Structure and Model Analysis of Power Carbon Bank Considering Demand Side Response
With the growth of renewable energy and electricity load,the peak-valley difference between source and load in the power grid continues to increase,however conventional peak regulation is more expensive and cause greater carbon e-missions.Based on open and transparency,autonomy,decentralization and other characteristics of blockchain technology,this paper proposes a peak shaving method that considers the load side response.The structure of the power carbon bank is proposed to change from"source follows load"to"source-load interaction"mode,which shifts the electricity demand from peak hours to troughs and reduces the load without affecting the load demand.The load control model and algorithm are proposed to guide users to actively participate in the peak-valley regulation in the power grid,which can achieve precision and efficiency in the load regulation process.Finally,combined with the electricity consumption data of a certain area,the application of the power carbon bank's regulation method has been verified to achieve effective and rapid reduction in load peak of the power grid,and improved safety and stability margin of grid operation.
demand side responseblockchainpower carbon bankpeak-valley regulation
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