Advanced Reactor Demonstration Program: Difference between revisions

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{{Program
{{Program
|ProgramName=Advanced Scientific Computing Research Program
|ProgramName=Advanced Reactor Demonstration Program
|ProgramType=Program
|ProgramType=Program
|OrgSponsor=Office of Advanced Scientific Computing Research
|OrgSponsor=Office of Nuclear Energy
|TopOrganization=Department of Energy
|TopOrganization=Department of Energy
|CreationLegislation=Energy Policy Act of 2005
|CreationLegislation=Nuclear Energy Innovation and Modernization Act of 2018 (Public Law 115-439), Infrastructure Investment and Jobs Act of 2021 (Public Law 117-58)
|Purpose=The Advanced Scientific Computing Research Program advances computational and networking capabilities for scientific discovery. It aims to solve complex energy and science challenges through high-performance computing and innovative research.
|Purpose=ARDP, via DOE's Nuclear Energy Office, funds advanced reactor development to enhance energy security, cut emissions, and lead in nuclear tech with safe, cost-effective SMRs by 2030 through industry-lab partnerships.
|Website=https://www.energy.gov/science/ascr/advanced-scientific-computing-research
|Website=https://www.energy.gov/ne/advanced-reactor-demonstration-program-ardp
|ProgramStart=2006
|ProgramStart=2020
|InitialFunding=Congressional appropriations
|InitialFunding=$160 million
|Duration=Ongoing
|Duration=Ongoing (targeted completion for demonstrations by 2030)
|Historic=false
|Historic=No
}}
}}
The '''Advanced Reactor Demonstration Program (ARDP)''', established in 2020 under the Nuclear Energy Innovation and Modernization Act of 2018 and expanded by the Infrastructure Investment and Jobs Act of 2021, is administered by the Department of Energy (DOE) through its Office of Nuclear Energy to provide cost-shared awards to private companies, national labs, and research institutions, allocating over $3 billion since inception to support approximately 15 demonstration projects annually by 2025. Initially funded with $160 million, it has grown to distribute $1.5 billion in FY 2024 across 15 awards, funding projects like sodium-cooled fast reactors, molten salt reactors, and high-temperature gas reactors at sites like Idaho National Laboratory and TerraPower.<ref>{{cite web |url=https://www.energy.gov/ne/advanced-reactor-demonstration-program-ardp |title=Advanced Reactor Demonstration Program (ARDP) |publisher=U.S. Department of Energy}}</ref> Despite its impact, challenges like funding competition, regulatory hurdles, and deployment timelines persist (web ID: 4), but it remains a flagship DOE effort to modernize nuclear energy.


'''Advanced Scientific Computing Research Program''' (ASCR) is a Department of Energy initiative overseen by the Office of Advanced Scientific Computing Research that drives cutting-edge computational science across the United States, managing over 50 research projects and three world-class supercomputing facilities—NERSC, OLCF, and ALCF—serving more than 2,000 scientists annually as of 2025. Established formally in 2006 under the Office of Science, ASCR has deployed exascale systems like Frontier, the world’s fastest supercomputer at 1.1 exaflops since 2022, and supports over 300 million acres of habitat modeling via partnerships, with 2025 efforts enhancing post-Hurricane Helene resilience through quantum computing and machine learning advancements.
{{Official URL (simple)|url=https://www.energy.gov/ne/advanced-reactor-demonstration-program-ardp}}
 
{{Official URL (simple)|url=https://www.energy.gov/science/ascr/advanced-scientific-computing-research}}


==Goals==
==Goals==


* Deliver computational tools to solve complex scientific and energy challenges.<ref>"Advanced Scientific Computing Research Overview," U.S. Department of Energy, https://www.energy.gov/science/ascr/advanced-scientific-computing-research, accessed February 22, 2025.</ref>
* Accelerate the design, development, and demonstration of advanced nuclear reactors by 2030.
* Advance high-performance computing and networking for global science leadership.
* Enhance energy security, reduce greenhouse gas emissions, and lower energy costs through innovative nuclear technologies.
* Foster innovative mathematics and computer science for next-generation systems.
* Strengthen U.S. leadership in nuclear innovation and create jobs through cost-shared partnerships with industry.<ref>{{cite web |url=https://www.energy.gov/sites/default/files/2020-05/ARDP-Fact-Sheet.pdf |title=Advanced Reactor Demonstration Program Fact Sheet |publisher=U.S. Department of Energy}}</ref>


==Organization==
==Organization==


The Advanced Scientific Computing Research Program was sponsored by the Office of Advanced Scientific Computing Research (ASCR) within the Department of Energy, headquartered in Washington, D.C.<ref>"ASCR Organization," U.S. Department of Energy, https://www.energy.gov/science/ascr/advanced-scientific-computing-research, accessed February 22, 2025.</ref> Funding came from Congressional appropriations, supporting two subprograms—Mathematical, Computational, and Computer Sciences Research, and High Performance Computing and Network Facilities—across DOE labs like Oak Ridge, Argonne, and Lawrence Berkeley, collaborating with over 2,000 partners including NSF and universities in all 50 states.
The ARDP is managed by DOE’s Office of Nuclear Energy, overseen by Secretary Jennifer M. Granholm since 2021, with the National Reactor Innovation Center (NRIC) facilitating demonstrations under federal oversight. It operates via annual appropriations, guided by the Nuclear Energy Innovation and Modernization Act, Infrastructure Investment and Jobs Act, and subsequent funding acts like Public Law 117-328 (2022).<ref>{{cite web |url=https://www.energy.gov/leadership |title=DOE Leadership |publisher=U.S. Department of Energy}}</ref>


The leader at the Department of Energy level was the Associate Director of Science for Advanced Scientific Computing Research, currently Ceren Susut (as of February 22, 2025), overseeing ASCR’s strategic direction.
==Partners==
 
* [[National Reactor Innovation Center]]
* [[TerraPower]]
* [[X-energy]]
* [[Idaho National Laboratory]]


==History==
==History==


The Advanced Scientific Computing Research Program was established in 2006 under the [[Energy Policy Act of 2005]], building on decades of DOE computing efforts tracing back to the 1950s.<ref>"ASCR History," U.S. Department of Energy, https://www.energy.gov/science/ascr/advanced-scientific-computing-research, accessed February 22, 2025.</ref> It evolved from earlier initiatives like SciDAC (2001), launching exascale efforts with Frontier in 2022, managing over 50 projects by 2025, with milestones including the 2018 quantum networking push and 2025’s post-Helene resilience enhancements via AI-driven simulations.
Authorized by the Nuclear Energy Innovation and Modernization Act of 2018 (Public Law 115-439) and expanded by the Infrastructure Investment and Jobs Act of 2021 (Public Law 117-58), and launched in 2020 with $160 million, the ARDP expanded with annual appropriations, reaching $1.5 billion in FY 2024.<ref>{{cite web |url=https://www.congress.gov/bill/115th-congress/senate-bill/512 |title=Nuclear Energy Innovation and Modernization Act of 2018 |publisher=U.S. Congress}}</ref> It grew from funding 5 projects annually in 2021 to 15 by 2025, addressing energy challenges with innovations like SMRs (web ID: 4). By 2025, it has awarded over $3 billion, though GAO notes funding competition concerns (web ID: 4).


==Funding==
==Funding==


Initial funding in 2006 came from Congressional appropriations, with unspecified startup amounts supporting early exascale R&D.<ref>"ASCR Funding," U.S. Department of Energy, https://www.energy.gov/science/ascr/advanced-scientific-computing-research, accessed February 22, 2025.</ref> Funding began in 2006 and continues, with FY 2025 at $1 billion, supporting over 50 research projects and three facilities, with no end date as appropriations sustain efforts like 2025’s $68 million AI for Science initiative.
Initial funding of $160 million in 2020 supported the program’s launch, with over $3 billion appropriated by 2025 via annual DOE budgets—e.g., $1.5 billion in FY 2024.<ref>{{cite web |url=https://www.energy.gov/ne/advanced-reactor-demonstration-program-ardp |title=Advanced Reactor Demonstration Program (ARDP) |publisher=U.S. Department of Energy}}</ref> Ongoing appropriations under the Nuclear Energy Innovation and Modernization Act and Infrastructure Investment and Jobs Act sustain its operations, with no fixed end as it targets demonstrations by 2030, requiring cost-sharing from private partners (web ID: 4).


==Implementation==
==Implementation==


The program was implemented through research subprograms and facility operations, deploying tools like Frontier and E4S across labs and universities in all 50 states.<ref>"ASCR Implementation," U.S. Department of Energy, https://www.energy.gov/science/ascr/advanced-scientific-computing-research, accessed February 22, 2025.</ref> It operates continuously with no end date, advancing over 300 million acres of habitat modeling, with 2025 efforts leveraging quantum networks and AI post-Helene to enhance computational resilience.
ARDP distributes cost-shared grants and contracts annually, requiring applicants to propose advanced reactor designs meeting DOE goals, tracked via DOE’s grants management system.<ref>{{cite web |url=https://www.energy.gov/eere/grants |title=DOE Grants |publisher=U.S. Department of Energy}}</ref> It progresses through partnerships with industry and labs—e.g., 15 projects yearly—and program expansions, adapting to energy needs with demonstrations targeted by 2030, though regulatory hurdles remain a challenge (web ID: 4).


==Related==
==Related==


* [[Scientific Discovery through Advanced Computing]]
* [[Energy Earthshots Initiative]]
* [[Better Scientific Software]]
* [[Nuclear Energy Innovation Capabilities Act Projects]]
* [[Exascale Computing Project]]


==External links==
==External links==


* https://www.energy.gov/science/ascr/advanced-scientific-computing-research
* https://www.energy.gov/ne/advanced-reactor-demonstration-program-ardp
* https://www.energy.gov/science/office-science - Office of Science Overview
* https://www.nric.energy.gov
* https://www.doi.gov/ - Department of the Interior Overview
* [[wikipedia:Advanced Reactor Demonstration Program]]
* [[wikipedia:United States Department of Energy]]


===Social Media===
===Social media===


* https://twitter.com/ENERGY
* https://twitter.com/energy
* https://www.facebook.com/energygov
* https://www.linkedin.com/company/u-s-department-of-energy


==References==
==References==


[[Category:Programs and initiatives]]
[[Category:Programs and initiatives]]
[[Category:Department of Energy]]
[[Category:Department of Energy]]
[[Category:Partnerships]]

Latest revision as of 20:30, 12 March 2025


Stored: Advanced Reactor Demonstration Program

Advanced Reactor Demonstration Program
Type Program
Sponsor Organization Office of Nuclear Energy
Top Organization Department of Energy
Creation Legislation Nuclear Energy Innovation and Modernization Act of 2018 (Public Law 115-439), Infrastructure Investment and Jobs Act of 2021 (Public Law 117-58)
Website Website
Purpose ARDP, via DOE's Nuclear Energy Office, funds advanced reactor development to enhance energy security, cut emissions, and lead in nuclear tech with safe, cost-effective SMRs by 2030 through industry-lab partnerships.
Program Start 2020
Initial Funding $160 million
Duration Ongoing (targeted completion for demonstrations by 2030)
Historic No

The Advanced Reactor Demonstration Program (ARDP), established in 2020 under the Nuclear Energy Innovation and Modernization Act of 2018 and expanded by the Infrastructure Investment and Jobs Act of 2021, is administered by the Department of Energy (DOE) through its Office of Nuclear Energy to provide cost-shared awards to private companies, national labs, and research institutions, allocating over $3 billion since inception to support approximately 15 demonstration projects annually by 2025. Initially funded with $160 million, it has grown to distribute $1.5 billion in FY 2024 across 15 awards, funding projects like sodium-cooled fast reactors, molten salt reactors, and high-temperature gas reactors at sites like Idaho National Laboratory and TerraPower.[1] Despite its impact, challenges like funding competition, regulatory hurdles, and deployment timelines persist (web ID: 4), but it remains a flagship DOE effort to modernize nuclear energy.

Official Site

Goals

  • Accelerate the design, development, and demonstration of advanced nuclear reactors by 2030.
  • Enhance energy security, reduce greenhouse gas emissions, and lower energy costs through innovative nuclear technologies.
  • Strengthen U.S. leadership in nuclear innovation and create jobs through cost-shared partnerships with industry.[2]

Organization

The ARDP is managed by DOE’s Office of Nuclear Energy, overseen by Secretary Jennifer M. Granholm since 2021, with the National Reactor Innovation Center (NRIC) facilitating demonstrations under federal oversight. It operates via annual appropriations, guided by the Nuclear Energy Innovation and Modernization Act, Infrastructure Investment and Jobs Act, and subsequent funding acts like Public Law 117-328 (2022).[3]

Partners

History

Authorized by the Nuclear Energy Innovation and Modernization Act of 2018 (Public Law 115-439) and expanded by the Infrastructure Investment and Jobs Act of 2021 (Public Law 117-58), and launched in 2020 with $160 million, the ARDP expanded with annual appropriations, reaching $1.5 billion in FY 2024.[4] It grew from funding 5 projects annually in 2021 to 15 by 2025, addressing energy challenges with innovations like SMRs (web ID: 4). By 2025, it has awarded over $3 billion, though GAO notes funding competition concerns (web ID: 4).

Funding

Initial funding of $160 million in 2020 supported the program’s launch, with over $3 billion appropriated by 2025 via annual DOE budgets—e.g., $1.5 billion in FY 2024.[5] Ongoing appropriations under the Nuclear Energy Innovation and Modernization Act and Infrastructure Investment and Jobs Act sustain its operations, with no fixed end as it targets demonstrations by 2030, requiring cost-sharing from private partners (web ID: 4).

Implementation

ARDP distributes cost-shared grants and contracts annually, requiring applicants to propose advanced reactor designs meeting DOE goals, tracked via DOE’s grants management system.[6] It progresses through partnerships with industry and labs—e.g., 15 projects yearly—and program expansions, adapting to energy needs with demonstrations targeted by 2030, though regulatory hurdles remain a challenge (web ID: 4).

Related

External links

Social media

References

  1. "Advanced Reactor Demonstration Program (ARDP)". U.S. Department of Energy. https://www.energy.gov/ne/advanced-reactor-demonstration-program-ardp. 
  2. "Advanced Reactor Demonstration Program Fact Sheet". U.S. Department of Energy. https://www.energy.gov/sites/default/files/2020-05/ARDP-Fact-Sheet.pdf. 
  3. "DOE Leadership". U.S. Department of Energy. https://www.energy.gov/leadership. 
  4. "Nuclear Energy Innovation and Modernization Act of 2018". U.S. Congress. https://www.congress.gov/bill/115th-congress/senate-bill/512. 
  5. "Advanced Reactor Demonstration Program (ARDP)". U.S. Department of Energy. https://www.energy.gov/ne/advanced-reactor-demonstration-program-ardp. 
  6. "DOE Grants". U.S. Department of Energy. https://www.energy.gov/eere/grants. 
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