Abstract:

The synergy of clean energy and electric vehicles (EVs) is highly relevant in achieving low-carbon development. To promote the coordinated development of EVs and photovoltaics (PV) under the background of open power selling, a PV–EV bidding model that considers carbon emissions based on the distributed storage and smart contract technology of a blockchain is proposed in this study. This model aims to provide economic benefits to market players, ensure power grid operations' safety and environmental protection, and integrate the ladder-type carbon emission trading mechanism. Then, it divides the electricity market into the electricity sales layer, i.e., active distribution networks (ADNs) and PV systems, and the electricity purchase layer, i.e., EVs. Smart contracts are signed with the agent layer, i.e., charging stations. The improved particle swarm optimization algorithm is used to solve the price and power of PV systems and EVs in the optimal contract, and the revenue of PV systems and EVs can be increased by over 35%. Moreover, the orderly charging and discharging of EVs is coordinated with the characteristics of PV systems' daily power generation and evening load peaks.