A blockchain-powered demand response system is suggested to mitigate the minimal consumer engagement and insufficient transparency in existing demand response (DR) programmers. The framework is deployed on Hyperledger Fabric, within which to automate settlements and secure data exchange between stakeholders the smart contracts are implemented. Simulation in MATLAB is employed to analyze the strategy, which demonstrates that the peak demand decreases by 15%, energy expenses decrease by 20%, and customer engagement reaches seventy percent. The findings indicate that the framework presented is appropriate to increase supply-demand adequacy and offer a scalable solution to energy markets in the future.

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Blockchain-Enabled Demand Response: Designing Consumer-Centric Electricity Markets with Smart Contracts

  • Suha Sahib Oleiwi,
  • Lateef Abd Zaid Qudr,
  • Abdul Samad Bin Shibghatullah,
  • Sadiq T. Bunyan,
  • Safwan Nadweh,
  • Reyad Omran Essa,
  • Azmi Shawkat Abdulbaqi,
  • Salwan S. Hatif,
  • Dima Haider Rasheed,
  • Ahmed Dheyaa Radhi

摘要

A blockchain-powered demand response system is suggested to mitigate the minimal consumer engagement and insufficient transparency in existing demand response (DR) programmers. The framework is deployed on Hyperledger Fabric, within which to automate settlements and secure data exchange between stakeholders the smart contracts are implemented. Simulation in MATLAB is employed to analyze the strategy, which demonstrates that the peak demand decreases by 15%, energy expenses decrease by 20%, and customer engagement reaches seventy percent. The findings indicate that the framework presented is appropriate to increase supply-demand adequacy and offer a scalable solution to energy markets in the future.