High-Performance Computing for Energy Innovation Program: Collaboration for U.S. Manufacturers
ID: HPC4EIFall24SolicitationType: Solicitation
Overview

Buyer

ENERGY, DEPARTMENT OFENERGY, DEPARTMENT OFLLNS – DOE CONTRACTORLivermore, CA, 94551, USA

NAICS

Research and Development in the Physical, Engineering, and Life SciencesT (54171)

PSC

GENERAL SCIENCE AND TECHNOLOGY R&D SERVICES; GENERAL SCIENCE AND TECHNOLOGY; APPLIED RESEARCH (AJ12)
Timeline
    Description

    The Department of Energy (DOE) is seeking qualified industry partners to participate in the High-Performance Computing for Energy Innovation (HPC4EI) program, which aims to facilitate short-term collaborative projects with U.S. manufacturers to address energy efficiency and decarbonization challenges. The program encompasses two main areas: High-Performance Computing for Manufacturing (HPC4Mfg), focused on improving manufacturing processes and energy technologies, and High-Performance Computing for Materials (HPC4Mtls), aimed at developing materials for challenging environments. Selected projects may receive funding of up to $400,000, contingent upon a 20% contribution from non-federal sources, with an emphasis on partnerships that promote diversity and equitable access to HPC resources. Interested parties can contact Aaron Fisher at fisher47@llnl.gov or 925-422-3950 for more information, and are encouraged to submit concept papers and full proposals as part of the solicitation process.

    Point(s) of Contact
    Files
    Title
    Posted
    The High-Performance Computing for Energy Innovation (HPC4EI) program facilitates short-term collaborative projects between U.S. manufacturers and the Department of Energy (DOE) national laboratories, aiming to leverage high-performance computing (HPC) to address energy efficiency and decarbonization challenges. These projects encompass two focal areas: HPC for Manufacturing (HPC4Mfg), which improves manufacturing processes and energy technologies' efficiency, and HPC for Materials (HPC4Mtls), which advances the development of materials for challenging environments. Eligible participants include U.S. manufacturers and supportive organizations, with an emphasis on diverse collaborative efforts with institutions from disadvantaged communities to promote equitable access to HPC resources. Projects may receive up to $400,000, contingent upon a 20% industry contribution from non-federal sources. Both Phase I and II projects are encouraged, emphasizing the further application of successful HPC technologies in industrial settings. The program showcases the DOE's commitment to utilizing advanced computing resources to drive innovations that can significantly impact the national energy landscape while fostering collaboration across sectors. The solicitation process requires submission of concept papers and full proposals, evaluated based on the project's technical merit, feasibility, relevance to HPC, and anticipated national impact in terms of energy savings and emissions reductions.
    Similar Opportunities
    Manufacturing Demonstration Facility: Technology Collaborations for US Manufacturers in Advanced Manufacturing and Materials Technologies
    Active
    Energy, Department Of
    The Department of Energy, through the Oak Ridge National Laboratory (ORNL), is seeking industry partners for collaborative projects aimed at developing energy-efficient manufacturing technologies within its Manufacturing Demonstration Facility (MDF). The initiative focuses on reducing manufacturing energy intensity and enhancing U.S. competitiveness by inviting proposals from industries engaged in material processing, particularly in advanced manufacturing technologies such as additive manufacturing and carbon fiber composites. Participants must provide at least a 50% cost share, and projects will be evaluated based on technical feasibility, potential for commercialization, and energy savings. Proposals can be submitted via email to MDFcollaboration@ornl.gov, and the submission period remains open, contingent on funding availability from the DOE Advanced Manufacturing Office.
    Grid Research Integration and Deployment Center Technology Collaborations for US Power Electronics Industries
    Active
    Energy, Department Of
    The Department of Energy's Oak Ridge National Laboratory (ORNL) is seeking U.S. industry partners for collaborative projects at its Grid Research Integration and Deployment Center (GRID-C) to advance power electronics technologies for grid modernization. ORNL invites cost-shared proposals from industries aligned with its facilities and expertise in areas such as Materials & Components, Embedded Controllers, and Subsystems Devices. Selected partners will work closely with ORNL staff, leveraging its unique capabilities to demonstrate innovative grid integration solutions. The focus is on accelerating the development of resilient and energy-efficient power electronics, with projects conducted in short timeframes. Industry participants are required to contribute at least 20% of the project cost, which can include in-kind contributions, and must align with ORNL's facilities and capabilities. GRID-C collaborations aim to strengthen the U.S. power electronics industry and clean energy landscape. Proposals are evaluated based on technical feasibility, commercialization potential, and their impact on grid improvement. This initiative supports the DOE Transformer Resilience and Advanced Components (TRAC) Program's mission. For more details, eligible industries should refer to the proposal guidelines and contact Dr. Madhu Chinthavali for inquiries. The announcement remains open, with funding available through the DOE contract.
    Community Microgrid Development Partnership Awards
    Active
    Energy, Department Of
    The Department of Energy, through the National Renewable Energy Laboratory (NREL), is soliciting proposals for the Community Microgrid Development Partnership Awards (C-MAP), aimed at enhancing energy systems in underserved and Indigenous communities. This initiative seeks to provide funding and technical assistance to support the development and improvement of microgrid systems, focusing on integrating locally available renewable energy sources and innovative technologies. The program is crucial for addressing energy resilience and efficiency in communities that often rely on imported fossil fuels, thereby promoting sustainable energy solutions. Interested applicants, including non-profits, local governments, and Tribal organizations, must submit their proposals by December 20, 2024, with an estimated total funding of $7.2 million available for approximately 15 projects. For further inquiries, contact Kyndall Jackson at Kyndall.Jackson@nrel.gov.
    INL Innovation Spotlight H2 CURE: Transforming Carbon Emissions into Clean Hydrogen Energy
    Active
    Energy, Department Of
    The Department of Energy, through the Battelle Energy Alliance at the Idaho National Laboratory, is seeking partners for the H2 CURE initiative, which focuses on transforming carbon emissions into clean hydrogen energy. This innovative technology aims to convert CO2 into hydrogen while achieving net-negative emissions, thereby addressing the urgent need for sustainable industrial processes and contributing to global emission reduction efforts. The H2 CURE process not only produces hydrogen for thermal energy applications but also generates a commercially viable carbonate salt byproduct, enhancing its economic appeal. Interested parties can reach out to Andrew Rankin at andrew.rankin@inl.gov for further engagement and to explore licensing opportunities related to this technology.
    Open-Source Software: Empowering Energy Analysts with Stochastic Technoeconomic Assessments with HERON
    Active
    Energy, Department Of
    The Department of Energy is seeking to enhance the capabilities of energy analysts through the development of the HERON toolset, which focuses on stochastic technoeconomic assessments for grid-energy systems. This initiative aims to provide a transformative solution that accelerates economic viability analysis by integrating advanced stochastic modeling, thereby addressing the complexities associated with the increasing reliance on variable renewable energy sources. HERON is designed to streamline the analysis process, making sophisticated technoeconomic assessments accessible to a broader audience, including energy analysts, academic researchers, and utility companies. For further information, interested parties can contact Andrew Rankin at andrew.rankin@inl.gov.
    Open-Source Software: Transforming Integrated Energy Systems Analysis with FORCE
    Active
    Energy, Department Of
    The Department of Energy is seeking to enhance the analysis of integrated energy systems (IES) through the development of an open-source software platform known as FORCE. This initiative aims to provide a unified, user-friendly interface for comprehensive technoeconomic evaluations, addressing the growing demand for efficient integration of renewable energy sources like wind and solar into the U.S. energy market. FORCE represents a collaborative effort among national laboratories, universities, and industry experts, streamlining the analysis process and improving decision-making for stakeholders in the energy sector. For further inquiries, interested parties can contact Andrew Rankin at andrewrankin32@gmail.com. The software is available for download at no cost from its GitHub repository.
    Open Source Software: Unlocking Operational Efficiency in Nuclear Power Plants with DIAMOND
    Active
    Energy, Department Of
    The Department of Energy is seeking innovative solutions to enhance operational efficiency in nuclear power plants through the deployment of the DIAMOND software. This initiative aims to address the challenges of fragmented data management within the nuclear industry by integrating disparate data sources into a cohesive data warehouse, thereby facilitating advanced analytics and machine learning applications. The DIAMOND software introduces an ontology-based data model tailored for the nuclear domain, which streamlines data integration, reduces operational costs, and improves decision-making processes. Interested parties can contact Andrew Rankin at andrew.rankin@inl.gov for further information regarding this opportunity.
    Open Source Software: Caldera Charge: Innovating EV Charging Infrastructure Simulation for Grid Efficiency and Sustainability
    Active
    Energy, Department Of
    The Department of Energy is seeking collaboration on the Caldera Charge project, which aims to innovate electric vehicle (EV) charging infrastructure simulation to enhance grid efficiency and sustainability. This initiative focuses on developing an advanced simulation platform that addresses the complexities introduced by the rising adoption of EVs, providing critical insights into the interaction between EV charging and electrical grid performance. The Caldera Charge platform features two main components: the Infrastructure Charging Module (ICM) for high-fidelity charging models and the Charging Decision Module (CDM) for innovative scheduling and pricing strategies, making it a vital tool for utility companies, urban planners, academic institutions, and policymakers. Interested parties can reach out to Andrew Rankin at andrew.rankin@inl.gov for further information, as this opportunity emphasizes collaboration rather than procurement or funding.
    ATF and LEAD Research & Operations
    Active
    Energy, Department Of
    The Department of Energy, specifically the Brookhaven National Laboratory, is seeking qualified vendors for a project titled "ATF and LEAD Research & Operations," which is currently in the Sources Sought phase. The objective of this initiative is to support graduate student thesis research at the Accelerator Facilities Division, focusing on high-brightness electron and laser beams, with responsibilities including system upgrades, operational training, and performance analysis. This project is significant as it aims to develop skilled personnel in advanced scientific research fields, aligning with federal funding goals. Interested institutions should express their interest and qualifications to Eric Nagel at enagel@bnl.gov, as this is a request for information only, with no specified funding amount or deadlines indicated.
    TECHNOLOGY/BUSINESS OPPORTUNITY Simple, Cost-Effective Method for Producing Functional Electro-Optical Materials and Devices
    Active
    Energy, Department Of
    The Department of Energy, through the Lawrence Livermore National Laboratory (LLNL), is offering a collaboration opportunity to further develop and commercialize a Simple, Cost-Effective Method for Producing Functional Electro-Optical Materials and Devices. This initiative aims to address the need for low-cost fabrication strategies for functional devices with tailored properties, particularly in optical applications such as deep UV photodetectors and flexible sensors. The technology involves innovative material transformations, allowing for the creation of semiconducting oxides from conductive metals in a single step, thereby streamlining the manufacturing process. Interested companies are encouraged to submit a statement of interest, including relevant corporate expertise and contact information, to LLNL's Innovation and Partnerships Office by following the specified guidelines. For further inquiries, contact Alex Hess at hess12@llnl.gov or Charlotte Eng at eng23@llnl.gov.