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UT-Battelle LLC manages ORNL for DOE’s Office of Science, the single largest supporter of basic research in the physical sciences in the United States. The NQA-1 rating, the gold standard for the nuclear industry, signifies extensive efforts in the areas of procedures, training and software control. Last year, CASL brought the VERA software suite up to Nuclear Quality Assurance-1 level in preparation for widespread industry use. These include predictions of departure from nucleate boiling growth of corrosion deposits on fuel rods stress caused by pellet expansion and performance of reactor parts when exposed to high temperatures and radiation. VERA provides advanced modeling and simulation capabilities to help address several challenges, leading to improved performance and longer lifetimes for the current reactor fleet. This could improve plant operator decision-making, reduce uncertainty and accelerate innovation in nuclear energy.”Īs the 10-year CASL project winds down this spring, the program has established the VERA Users Group, which provides training, ongoing support and access to DOE’s high-performance computing resources to perform large-scale simulations. “VERA’s coupled multiphysics modeling and simulation tools can be used to better inform operating performance, safety margins and transient behavior in nuclear power plants. “EPRI’s mission is to advance safe, reliable, affordable and environmentally responsible electricity,” said Erik Mader, Technical Executive with EPRI Nuclear Fuels and Executive Director of the CASL Industry Council. As we look to execute additional licensing agreements with other partners, it’s important to remember the hard work of hundreds of CASL contributors in making this possible.” “This is a significant moment for CASL and demonstrates VERA’s value to the nuclear industry.
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“By licensing VERA to EPRI, CASL is delivering a first step in handing its work off to industry,” Kropaczek said. The VERA software suite is a collection of interfacing codes that can simulate reactor core behavior from the large-scale down to the molecular scale. Based at Oak Ridge National Laboratory and established in 2010, CASL was the first DOE Energy Innovation Hub. “Our partners in the nuclear industry wanted software that was proven and usable, and that’s exactly what we’ve produced.”ĬASL is a partnership of the DOE national laboratories, universities and nuclear industry companies working together to find solutions to specific challenges of efficiently operating nuclear reactors. “EPRI, one of our core CASL industry partners, now has the right to use VERA to perform services for its member utilities,” said Dave Kropaczek, CASL director.
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Department of Energy’s Consortium for the Advanced Simulation of Light Water Reactors (CASL).
PLANT SIMULATION SOFTWARE BIOLOGY LICENSE
The nonprofit Electric Power Research Institute (EPRI) is the first to hold a commercial license for the Virtual Environment for Reactor Applications, or VERA, a set of tools developed by the U.S. OAK RIDGE, Tenn., MaA software package, 10 years in the making, that can predict the behavior of nuclear reactors’ cores with stunning accuracy has been licensed commercially for the first time. National Transportation Research Center.Center for Structural Molecular Biology.Center for Nanophase Materials Sciences.Oak Ridge Leadership Computing Facility.Building Technologies Research and Integration Center.It demonstrates how growth occurs at specific regions within the plant, how cells divide by mitosis, and how cells become specialised into different tissues (differentiation). The studied wastewater treatment plant’s biological. This animation shows the processes of growth in plants at the cellular level. Predicting wastewater treatment plant’s efficiency during extreme influent variations can be made by using modeling and simulation tools. Growth, Mitosis and Differentiation in Plants This can then be related to the first animation, on transport in plants. This animation covers key topics of photosynthesis and respiration, with a particular focus on overcoming certain common misconceptions among secondary and post-16 biology students. This can then be related to the second animation, on photosynthesis and respiration. This animation covers plant transport, demonstrating how water travels through the plant, and how sugars are distributed around the plant. However, if you prefer, you can watch the individual animations via the links below. We feel that this animation has a particular value in reminding students that the different processes that take place in a plant are interrelated. Our 'Plant Biology' animation shows three key processes in plant biology - respiration and photosynthesis, cell growth and differentiation, and the transport of sugar and water - within the context of a whole organism.