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Fact Sheets
Factsheets
INL researchers are developing a Java-based software package called General Line Ampacity State Solver (GLASS), which calculates real-time ampacity and thermal conductor limits.
INL led the creation of an eight-laboratory GRSL that will study how electricity can be rerouted across vast distances to address disruptions.
Several US companies are developing High Temperature Reactors, a type of advanced nuclear reactor used to provide safe, reliable sources of carbon-free energy.
Advanced pelleting processes at INL can reduce transportation costs and improve flowability, processing performance and conversion performance for biorefineries.
The Hot Fuel Examination Facility is the largest hot cell dedicated to radioactive material research at Idaho National Laboratory.
Idaho National Laboratory partnerships within the state of Utah illustrate a growing relationship that makes sense both geographically and academically.
A virtual nuclear control room that safely tests new technologies before they are implemented at commercial reactors.
INL researchers developed the Hydropower Technology Catalog, a digital, online interface that guides users to technologies that expand generation at existing sites and identify components or structures needed for new projects.
This guidebook offers details on infrastructure critical to community lifelines and Idaho’s economy.
The birthplace of nuclear power, Idaho National Laboratory’s 890-square-mile site, large-scale infrastructure, and research facilities are unique assets enabling energy and security research, development, and demonstration at scale.
Since 1949, 52 reactors have been built and operated on INL’s 890-square-mile site.
IMB acquires multipoint impedance spectra in as little as 10 seconds, providing detail of a battery’s condition and state of health.
The Department of Homeland Security’s Cybersecurity Infrastructure Security Agency has collaborated with INL to provide comprehensive and innovative training courses aimed at securing industrial control systems.
In support of U.S. industrial competitiveness, INL works to deploy and transfer the discoveries and inventions created at the Lab.
Idaho National Laboratory’s Emergency Public Information Program provides accurate information for the news media, employees and the public during an emergency event.
Idaho National Laboratory consists of an 890-square-mile area in southeastern Idaho often referred to as the “INL Site,” as well as laboratories and administrative buildings located approximately 35 miles to the east in the city of Idaho Falls.
Licensing INL technologies allows a business to reproduce, manufacture, sell or use INL-developed or owned intellectual property.
INL innovations help address America’s energy, environmental and nuclear challenges through transformative science and technology solutions.
Idaho National Laboratory established the INL Resilience Optimization Center (IROC) as an innovation center for system resilience and risk management.
INL's mission is to discover, demonstrate, and secure innovative nuclear energy solutions, other clean energy options, and critical infrastructure.
INL battery research is the most comprehensive in the nation, combining real world applications and laboratory test data into reliable information.
The Dynamic Energy Transport and Integration Laboratory (DETAIL) will link a grid simulator with a simulated nuclear plant.
INL is leading a research effort evaluating the ability of run-of-river hydropower to provide grid balancing through integration with an energy storage system.
INL leads efforts that help verify activities that protect nuclear facilities around the world.
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Battelle Energy Alliance manages INL for the U.S. Department of Energy’s Office of Nuclear Energy
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