Los Angeles, CA.  April 6, 2021 – US Nuclear Corp. (OTCQB: UCLE) has now proposed its unique automated, continuous, ultra-sensitive tritium-in-water monitoring system to Tokyo Electric Power Company (TEPCO) for the massive project of monitoring the safe release of the radioactive/contaminated water being stored from the Fukushima nuclear disaster.  There is currently a staggering 1.24 million tons of water containing radioactive tritium being held in more than 1,000 storage tanks across Fukushima- and the 1.37-million-ton storage capacity will be full by 2022.  Japan aims to finalize plans and begin the water release before they run out of time.  US Nuclear believes their tritium water monitoring equipment will provide an effective method of continuously monitoring the release of the tank water and seawater in the area to ensure that the concentration of tritium is safe and does not pose any danger.

On March 11, 2011, a rare and powerful 9.0 magnitude earthquake was detected by the Fukushima Daiichi Nuclear Power Plant, which automatically shut down the reactor and started emergency diesel generators to power the pumps which would continue to cool down the fission reactor.  Unfortunately, a 14 meter (46 ft) high tsunami arrived shortly afterward which swept easily over the seawall and flooded the plant and the emergency generators, causing the pumps and cooling to fail, leading to three nuclear meltdowns, three hydrogen explosions, and the release of radioactive contamination. In the decade since the disaster, cooling water has been leaking from the primary containment vessels into the basements of the reactor buildings, with new water being pumped into the reactors to cool the melted fuel.  The cooling water is treated using an advanced filtration system to remove most all of the contaminants, but unfortunately, it cannot remove the tritium contamination, which is why the water has been stored in tanks.

Japan’s current plan is to slowly release and dilute the tritium contaminated water into the sea, though this plan has been met with wariness by the local fishery industry as well as other nearby countries. Japan is determined to resolve the issue in a safe and effective manner and recently reached out to the International Atomic Energy Agency (IAEA) on March 23, 2021, for help in reviewing how to safely release the contaminated water.

To help TEPCO effectively monitor the release of the water, US Nuclear has recently proposed their revolutionary Model Trimaran-H₂O which is an automated, continuous fresh or seawater monitoring system capable of measuring tritium in water all the way down to 500 Bq/L (14,000 pCi/L), below the US EPA’s drinking water limit of 740 Bq/L or 20,000 pCi/L.  Except for US Nuclear, there is no other automated, continuous, and real-time tritium in water monitors on the market capable of measuring below safe drinking water limits for tritium due to the complexity of measuring tritium in water.  US Nuclear’s Model Trimaran-H₂O utilizes an electrolytic separator and a special sample enrichment feature to iteratively concentrate the tritium and allow for ultra-low-level measurements not possible in other equipment. Furthermore, the system operates using gas proportional counting technology, which is just as sensitive as traditional laboratory techniques using liquid scintillation counting, but does not produce any hazardous mixed waste or requires an expensive scintillation cocktail.

It is projected that it could take 30-40 years of continuous releases to safely discharge all of the Fukushima storage tank water.

On February 18, 2021, NASA’s advanced Perseverance rover touched down on Mars and is now seeking evidence of native life on the red planet.  Sooner than you think, human engineers and adventurers may be building the first town on Mars.  While we have made great strides in robotics technology, the next step in the journey is sending humans to Mars.  In order to send a crewed mission to Mars, NASA is focusing on nuclear electric or nuclear thermal propulsion systems for minimizing the time and fuel it takes to travel to Mars and back.

Jim Reuter, the associate administrator of NASA’s Space Technology Mission Directorate, said NASA is “investing in technologies that could enable crewed missions to Mars, and looks forward to seeing what innovations industry offer in nuclear propulsion.”  NASA released a solicitation on February 12, 2021 asking the industry for preliminary reactor design concepts for a nuclear thermal propulsion system.  Technology development has already begun for sending a crewed mission to Mars as early as the 2030s.  US Nuclear (OTCQB: UCLE) and MIFTI’s fusion power generator would be ideal for this application, as its nuclear fusion power uses a lightweight, safe, and low-cost fuel.  It generates four times as much energy as nuclear fission, and 10,000,000 times as much as chemical rocket fuels.

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LOS ANGELES, CA / ACCESSWIRE / February 1, 2021 / US Nuclear Corp. (OTCQB:UCLE)

Bob Goldstein, CEO of US Nuclear Corp (OTC: UCLE) weighs in on asteroid mining, “Mining of rare and valuable metals from the asteroids has long been fantasized, but then disregarded as something that is in the distant future. However, recent breakthroughs in fusion energy could lead to a new generation of faster, more powerful spacecraft propulsion systems, precisely for the purpose of asteroid mining expeditions.”

The mining of asteroids has long been viewed as a vast source of wealth consisting of rare earth elements and precious metals.  The short supply and high prices for these minerals have put us at odds with other countries, disrupting the supply chain of phones, computers, electric cars, and slowing our economic growth.  In fact, terrestrial reserves on Earth could be exhausted within the next few decades.

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LOS ANGELES, CA / ACCESSWIRE / January 11, 2021 / On December 16, 2020, the White House issued Space Policy Directive-6 (SPD-6), which outlines a national strategy for using space nuclear power and propulsion (SNPP) systems in a safe and effective manner. The new policy directive confirms the United States’ commitment to using SNPP systems and establishing nuclear power stations on the moon and beyond, which is good news for US Nuclear (OTCQB: UCLE) and partner MIFTI, who have designed and are testing thermonuclear fusion power generators.

Scott Pace of the National Space Council, commented “Space nuclear power and propulsion is a fundamental enabling technology for American deep-space missions to Mars and beyond.  The United States intends to remain the leader among spacefaring nations, applying nuclear power technology safely, securely, and sustainably in space.” The key factor for enabling space travel is the new nuclear-powered propulsion systems, as traditional chemical-powered rocket fuels are hopelessly weak. DARPA, NASA, and the US Space Force have recently gotten serious and deployed the nuclear option. Why? Nuclear fuels and nuclear power systems, such as the highly-regarded MIFTI Z-pinch fusion reactor, can deliver 10,000,000 times the work (or energy) per payload pound than the chemical rocket fuels now used by Musk’s Space-X, Bezos’s Blue Origin, Branson’s Virgin Atlantic, as do Lockheed and Boeing.

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