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Argentina’s RA-10 multi-purpose research reactor at Ezeiza Atomic Centre (CAE - El Centro Atómico Ezeiza) in Buenos Aires province, is now about 80% completed, according to project manager Herman Blaumann. "The civil work is already finished and in terms of supplies and installations the progress is 75%. This week the reactor's reflector tank will arrive ... the installation of which is another key step in the work,” he told Argentina's Foreign Minister Diana Mondino during a tour of the facility.

Date: Friday, 01 March 2024
Original article: neimagazine.com/news/newsargentinas-ra-10-research-reactor-nearing-completion-11560383

A small-angle neutron scattering instrument (SANS) has been delivered to the Argentine Neutron Beam Laboratory (LAHN - Laboratorio Argentino de Haces de Neutrones) at the Ezeiza Atomic Centre. Argentina’s National Atomic Energy Commission (CNEA - Comisión Nacional de Energía Atómica) said the SANS was donated by the German Helmholtz Zentrum Berlin (HZB) institute following the closure of the BER-II reactor in 2019. The instrument, which is 33 metres long when assembled, was delivered to the site in eight containers. The detection tube alone, which works in a high vacuum, is 16 metres long and 1.5 metres in diameter.

Date: Wednesday, 17 January 2024
Original article: neimagazine.com/news/newsargentinas-neutron-beam-laboratory-receives-equipment-from-closed-german-reactor-11439104

France’s Framatome has announced a key advance in development of monolithic molybdenum-uranium (U-Mo) fuel for Germany’s Forschungsreaktor München II (FRM II) research reactor, operated by the Technical University of Munich (TUM).

Date: Wednesday, 03 May 2023
Original article: neimagazine.com/news/newsframatome-develops-high-density-fuel-for-germanys-frm-ii-research-reactor-10806850

Framatome has completed the development of the main component of innovative monolithic molybdenum-uranium (U-Mo) fuel for the FRM II research reactor at the Technical University of Munich (TUM). Local politicians in Bavaria have approved plans to convert the reactor to use fuel with lower uranium enrichment.

Date: Saturday, 29 April 2023
Original article: world-nuclear-news.org/Articles/Fuel-innovation-means-research-reactor-can-transit

First Xe-100 plant could be operational by 2028 Proponents say nuclear plants like the Xe-100 could be built quicker and less expensively than traditional models. Courtesy X-energy. Work has begun on the construction of a $300m nuclear fuel fabrication plant for next-generation nuclear reactors in Oak Ridge, Tennessee.

X-energy’s Triso-X facility is being funded initially as part of a $3.2bn federal programme to develop, build and demonstrate advanced reactors. The goal is for the plant to be commissioned and operational by 2025.

The fuel produced at the facility will be used in X-energy’s Xe-100 high-temperature gas reactors, expected to be operational by 2028. The first project would be a 320 MW four-unit Xe-100 power plant in Washington state.

The US Department of Energy said the fuel fabrication facility has the capacity to produce eight metric tonnes per year of Triso pebble fuel, enough to power 12 of X-energy’s proposed Xe-100 SMRs. The facility would also be capable of manufacturing TRISO fuel for other advanced reactor designs. X-energy said it plans to double its fuel production by the 2030s.

Date: Wednesday, 19 October 2022
Original article: nucnet.org/news/work-begins-on-triso-fabrication-plant-for-x-energy-s-htgr-10-2-2022

USNC has said it hopes to build and operate its first micro modular reactor unit by 2026. Courtesy USNC/NRG. Netherlands-based NRG is to carry out a programme of irradiation tests on Ultra Safe Nuclear Corporation’s (USNC) proprietary fully ceramic microencapsulated (FCM) fuel at the high flux reactor in Petten.

NRG said the aim of the tests is to demonstrate the safety of the fuel for the 20-year lifespan of Seattle-based USNC’s micro modular reactor. NRG said extensive pre- and post-irradiation tests at its hot cell laboratories will be part of the programme.

FCM fuel is a next-generation tristructural-Isotropic (Triso) particle fuel design, replacing the 50-year-old graphite matrix of traditional Triso fuel with silicon carbide, a material that is extremely resistant to radiation and thermal damage.

The SiC matrix in FCM fuel provides a dense, gas-tight barrier, preventing the escape of fission products even if a Triso particle should rupture during operation. The result is a safer nuclear fuel that can withstand higher temperatures and more radiation.

Date: Friday, 25 June 2021
Original article: nucnet.org/news/nrg-to-begin-irradiation-programme-for-usnc-s-micro-reactor-6-4-2021

Nuclear Research & Consultancy Group (NRG) of the Netherlands will conduct a programme of irradiation tests on Ultra Safe Nuclear Corporation's (USNC's) proprietary Fully Ceramic Microencapsulated (FCM) fuel at the High Flux Reactor (HFR) in Petten. The aim of the tests is to demonstrate the safety of the fuel for the 20-year lifespan of the USNC's Micro Modular Reactor.

Date: Thursday, 24 June 2021
Original article: world-nuclear-news.org/Articles/USNC-fuel-to-be-qualified-in-Dutch-reactor

Iran's President Hassan Rouhani on 10 April unveiled 133 new nuclear achievements in the provinces of Tehran, Markazi, Isfahan, Alborz and Qom to mark the 15th anniversary of the National Nuclear Technology Day. In a ceremony held via videoconference he gave the order for Iranian scientists to begin injecting uranium hexafluoride gas to a pilot cascade of 164 new generation IR6 centrifuges at the Natanz enrichment facility. He also announced that Iran has started mechanical testing of IR-9 centrifuges and launched an assembly line for their production.  

Date: Tuesday, 13 April 2021
Original article: neimagazine.com/news/newsiran-unveils-nuclear-achievements-as-talks-continue-in-vienna-8663463

Ultra Safe Nuclear Corporation (USNC) has established a new facility in Salt Lake City, Utah, to support the development of its proprietary Fully Ceramic Microencapsulated (FCM) fuel. Materials developed there will be used in USNC's Micro Modular Reactor (MMR) and other nuclear reactors, including gas-cooled reactors, light water reactors, CANDU reactors and molten salt cooled reactors.

Date: Thursday, 03 September 2020
Original article: world-nuclear-news.org/Articles/USNC-opens-SMR-fuel-development-laboratory