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SAMDAILY.US - ISSUE OF NOVEMBER 04, 2021 SAM #7278
SPECIAL NOTICE

99 -- Notice of Intent to Issue a Funding Opportunity from U.S. Department of Energy�s (DOE) High Performance Computing for Energy Innovation (HPC4EI) Initiative

Notice Date
11/2/2021 8:20:28 AM
 
Notice Type
Special Notice
 
Contracting Office
LLNS � DOE CONTRACTOR Livermore CA 94551 USA
 
ZIP Code
94551
 
Solicitation Number
TBO508-22
 
Response Due
11/22/2021 9:00:00 AM
 
Archive Date
11/23/2021
 
Point of Contact
Connie Pitcock, Phone: 9254221072, Robin Miles, Phone: 9254228872
 
E-Mail Address
pitcock1@llnl.gov, miles7@llnl.gov
(pitcock1@llnl.gov, miles7@llnl.gov)
 
Description
The U.S. Department of Energy's (DOE) High Performance Computing for Energy Innovation Initiative will issue a fall 2021 solicitation in November 2021. HPC4EI programs are designed to improve manufacturing processes, address products� lifecycle energy consumption, and increase the efficiency of energy conversion and storage technologies by providing access to national lab supercomputing resources and expertise for high performance computing projects. The fall solicitation will cover the High Performance Computing for Manufacturing (HPC4Mfg) program and the High Performance Computing for Materials (HPC4Mtls) program, which are supported by the Office of Energy Efficiency and Renewable Energy�s Advanced Manufacturing Office and by the Office of Fossil Energy and Carbon Management, respectively. These programs harness the raw processing power of national lab supercomputers to decarbonize U.S. industry and move us closer to an equitable clean energy future that benefits all Americans. HPC4EI conducts two regular solicitations annually, one in the fall and one in the spring. The fall solicitation will target qualified industry partners to participate in short-term, collaborative projects with DOE National Laboratories that address key manufacturing challenges and accelerate the development and deployment of clean energy technologies to move us closer to the Biden-Harris Administration�s goal of net-zero carbon emissions by 2050. Eligibility for the program is limited to entities that manufacture products or operate systems in the United States for commercial applications and to organizations that support these entities. The solicitation will encourage applicants to partner with a diverse range of universities, community colleges, and non-profit organizations, especially those located in disadvantaged communities. This focus ensures the equitable use and benefits of HPC national laboratory resources and technologies. Selected projects will be awarded up to $300,000 to support computing cycles and work performed by DOE National Laboratories, universities, and non-profit partners. All DOE National Laboratories are eligible to participate. The industry partner must provide a participant contribution of at least 20% of the total project funding. DOE�s Advanced Manufacturing Office (AMO), within the Office of Energy Efficiency and Renewable Energy, is the primary sponsor of the High Performance Computing for Manufacturing program. AMO partners with private and public stakeholders to decarbonize industry and increase the competitiveness of the U.S. manufacturing and clean energy sectors through process innovations, collaborations, research and development, and technical assistance and workforce training. The Advanced Energy Materials program funded by DOE�s Office of Fossil Energy and Carbon Management (FECM) is the primary sponsor for the High Performance Computing for Materials program. FECM funds research, development, demonstration and deployment projects to decarbonize power generation and industrial sources, to remove carbon dioxide from the atmosphere and to mitigate the environmental impacts of fossil fuel use. Learn more about the HPC4EI initiative at�www.hpc4energyinnovation.org.�� Topics of interest specific to the offices supporting this solicitation are below. HPC4Manufacturing DOE�s Advanced Manufacturing Office within the Office of Energy Efficiency and Renewable Energy is the primary sponsor of the HPC4Mfg Program. DOE�s Office of Fossil Energy and Carbon Management and EERE�s other Technology Offices may also sponsor select projects in this portfolio. AMO partners with private and public stakeholders to decarbonize industry and increase the competitiveness of the U.S. manufacturing and clean energy sectors through process innovations, collaborations, research and development, and technical assistance and workforce training. AMO supports cost-shared research, development, and demonstration activities in support of crosscutting next-generation technologies and processes that hold high potential to significantly improve energy efficiency and reduce energy-related emissions, industrial waste, and the life?cycle energy consumption of manufactured products. The primary goal of the HPC4Mfg Program is to reduce carbon emissions across the industrial sector and improve the efficiency and productivity of U.S. manufacturing. The program solicits proposals that require HPC modeling and simulation to overcome impactful manufacturing process challenges resulting in reduced energy consumption, greenhouse gas emissions, and/or increased productivity. Proposals should provide a realistic assessment of the energy impact, emissions reduction, the improvement in U.S. manufacturing competitiveness, and the increase in U.S. manufacturing jobs that a successful outcome of the project could have across the industrial sector. Of particular interest to AMO are: Improvements in manufacturing processes which result in significant national energy savings and carbon emissions reduction. Examples include: Process improvements in high-energy consuming industries such as paper and pulp, primary metal manufacturing, water and wastewater, glass and chemical industries; Improvements in material performance in harsh service environments such as very high temperature or highly corrosive processes; Integration of advanced object recognition and other machine learning algorithms (e.g. sortation, defect detection) into high throughput industrial processes; Improvements in modeling prediction and closed-loop control for smart manufacturing systems (e.g. advanced sensors and process controls); Improvements in separation and processing for critical materials (e.g. rare earth elements); and Electrification of processes. Improvements in the lifecycle energy consumption and carbon emissions reduction of products of interest to AMO. Examples include Improved materials and shape optimization for light-weighting in transport technologies; Operational efficiency of electronics systems; and Increased recycling of waste associated with industrial-scale materials production and processing or enable reuse at end-of-life. Efficiency improvements and carbon emissions reduction in energy conversion and storage technologies. Examples include Improvements in combined heat and power units which save significant energy and/or increase operational and fuel flexibility; Novel energy storage and energy conversion techniques; and Improvements in waste heat recovery. Reductions in CO2 or CO2-equivalent emissions.� Examples include: Improvement in the performance of carbon-capturing processes. Modification of fossil-fueled systems to accept low-to-zero carbon fuels. Electrification of processes to replace combustion-driven processes. HPC4Materials The Advanced Energy Materials program, funded by DOE�s Office of Fossil Energy and Carbon Management (FECM) and managed by DOE�s National Energy Technology Laboratory, is the primary sponsor of the High Performance Computing for Materials (HPC4Mtls) program. FECM funds research, development, demonstration and deployment projects to decarbonize power generation and industrial sources, to remove carbon dioxide from the atmosphere and to mitigate the environmental impacts of fossil fuel use. The Advanced Energy Materials program works to characterize, produce, and certify advanced alloys and high-performance materials that are key to realizing dispatchable, reliable, high-efficiency, decarbonized power generation from� gas or hydrogen. In addition, the program aims to encourage change and stimulate innovation in the high-performance materials value chain to spur U.S. competitiveness. FECM partners with industry, academia, national labs, and research facilities on research, development, demonstration, and deployment of carbon management technologies that are essential for decarbonizing key sectors, including �power and industrial sectors, some of the largest sources of carbon emissions today. Clean hydrogen is expected to play a considerable role in decarbonizing these sectors. Today, roughly 95% of the hydrogen in the United States is produced from natural gas without carbon capture, which is not clean. However, there is significant potential in applying carbon capture technologies to help advance a cost-effective and low-carbon hydrogen economy.� Proposals for the HPC4Materials program should provide a realistic assessment of the proposed project�s benefits to the domestic materials supply chain and/or fossil energy application (e.g. reduced energy consumption and/or greenhouse gas emissions for power plants or clean hydrogen producers/users).� Of particular interest to FECM in this solicitation are: Advanced Structural Materials for Hydrogen Applications Improving the understanding of the materials impacts including corrosion and erosion effects of gasification of feedstock blends of coal, sustainably sourced biomass and waste plastics on materials in high temperature regions of a gasifier, including sensitivity analysis of blend percentages and types of feedstocks Improving the understanding of the material impacts including hydrogen embrittlement effects of blends of natural gas and hydrogen on materials in pipelines, welded joints or compressors, including sensitivity analysis of blend percentages Use of computational databases and machine learning for thermal barrier coating (TBC) development for hot gas path components of combustion turbines firing natural gas-hydrogen blends or 100% hydrogen Use of computational databases and machine learning for development of ceramic metal composites for use in components of combustion turbines firing natural gas-hydrogen blends or 100% hydrogen Advanced Structural Materials for Fossil Energy Applications Improving the understanding of detailed processes in critical focus areas such as oxidation, corrosion, and electrochemical interactions in creep strength enhanced ferritic (CSEF) alloys, austenitic alloys and high nickel superalloys Improving reliability of dissimilar welds between CSEF alloys, austenitic alloys and/or high nickel superalloys Developing the capability to predict the mechanical behavior and properties of additively manufactured components for use in advanced power cycles such as supercritical carbon dioxide cycles Advanced Functional Materials for Hydrogen Applications Use of computational databases and machine learning for catalyst development to synthesize, test, characterize, and scale materials which convert carbon oxides into value-added products with increased energy efficiency, higher selectivity, and lower environmental impacts based on a lifecycle analysis relative to conventional products Use of computational databases and machine learning for catalyst development to synthesize, test, characterize, and scale materials for reforming of natural gas/methane to produce syngas or hydrogen Developing machine learning capabilities to predict composition, thermal performance and mechanical properties of new materials for thermal energy storage Developing machine learning capabilities to identify promising new materials for non-battery energy storage technologies that can integrate with fossil energy power generating units Overcoming barriers to the manufacture of components for fuel cells
 
Web Link
SAM.gov Permalink
(https://beta.sam.gov/opp/952ffced97d743e1b637650f5a6a3d14/view)
 
Record
SN06168978-F 20211104/211102230113 (samdaily.us)
 
Source
SAM.gov Link to This Notice
(may not be valid after Archive Date)

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