摘要
研究能源区块链驱动的分布式电力交易系统设计。通过整合POW共识算法的电力交易工作流程、能源区块链平台的架构探索以及优化电力交易流程,探讨分布式电力市场的可行性和经济潜力。研究结果表明,太阳能光伏发电功率与挖矿成本之间存在密切联系,需要根据光照和功率波动调整电力交易策略以降低成本。改进的连续双向拍卖模式通过智能合约提高了交易效率,同时区块链技术确保了交易的安全和透明性,可以为未来电力市场的可持续性和创新提供参考。
The research focuses on the design of distributed power trading systems driven by energy block chain.By integrating the power trading workflow of POW consensus algorithm,exploring the architecture of the energy block chain platform,and optimizing the power trading process,the feasibility and economic potential of a distributed power market are explored.The research results indicate that there is a close relationship between solar photovoltaic power generation power and mining costs,and it is necessary to adjust power trading strategies based on light and power fluctuations to reduce costs.The improved continuous bidirectional auction model improves transaction efficiency through smart contracts,while block chain technology ensures the security and transparency of transactions,which may provide reference for the sustainability and innovation of the future electricity market.
作者
谢文
嵇士杰
纪鹏
齐宇蓉
王赢方
XIE Wen;JI Shijie;JI Peng;QI Yurong;WANG Yingfang(Beijing Power Exchange Center Co.,Ltd.,Beijing 100031,China;State Grid Info&Telecom Group Co.,Ltd.,Beijing 102209,China)
出处
《微型电脑应用》
2024年第8期96-99,共4页
Microcomputer Applications
基金
国家电网有限公司技术研究服务项目资助(SGZB0000JYJS2300379)。
