November 10, 2024
Energy

Students Harness Power of New Kestrel Supercomputer for Cutting-Edge Energy Research and Innovation | News


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A man inspects cables connected to a large server rack.
Surendra Sunkari, a high-performance computing (HPC) engineer at the National Renewable
Energy Laboratory, examines Kestrel. Photo by Joe DelNero, NREL

Students pursuing careers in energy research had a unique opportunity this year to
use Kestrel—the U.S. Department of Energy Office of Energy Efficiency and Renewable
Energy’s (EERE’s) third-generation supercomputer hosted by the National Renewable
Energy Laboratory (NREL).

This summer, NREL completed the full buildout of Kestrel, reaching 44 petaflops of computing power focused on renewable energy and energy
efficiency research. Students from across the country were invited by EERE to apply
for access to this powerful tool to advance their research and to expand EERE’s computational
efforts for the energy transition. Last fall, over 25 students from 15 universities
across the United States applied to use Kestrel for the 2024 spring and summer semesters.

Students like Yifan Hu at Iowa State University used Kestrel to study the effect of
solar wind and other space weather phenomena on solar energy infrastructure. Using
the supercomputer’s advanced central processing unit nodes, his team tested new scalable
algorithms to provide robust and accurate methods to model solar wind using a numerical
method called the relativistic Vlasov-Maxwell system, with the goal of understanding
the effects of solar wind on the stability and efficiency of solar power plants to
improve power grid reliability and resilience. Access to Kestrel enabled Hu to receive
computing results within a week, which led to the submission of two journal articles
currently under review.

Rajat Goel, a chemical engineering student at the University of California, Davis
used Kestrel’s high-performance graphics processing units to simulate uranium and
its defects, an extremely complex problem that requires significant computational
power. Goel researched developing future protective coatings for nuclear reactors
to prevent uranium hydride formation, as it is highly toxic and incredibly flammable.
Using Kestrel, he significantly reduced the time needed for these simulations. Nuclear
energy plays a role as a noncarbon energy source by generating carbon-free power.
Ensuring its safe and reliable production is an important factor toward achieving
the Department of Energy’s 2050 net-zero greenhouse gas emissions target.

Hu and Goel’s research projects highlight Kestrel’s ability to address large-scale
challenges, particularly in enhancing energy resiliency. Meanwhile, across the country,
students used the supercomputer for different yet equally impactful energy research.

Stanford University student Mark Benjamin used Kestrel’s advanced artificial intelligence
(AI) and machine learning capabilities in his manufacturing research project to apply
AI models, including convolutional neural networks to model drag and convolutional
autoencoders to represent realistic car shapes. The project goal was to set new standards
for vehicle design and optimization, aiming to improve fuel efficiency and reduce
carbon emissions.

Students from the University of Minnesota, led by Suryanarayan Ramachandran, used
computational fluid dynamics codes on Kestrel to design novel engines that use hydrogen
for combustion. This project leveraged an Exascale Computing Project code called AMRex
Combustion PeleC to perform first-of-its-kind high-fidelity three-dimensional simulations
of explosive hydrogen reactions, called oblique detonation waves, to investigate how
hydrogen combustion can be used for future hypersonic propulsion systems, advancing
fuel technologies research to reduce fossil fuels.

Tackling complex energy challenges requires powerful computational resources along
with support to ensure the productive use of these resources. Students received help
getting their accounts set up and running their workflows on Kestrel from the User
Operations staff in the Computational Science Center at NREL. Providing students with
access to Kestrel not only advances current research but also shapes the future of
clean energy technologies by equipping students with advanced skills to lead in the
field of energy innovation and research.  

Students interested in using Kestrel for their energy research should keep an eye
out for future opportunities at nrel.gov/news.

Read blog posts about the installation of NREL’s Kestrel high-performance computing system.



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