Decentralized energy supply chain networks using blockchain and IoT
1 Kent Business School, University of Kent, UK.
2 Independent Researcher, Portharcourt Nigeria.
3 Independent Researcher, Lagos Nigeria.
Review
International Journal of Scholarly Research in Multidisciplinary Studies, 2023, 02(02), 066-085.
Article DOI: 10.56781/ijsrms.2023.2.2.0055
Publication history:
Received on 12 April 2023; revised on 08 June 2023; accepted on 11 June 2023
Abstract:
The integration of Blockchain and Internet of Things (IoT) technologies into decentralized energy supply chain networks offers transformative potential for enhancing efficiency, security, and transparency. This paper explores the application of Blockchain and IoT in creating decentralized, resilient, and transparent energy supply chains. Blockchain's ability to provide secure, immutable, and transparent transaction records, combined with IoT’s real-time data collection and monitoring capabilities, enables the creation of a more efficient energy distribution system. In decentralized energy systems, energy producers, consumers, and other stakeholders can interact directly, bypassing traditional intermediaries, which reduces costs and increases operational transparency. Blockchain technology facilitates peer-to-peer energy trading, ensuring secure and transparent transactions between producers and consumers. This reduces the reliance on centralized grid systems and fosters the growth of microgrids, allowing local communities to generate, store, and trade energy autonomously. IoT devices further enhance this by enabling real-time monitoring of energy generation, storage, consumption, and distribution, ensuring optimal resource management and reducing waste. Through sensors and connected devices, IoT enables energy networks to operate with greater precision, responding in real-time to fluctuations in supply and demand. The combination of Blockchain and IoT also ensures the security of decentralized networks by preventing unauthorized access and cyberattacks, providing a robust framework for energy transactions. Additionally, these technologies support greater traceability and accountability, facilitating compliance with regulatory standards and sustainability goals. This paper discusses the benefits and challenges of implementing Blockchain and IoT in decentralized energy supply chains, including issues of scalability, integration, and regulatory hurdles. Moreover, it examines the future potential of these technologies in revolutionizing energy systems by promoting sustainability, reducing costs, and enhancing supply chain resilience. In conclusion, Blockchain and IoT hold immense promise in reshaping the energy supply chain by enabling decentralized, transparent, and efficient operations. This paper highlights their transformative role in enhancing the energy sector’s security, efficiency, and sustainability.
Keywords:
Blockchain; IoT; Decentralized Energy; Energy Supply Chain; Peer-To-Peer Energy Trading; Microgrids; Real-Time Monitoring; Energy Security; Sustainability; Transparency.
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Copyright © 2023 Author(s) retain the copyright of this article. This article is published under the terms of the Creative Commons Attribution Liscense 4.0