海角社区 PETE Professor, Research Team Aim To Prevent Nuclear Power Leaks
March 20, 2023
BATON ROUGE, LA 鈥 Though nuclear energy provides more than 20% of the electricity
in the United States, it is still considered by many to be a controversial source
of power due to famous leakage disasters such as Chernobyl, Three Mile Island, and
Fukushima. But what if those disasters could have been avoided by having a sensor
that immediately detected a leak?
That is exactly what 海角社区 Engineering researchers are working on thanks to a $500,000 grant from the Nuclear Regulatory Commission, the first NRC research grant 海角社区 has ever received.
海角社区 Craft & Hawkins Department of Petroleum Engineering Assistant Professor Jyotsna Sharma is leading a team of researchers that includes 海角社区 Mechanical and Industrial Engineering Associate Professor Manas Gartia, 海角社区 Geology & Geophysics Associate Professor Jianwei Wang, Southern University Professors Ali Fazely and Terrance Reece, and 海角社区 Engineering and Southern University students to develop and demonstrate a novel, multifunctional distributed fiber-optic sensor (DFOS) that will immediately detect a radiation leak.
鈥淣uclear power plants require constant monitoring to ensure operational efficiency and safety,鈥 Sharma said. 鈥淭his includes the monitoring of plant structures and components for abnormal stresses and leaks due to aging and degradation, safe storage of nuclear waste, and reliable long-term radiation monitoring. A DFOS can overcome many limitations of traditional gauges since they are immune to electromagnetic interference, chemically inert, resistant to corrosion, and can withstand high temperatures, high pressures, and neutron and gamma radiations.鈥
The entire fiber-optic cable acts as a sensor, providing spatially and temporally continuous monitoring along the fiber with no additional electronics along the optical path. A 100-ft. fiber, for instance, will have a 100-ft. sensor. If there is a leak, especially a radiation leak, Sharma鈥檚 team wants to quickly find the leak using a DFOS, which allows real-time measurement along the fiber.
鈥淎 gamma or neutron leak is one of the biggest safety hazards in a nuclear plant,鈥 Sharma said. 鈥淲e should be able to detect it right away. With a DFOS, light is carrying the data, and light travels at a very fast speed. So, we are transmitting the data very quickly. What will be different in a nuclear setting, especially if we are trying to detect radiation, is that we need to have the nanomaterials sensitive to certain types of radiation, such as gamma and neutron.鈥
Using Gartia鈥檚 lab in Patrick F. Taylor Hall, nanomaterials will be tested for gamma ray and neutron detection for a radioactive environment in a nuclear reactor. Once the nanomaterial is identified, Sharma will put it on the fiber-optic sensor, as she is familiar with them from working in the oil and gas industry for many years, as well as having a degree in electrical engineering.
Sharma鈥檚 team hopes its research will eventually help keep all nuclear power plants safe, including the two in Louisiana that produce 16% of the state鈥檚 energy. The 974-megawatt River Bend facility in St. Francisville recently received a license renewal through 2045, while the 1,159-megawatt Waterford 3 unit in Killona received a license renewal through 2044. Both plants, owned by Entergy, employ more than 1,500 employees.
鈥淣uclear power is crucial to the U.S. Gulf Coast region, with two nuclear power plants in Louisiana and another eight in neighboring Mississippi, Arkansas, and Alabama,鈥 Sharma said. 鈥淭herefore, strengthening the nuclear research capabilities, educational infrastructure, and nuclear workforce in Louisiana will be a strong focus of the proposed disciplinary partnership.鈥
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