Penn State and Westinghouse Electric Company are working together to site a new research reactor on Penn State’s University Park, Pa., campus: Westinghouse’s eVinci, a HALEU TRISO-fueled sodium heat-pipe reactor. Penn State has announced that it submitted a letter of intent to host and operate an eVinci reactor to the Nuclear Regulatory Commission on February 28 and plans to engage with the NRC on specific siting decisions. Penn State already boasts the Breazeale reactor, which began operating in 1955 as the first licensed research reactor at a university in the United States. At 70, the Breazeale reactor is still in operation.

N. Prasad Kadambi

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I graduated with a mechanical engineering degree from Osmania University in Hyderabad, India, and took up nuclear engineering when I was awarded a scholarship by an organization called His Exalted Highness The Nizam of Hyderabad’s Charitable Trust. That scholarship enabled me to do graduate work at Pennsylvania State University, and I enrolled there in 1966. One of the terms of the scholarship was that I return to India after graduation. Hence, I returned to India in 1972 after receiving my Ph.D. and began working at the Bhabha Atomic Research Centre in Mumbai.

Staff and researchers at Penn State’s Radiation Science and Engineering Center (RSEC) will work this year to install a small angle neutron scattering (SANS) device and become the first and only U.S. university research reactor to host SANS capability. The $9.8 million device, donated by Helmholtz Zentrum Berlin (HZB) in Germany, will help researchers determine the structure of organic materials such as polymers, complex fluids, and biomolecules.

To help speed up commercialization of its eVinci microreactor, Westinghouse Electric Company this week launched a new design and manufacturing facility for the project near downtown Pittsburgh, Pa. Located in the borough of Etna, the 87,000-square-foot eVinci “accelerator hub” will be home to engineering and licensing operations, testing, prototype trials, business development, and sales, Westinghouse said in an October 24 announcement, adding that the facility will include manufacturing space for producing the “innovative heat pipes that are central to the eVinci technology.”

Penn State’s Radiation Science and Engineering Center (RSEC) has received the first new TRIGA fuel shipped to the United States since 2012, the university announced on September 28. The fuel reached University Park, Pa., on September 27 and is destined for RSEC’s Breazeale Reactor, the nation’s longest continuously operating university research reactor.

The Post-Industrial Midwest and Appalachia (PIMA) Nuclear Alliance hosted its third workshop December 8—9 at Pennsylvania State University’s Digital Foundry at New Kensington. The alliance, which consists of Penn State and several academic, industrial, and national lab partners, was formed in May 2022 to harness carbon-free energy while educating and training the future energy workforce. Previous workshops were held in June and October this year.

Microreactor technology: The major focus of the alliance is innovation in microreactor technology and other advanced nuclear reactor technologies in the Midwest and Appalachia regions, with the overall goal of furthering the decarbonization of industries.

Scientists at Lawrence Livermore National Laboratory and Pennsylvania State University have demonstrated that a natural protein found bonded to rare earth elements can be recovered and used as a tool to purify and effectively manage radioactive metals that show promise for cancer therapy and the detection of illicit nuclear activities.

The 2021 Pennsylvania Climate Action Plan recommends 18 “strategies” for realizing Gov. Tom Wolf’s goal of an 80 percent reduction in the state’s greenhouse gas emissions (from 2005 levels) by 2050. Two of the strategies are for the electricity-generation sector: (1) maintain operation at Pennsylvania’s nuclear power plants through at least 2050, and (2) achieve a 100 percent carbon-free grid by 2050.

In addition to focusing on electric power generation, the plan includes strategies for other major carbon-emitting sectors in the fossil fuel–heavy state, including transportation, industry, agriculture, and residential and commercial buildings. For each strategy, emission reductions, costs, and benefits in jobs and economic growth are quantified and health and social benefits analyzed.

Scientists at Lawrence Livermore National Laboratory, working in collaboration with researchers at Penn State University and Harvard Medical School, have discovered a new mechanism by which radionuclides could spread in the environment.

The research, which has implications for nuclear waste management and environmental chemistry, was published in the Journal of the American Chemical Society on September 20.