Abstract
This article presents the performance evaluation of ratio consensus-based distributed power apportioning engine along with centralized net load management (NLM) engine that ensures viable and stable operation of an islanded microgrid. Managing net load variability in a microgrid with high penetrations of uncertain renewable generation and ever-changing load demands is a crucial need in order to ensure viable and stable operation of the microgrid. Centralized “dispatch-rule”-based and/or multi-agent-based distributed control of distributed energy resources (DERs) in microgrid are well accepted for microgrid by adapting ANSI/ISA-95-based hierarchical control architecture. In the application where microgrid network has large geographical span with multiple DERs dispersed in the network, high penetration of uncertain renewable energy resources, and ever-changing load demands, a judicious selection of techniques/solutions for managing net-load resources for maintaining viability and stability is required. With this motivation, this article proposes a novel solution to mitigate the challenges by incorporating a mixed centralized NLM engine and distributed power apportioning control of DERs and loads. A power-hardware-in-the-loop (PHIL) -based experiment is conducted with the centralized NLM engine and the distributed power apportioning engine along with two commercial inverters. The experimental results validates the efficacy of the proposed method in ensuring viability and stability of a microgrid.
Original language | American English |
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Number of pages | 6 |
DOIs | |
State | Published - 2023 |
Event | North American Power Symposium - Asheville, NC Duration: 15 Oct 2023 → 17 Oct 2023 |
Conference
Conference | North American Power Symposium |
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City | Asheville, NC |
Period | 15/10/23 → 17/10/23 |
NREL Publication Number
- NREL/CP-5D00-88575
Keywords
- hardware-in-the-loop simulation
- inverters
- load management
- microgrids
- performance evaluation
- renewable energy sources
- stability analysis