PFN technology has played an important part in the development and advancement of uranium projects in the United States and South Australia. The Benefits of PFN (Prompt Fission Neutron) Technology The same conditions occur elsewhere in the United States including some deposits in Wyoming. This is particularly applicable at enCore's South Texas properties where in-situ geochemical conditions allow some of the radiometric components, such as uranium, to be out of equilibrium with their gamma signatures. PFN technology is critical to successful in-situ recovery (ISR) uranium project development as it directly measures downhole U 3O 8 ore grade versus traditional Total Gamma and Spectral Gamma methods which measure radioactivity emitted from a variety of elements associated with uranium. We are using this proven PFN technology right now as we install our production patterns in our soon to be producing wellfields." 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. Paul Goranson, enCore's Chief Executive Officer, said, "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. Power supplies, computers, communication equipment, and other technology.Two low-mileage, heavy-duty logging trucks with logging and associated equipment. Nine gamma downhole wireline probes with single point resistivity, spontaneous potential and deviation.
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