A sybil-resilient and privacy-aware blockchain architecture for dynamic demand response in decentralized microgrids
Umar A. Jamwal P.K. Kumar D. Gupta N. Gali V. Kumar A.
October 2025Elsevier Ltd
Sustainable Energy Technologies and Assessments
2025#82
This study proposes a decentralized, blockchain-enabled demand response (DR) framework to address the limitations of traditional centralized DR systems, which often suffer from privacy vulnerabilities, single points of failure, and susceptibility to Sybil attacks. By combining a hybrid Proof-of-Stake (PoS) mechanism with dynamic reputation scoring, the framework ensures secure and Sybil-resilient validator selection for consensus. To preserve privacy, Zero-Knowledge Proofs (ZKPs), SNARKs are embedded into smart contracts, enabling verifiable energy transactions without revealing sensitive bid or identity information. A dynamic game-theoretic model is used to capture the strategic interactions of prosumers during DR events, with formal analysis proving convergence to the Nash equilibrium under practical load conditions. The system is implemented using Solidity on the Polygon Mainnet and evaluated with real residential data from the Pecan Street dataset. Experimental results demonstrate significant performance gains, including a 12% reduction in peak demand, a 10% increase in prosumer generation, 83% load-shifting efficiency, and a 5.26% improvement in cost savings compared to static demand-side management (DSM) schemes. Additionally, the framework effectively mitigates 99% of Sybil attacks and achieves consensus within 8 s for up to 1000 nodes, highlighting its scalability, security, and suitability for integration with national DR platforms, carbon credit markets, and autonomous multi-agent energy systems.
Demand response , Dynamic game theory , Microgrid , PoS consensus mechanism , Smart contract , Sybil attack
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Dept. of Electrical & Computer Engineering, Nazarbayev University, Astana, Kazakhstan
Dept. of Electrical & Electronics Engineering, Birla Institute of Technology, Ranchi, Mesra, India
Dept. of Electrical Engineering, Malaviya National Institute of Technology, Jaipur, India
Dept. of Electrical & Electronics Engineering, School of Physics, Engineering, Computer Science, University of Hertfordshire, Hatfield, United Kingdom
Dept. of Electrical Engineering, Punjab Engineering College, Chandigarh, India
Dept. of Electrical & Computer Engineering
Dept. of Electrical & Electronics Engineering
Dept. of Electrical Engineering
Dept. of Electrical & Electronics Engineering
Dept. of Electrical Engineering
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