GE to Demonstrate Grid Resilience Technology in Puerto Rico for Rapid Power Restoration Following Extreme Weather Events

GE to Demonstrate Grid Resilience Technology in Puerto Rico for Rapid Power Restoration Following Extreme Weather Events

With severe rainfall events like Hurricane Fiona ruinous communities and knocking out electricity for weeks before power can be completely restored, GE moment blazoned it has been awarded one of several systems supported by theU.S. Department of Energy( DOE) to develop new grid flexible technologies that allow communities to fleetly restore power following similar events. The total backing of GE’s design will be$4.5 million, with$ 3 million from the DOE and an assiduity cost- share of roughly$1.5 million.

GE Research, together with the public Renewable Energy Laboratory( NREL); LUMA Energy, which operates and manages the electrical grid in Puerto Rico; Sandia National Laboratories; and GE’s Renewable Energy and Digital businesses will develop and demonstrate an automated power restoration system in Puerto Rico that would enable a community to fleetly restore electricity following extreme rainfall events.

Bilgehan Donmez, a elderly mastermind in Electric Power Systems at GE Research and design leader, said GE’s result could serve as a model for communities to snappily restore power in the future following severe rainfall events, stating, “ Following Hurricane Fiona inmid-September, it took several weeks before numerous communities in Puerto Rico had their power completely restored. We ’re aiming to develop and demonstrate an automated power system in Puerto Rico that would cut the restoration time from weeks and indeed months to just hours or days. ”

GRC grid adaptability design platoon
Pictured left to right) design leader,Dr. Bilgehan Donmez, with GE Research grid adaptability platoon members, Sumit Bose, Maozhong Gong, Aditya Kumar, and Hullas Sehgal, in front of a GE inverter that’s part of the Research’s Lab’s 6 MW Future of Energy Outdoor Test Facility located on its Niskayuna, NY lot. The Test Facility, equipped with inverters, a solar array, and GE Reservoir energy storehouse units, represent crucial structure blocks of flexible power systems and are necessary to develop automated restoration results.
GE’s automated rapid-fire power restoration system will use detectors to collect outage data directly after a rainfall event occurs. The grid software will also reuse this data to fleetly assess power outage impacts in a given community and determine the most doable conduct to restore power. GE’s system will also automate this response through the dispatch of DER operation systems that tap into the solar and battery back- over power system to initiate a black launch, delivering electricity singly to communities until the larger grid network can be restored.

This design will integrate the moxie of GE’s Digital and Grid results businesses. structure on GE Digital’s Distributed Energy Resource Management System, called Opus One DERMS,, which enables electric serviceability to stoutly manage and orchestrate distributed energy coffers( DERs), black- launch service and the collaboration and nonstop operation of original coffers under extreme rainfall conditions will be crucial invention focus areas. The platoon also will develop new technologies using GE Grid Solution’s microgrid and GE Digital Grid Software’s DER operation results as structure blocks for real- time control and optimization of DERs and loads, with resiliency of community grids as the primary ideal.
Donmez noted that a crucial focus of the design will be to demonstrate an automated restoration system that could help underserved communities snappily restore power and recover from a severe rainfall event.

Donmez said, “ All too frequently, it’s the underserved communities that are the last to see electricity restored to their homes and businesses following a severe event. Our stopgap is that being suitable to automate the process for restoring power in these communities briskly, we will have a system that could serve all communities. Our demonstration design in Puerto Rico will serve as an necessary proving ground to develop, test, and validate our system. ”

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