Abstract
This paper proposes a distributed control method based on a consensus algorithm for distributed energy resources (DERs) using blockchain as a secure communication medium for cyber resilience. Each DER communicates with a local blockchain server that is maintained by the distributed ledger technology to allow for securely sharing local measurements among neighboring assets to achieve the global control objectives, i.e., voltage and frequency regulation as well as accurate power sharing among the DERs, including collective grid-forming capability. To prove that the distributed control can retain system stability under a blockchain-induced variable communication delay, Lyapunov function-based stability analysis is carried out. This paper demonstrates the concept on an 11-bus test case developed in MATLAB Simulink, which has been modified from the IEEE 9-bus test case, to study dynamic operations of the five inverter-based DERs working with a blockchain-induced variable delay. The results validate the superior performance of the proposed control method, compared to heavily compromised operations of the other test cases without the security measure, affected by heavy communication delays and communication interruptions.
Original language | American English |
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Number of pages | 10 |
State | Published - 2021 |
Event | IEEE Workshop on Control and Modeling for Power Electronics - Duration: 2 Nov 2021 → 5 Nov 2021 |
Conference
Conference | IEEE Workshop on Control and Modeling for Power Electronics |
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Period | 2/11/21 → 5/11/21 |
Bibliographical note
See NREL/CP-5D00-82278 for paper as published in proceedingsNREL Publication Number
- NREL/CP-5D00-78958
Keywords
- blockchain
- consensus algorithm
- cyber-resilient inverter control
- distributed control
- distributed ledger
- grid-forming inverter