Paper

Terrestrial Energy, National Lab, Southern Company – Partnership Overview Using Integral Molten Salt Reactor Technology with HyS Acid for Hydrogen Production

Demands for safe secure supplies of potable water across the planet are increasing faster than can be provided by natural, ever depleting sources of fresh water. At the same time, world demand for electric power is also accelerating. Making H2 from Natural Gas is not an optimal or efficient process that is also un-economic at higher gas costs. An Integral Molten Salt Reactor (IMSR) is uniquely suited to provide the very high temperatures (585 °C+ working temps.) that are needed to both generate significant amounts of Hydrogen, Oxygen (a feed for industrial oxygen uses) and Electricity needed for advanced economies…

Paper

Coupling Integral Molten Salt Reactor Technology into Hybrid Nuclear: Direct Ammonia Production via H2 High Temperature Steam Electrolysis

Demands for safe, secure supplies of potable water across the planet are increasing faster than can be provided by natural, ever-depleting sources of fresh water. At the same time, world demand for electric power is also accelerating. Making H2 from Natural Gas is not an optimal or very efficient process that is also un-economic at higher and erratic gas costs. An Integral Molten Salt Reactor (IMSR) is uniquely suited to provide the very high temperatures (600 °C+ working temps) that are needed to generate both significant amounts of High Temperature Steam Electrolysis (HTSE)-derived Hydrogen & Oxygen (a feed for industrial…