storage device is about the thermodynamic aspects, it is rather strange for electricity workers, so in this electrical-thermal combined system, its thermal storage devices and electric boiler thermal model have been made a simple analysis and described its control strategy. The control strategy was a comprehensive coordination to the power grid, meanwhile, taking into account the hysteresis characteristics, delay effects and daily regulation plan features of the thermodynamic parameters of thermal storage system make a reasonable start-stop control strategy finally.

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Periodical:

Applied Mechanics and Materials (Volume 740)

Pages:

460-465

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.740.460

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Online since:

March 2015

Authors:

Le Ping Zhang*, Lei Chen, Xiao Wang, Peng Huang, Mao Sheng Ding, Juan Li

Keywords:

Cogeneration, Control Strategy, Thermal Storage, Wind Power Consumption, Wind Power for Heating

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* - Corresponding Author

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