U.S., Philippines ink civil nuclear pact

November 20, 2023, 12:00PMNuclear News
Lotilla (seated, at left) and Blinken (seated, at right) sign the 123 Agreement in San Francisco. Looking on (left to right) are Ann Ganzer, principal deputy assistant secretary, Bureau of International Security and Nonproliferation, U.S. State Department; Ferdinand Marcos Jr., Philippine president; and Daniel Kritenbrink, assistant secretary, Bureau of East Asian and Pacific Affairs, U.S. State Department. (Photo: @SecBlinken/X)

USNC closes deal to build a microreactor factory in Alabama, delivers TRISO fuel

June 23, 2023, 9:30AMNuclear News
Concept art of the planned Gadsden, Ala., MMR assembly plant. (Image: Ultra Safe Nuclear)

Ultra Safe Nuclear (USNC) announced on June 21 that it has selected the city of Gadsden, Ala., to host a $232 million MMR assembly plant. Modules for the company’s high-temperature, gas-cooled and TRISO-fueled microreactor, dubbed the Micro-Modular Reactor (MMR), would be manufactured, assembled, and tested at the “highly automated facility once it is in operation.

Framatome, Ultra Safe partner to manufacture TRISO and FCM fuel

January 30, 2023, 7:01AMNuclear News

Framatome and Ultra Safe Nuclear announced on January 26 that they intend to form a joint venture to manufacture commercial quantities of tristructural isotropic (TRISO) particles and Ultra Safe’s proprietary fully ceramic microencapsulated (FCM) fuel.

The companies have signed a nonbinding agreement to integrate their resources to bring commercially viable, fourth-generation nuclear fuel to market for Ultra Safe’s micro-modular reactor (MMR) and other advanced reactor designs.

McMaster University may host the second USNC microreactor in Canada

May 24, 2022, 9:30AMNuclear News
McMaster University, in Hamilton, Ontario, Canada. (Photo: McMaster University)

McMaster University, Ultra Safe Nuclear Corporation (USNC), and Global First Power (GFP) have embarked on a new partnership to study the feasibility of deploying a USNC Micro Modular Reactor (MMR) at McMaster University or an affiliated site. The three partners last week announced a memorandum of understanding that will support research on advanced reactor and small modular reactor technologies in support of Canada’s Net-Zero Emissions by 2050 goal.

Nuclear tech in space: What’s on the horizon?

November 4, 2020, 12:12PMNuclear News

Illustration of a Mars transit habitat and nuclear electric propulsion system. Image: NASA

NASA aims to develop nuclear technologies for two space applications: propulsion and surface power. Both can make planned NASA missions to the moon more agile and more ambitious, and both are being developed with future crewed missions to Mars in mind. Like advanced reactors here on Earth, space nuclear technologies have an accelerated timeline for deployment in this decade.

Space nuclear propulsion and extraterrestrial surface power are getting funding and attention. New industry solicitations are expected this month, and a range of proposed reactor technologies could meet NASA’s specifications for nuclear thermal propulsion (NTP). Nuclear electric propulsion could increase the feasibility of crewed missions to Mars with a shorter transit time, a broader launch window and more flexibility to abort missions, reduced astronaut exposure to space radiation and other hazards, expanded payload mass capabilities, and reduced cost.