High Renewable Energy Penetrations within Isolated and Remote Area Power Systems
* 21PESGM2466, Cost-efficient strategies for achieving high renewable energy penetration in isolated power systems: M. NEGNEVITSKY, Univ. of Tasmania * 21PESGM2467, Robust Security Constrained Unit Commitment for Islands with High Renewable Energy Penetration: N. HATZIARGYRIOU, NTUA * 21PESGM2468, Benefits of Predictive battery storage dispatch in isolated power systems: D. NIKOLIC, Enernet GLOBAL * 21PESGM2469, Enhancing flexibility, reliability, and resilience of isolated power systems via variable speed diesel integration: J. HAMILTON, University of Tasmania * 21PESGM2470, DER Integration for a Resilient Puerto Rico Grid: D. STENCLIK, Telos Energy, Inc. * 21PESGM2475, Batteries for Remote Grids: Enabling Beneficial Electrification: R. ROCHELEAU, Hawaii Natural Energy Institute
-
Members: $5.00PES
IEEE Members: $10.00
Non-members: $20.00
26 Jul 2021
Isolated and Remote Area Power Systems utilizing renewable energy technologies to satisfy the majority (>50%) of their annual energy consumption are evaluated within this panel session. Isolated power systems face significant challenges under high renewable energy penetrations given the lack of system size and inertia. Papers presenting solutions to optimize system cost and performance, possibly involving renewable energy technologies, ancillary technologies or control and application methodologies are requested.
Chairs:
Michael Negnevitsky, Univ. of Tasmania
Sponsor Committees:
Energy Development and Power Generation
