Smart grid projects are transforming traditional power grids into more efficient, reliable, and sustainable systems worldwide123. Contact online >>
Smart grid projects are transforming traditional power grids into more efficient, reliable, and sustainable systems worldwide123.
Smart grid projects offer numerous benefits such as improved grid efficiency and better integration of renewable energy sources. However, they also face challenges including high investment costs, technological integration, and regulatory hurdles12347.
Objective: To develop the measurement science needed to advance the
The smart grid research plan consists of interrelated projects to advance
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Smart Grid Grants are designed to increase the flexibility, efficiency, and reliability of the electric power system, with particular focus on:
Smart grid technologies funded and deployed at scale through this program must demonstrate a pathway to wider market adoption. Smart Grid Grants will invest up to $3 billion ($600 million/year for Fiscal Years 2022-2026) in grid resilience technologies and solutions and is open to domestic entities including institutions of higher education; for-profit entities; non-profit entities; and state and local governmental entities, and tribal nations.
The program was previously funded by the Recovery Act of 2009. The Bipartisan Infrastructure Law expands on the existing program.
Visit Grid Resilience and Innovation Partnerships Program to learn more.
On October 18, 2024, the U.S. Department of Energy announced nearly $2 billion for 32 projects that will protect the U.S. power grid against growing threats of extreme weather, lower costs for communities, and increase grid capacity to meet load growth stemming from an increase in manufacturing, data centers, and electrification. This includes 24 projects selected under Smart Grid Grants. See the full list of projects.
On October 18, 2023, the U.S. Department of Energy announced up to $3.46 billion in Grid Resilience and Innovation Partnerships (GRIP) Program investments for 58 projects across 44 states to strengthen electric grid resilience and reliability across America. This includes 34 projects selected under Smart Grid Grants. See the full list of projects.
The Grid Resilience and Innovation Partnerships (GRIP) Program is participating in theClean Energy Innovator Fellowships, a unique workforce development program that matches recent graduates and new energy professionals to key energy organizations to support efforts to advance clean energy solutions.
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Objective:This project leads, coordinates and manages the national public-private stakeholder partnership effort to accelerate development of interoperability standards for the smart grid, fulfilling NIST''s statutory responsibility under the Energy Independence and Security Act of 2007 (EISA), and provides programmatic leadership of NIST-wide smart grid measurement science research.
Publication of the Smart Grid Interoperability Framework Revision 4.0 identifies a broad list of research needs for smart grid interoperability. The areas of grid operations, economics, cybersecurity, and testing and certification all have significant knowledge and performance gaps which require improved measurement and characterization of system phenomena, as well as requirements definition to improve system function through interoperability. Work is underway to advance related research efforts.
What is the research plan?The project has three components: Smart Grid Secretariat, Stakeholder Engagement Activities, and Smart Grid Measurement Science Program Development and Management.
The Smart Grid Secretariat actively promotes the results of NIST''s smart grid program through publications in industry journals and invited talks at technical programs of major smart grid conferences and workshops. These opportunities showcase the results of the NIST Smart Grid Program and its impact.
In 2017 SGIP merged with the Smart Electric Power Alliance, ushering in the next phase of the public-private partnership. NIST Smart Grid Program staff have since continued to hold leadership positions in various SEPA standing committees and working groups, including: Testing and Certification Working Group, Cybersecurity Working Group, Grid Architecture Working Group. In addition, NIST staff serves as ex-officio members on the SEPA Technical Advisory Committee.
NIST''s relationship with SEPA has migrated to a grant structure based on specific and desired technical contributions to the grid community. These technical activities include: Maintaining and updating the Smart Grid Catalogue of Standards; developing a new Catalogue of Test Programs; and most importantly developing a community of support and technical content for interoperability profiles and open source test harnesses—two critical standards testing and certification gaps identified as part of the Interoperability Framework 4.0.
NIST''s stakeholder engagement activities are also accelerating with organizations other than SEPA. For example, in FY19 NIST held four regional workshops in partnership with the National Association of Regulatory Utility Commissioners. For FY20, this partnership will evolve to develop educational materials with NARUC to facilitate regulator awareness on Framework 4.0 priorities, including incorporating testing and certification requirements into regulatory language and updated perspectives on cybersecurity for the smart grid.
Collaborations with the Net Zero House Facility have previously allowed Smart Grid Program staff to conduct impedance measurements of the house to complement smart meter performance work conducted in PML. In FY21, this collaboration will expand to recording harmonic distortions of typical household appliances (such as heat pumps, water heaters, etc.) that will complement similar work done in the Smart Grid Testbed and with PML. The goal is for NIST to combine these different workstreams create an analytical model of the impact of customer-facing distortions in electrical waveforms at the point of common coupling with the grid, which has not been done yet in the literature but is much more important than characterizing these waveforms at the source.
About Smart grid related projects
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