Type to search

Environment Featured

Slipstream to lead $1.4M energy resilience plan for Lares’ Castañer sector

The US Department of Energy Solar Energy Technologies Office has selected Slipstream Group, Inc. to lead a team that will receive a $1.4 million award to develop an innovative, community-based, energy resilience plan for the community of Castañer in Lares to assist the local utility in developing tools to restore power faster after extreme weather events.

The team includes the Interstate Renewable Energy Council (IREC), Luma Energy, La Cooperativa Hidroeléctrica de la Montaña, ACE IoT Solutions, and Texas A&M University.

The award is part of the Renewables Advancing Community Energy Resilience (RACER) funding program, an effort to increase the resilience of energy systems to help communities withstand and recover rapidly from disasters.

The three-year project builds on an existing multi-property microgrid at Castañer developed by IREC and La Cooperativa Hidroeléctrica de Montaña. The local electric cooperative owns and operates the microgrid, which uses distributed energy resources (DERs) including solar energy and battery storage.

IREC will lead the initial stages of the project, in which its program staff will identify and engage community stakeholders in a collaborative planning process to define the energy vulnerabilities and community resources. Through this process, the community itself will determine what systems, outcomes, and resources the project should prioritize.

“When the power goes out in Puerto Rico, it can last for days, weeks, and months — as we saw during Hurricane María in 2017 and Hurricane Fiona this year,” said Carlos Alberto Velázquez, program director at IREC.

“By using an inclusive planning approach, the community will define for itself what resiliency means so that the people of Castañer can maintain the energy services that are the most essential to them; this model of engagement can also be replicated in other communities to define locally-tailored resilience plans,” he said.

Following the planning process, Slipstream’s research team and its partners will design, test, and deploy an automated sensing and control system that coordinates and maximizes the solar PV system and microgrid to improve community energy resilience.

The sensing and control system is based on the Volttron open-source software platform, which uses internet-of-things and cloud technologies to enable devices to share grid status information between the community and the utility.

“We will conduct research and development in lab settings to create a lab-scale sensing and control system and test an automation strategy for behind-the-meter DER coordination and optimization,” said Xiaohui “Joe” Zhou, director of Research and Innovation at Slipstream and the principal investigator on the project. “This strategy will allow us to meet the priorities that emerge from the community resilience plan.”

When finished, the project will prove that DERs can be coordinated and optimized for improved community energy resilience in the face of natural disasters or other unexpected events.

“The successful demonstration of these technologies will provide Puerto Rico’s electric utility, LUMA, with another tool for power restoration planning. The long-term hope is that this microgrid project will be the first of many across the island that can be leveraged by LUMA to restore power more quickly after outages,” project representatives said.

“We know that access to reliable and affordable electricity is an issue of foremost concern in Puerto Rico,” said Larry Sherwood, CEO of IREC. “At IREC, we’re excited to join Slipstream and other partners to help a community use these innovative technologies to become more resilient during future interruptions to the power grid.”

IREC is also currently involved in a second microgrid development project in Maricao, as News is my Business reported.

Author Details
Author Details
This story was written by our staff based on a press release.
Tags:

Leave a Comment

Your email address will not be published. Required fields are marked *