![]() Unlike traditional total gamma and spectral gamma methods that measure radioactivity emitted from various elements associated with uranium, PFN technology directly measures downhole U3O8 ore grade. ![]() “We have already seen the benefits of the technology in the past with reliable uranium resource estimates derived from PFN that were confirmed by historical production results.”ĮnCore has emphasized the significance of PFN technology in successful in-situ recovery (ISR) uranium project development. “PFN technology is far superior to traditional downhole gamma measurements where an array of different elements emits a collective gamma signature which may or may not correlate well with the actual uranium content,” said Paul Goranson, enCore’s chief executive officer. The deal also includes two heavy-duty logging trucks with logging and associated equipment, power supplies, computers, communication equipment, and other technologies.Īdditionally, enCore has obtained two low-mileage, heavy-duty logging trucks equipped with logging and associated equipment, power supplies, computers, communication equipment, and other technologies. The acquisition also includes six PFN downhole wireline probes and nine gamma downhole wireline probes with single point resistivity, spontaneous potential, and deviation. The purchase includes proprietary intellectual property such as circuit board diagrams, firmware code, software, manuals, instructions, and the exclusive global license for PFN technology utilization. EnCore Energy Corp.’s (NYSE: EU) (TSXV: EU) latest technology acquisition provides close to real time assays for uranium that other companies can’t duplicate using conventional coring and assay methods.ĮnCore acquired prompt fission neutron (PFN) technology and equipment, including all the related intellectual property and global licensing rights, from Energy Fuels Resources (NYSE: UUUU) (TSX: EFR) for USD$3.1 million on Monday.
0 Comments
Leave a Reply. |