Search results
Results from the WOW.Com Content Network
The Rokkasho plant is the successor to a smaller reprocessing plant that was located in Tōkai, Ibaraki in central Japan which shutdown in 2014 and was approved for decommissioning in 2018. [13] The Rokkasho facilities complex includes: A high level nuclear waste monitoring facility; A MOX fuel fabrication plant; A uranium enrichment plant [14 ...
Greenpeace has opposed operation of the Rokkasho Reprocessing Plant under a campaign called "Wings of Peace: No more Hiroshima, Nagasaki. Stop Rokkasho", [17] since 2002 and has launched a cyberaction [18] to stop the project. Rokkasho was a candidate to host the plasma fusion reactor ITER, but lost out to Cadarache, France.
The first generation Uranium Enrichment Plant in Rokkasho, Aomori operated 1992 to 2010 with a capacity of up to 1,050 ton-SWU/year, which is equivalent to the nuclear fuel used by 8 or 9 reactors at 1,000 MW-class nuclear plants. [1] [2] A second generation plant using centrifuges with composite carbon-fibre rotors started operating in 2011 ...
A plutonium-burning Monju reactor failed and is being decommissioned, while the launch of the Rokkasho reprocessing plant in northern Japan has been delayed for almost 30 years.
List of Russian Reprocessing Plants Name Location Fuel Type Procedure Status Reprocessing capacity (tHM/yr) Construction start date Operation date Closure Purpose Plant B Mayak Shut down 400 1948 1960's Military Plant BBRT-1 Mayak LWR PUREX: Operational 400 1978 Civil Tomsk-7 Radiochemical Tomsk Shut down 6000 1956 Military Krasnoyarsk-26 ...
[38] [39] It has constructed the Rokkasho Reprocessing Plant, which could produce further plutonium. [38] Japan has a considerable quantity of highly enriched uranium (HEU), supplied by the U.S. and UK, for use in its research reactors and fast neutron reactor research programs; approximately 1,200 to 1,400 kg of HEU as of 2014. [40]
One of the programs that Kennedy visited in his documentary about treating addiction was also a farm, where men learn how to tend to livestock, operate tractors and repair barns. Their days also ...
Reprocessing of spent nuclear fuel by the PUREX method, first developed in the 1940s to produce plutonium for nuclear weapons, [1] was demonstrated commercially in Belgium to partially re-fuel a LWR in the 1960s. [2] This aqueous chemical process continues to be used commercially to separate reactor grade plutonium (RGPu) for reuse as MOX fuel ...