Since 2015 we have worked on practical applications of cold fusion, often referred to as LENR (=Low Energy Nuclear Reaction). Our unique form of LENR, a Controlled Electron Capture Reaction, generates excess thermal energy (heat) by using very small amounts of hydrogen, nickel and electricity for inputs. In short, it works as follows:
Hydrogen is loaded, in the form of either a wet electrolyte, or as a gas, into highly engineered metallic cores constructed from nickel inside of a pressure vessel boiler system.
Electrical charges from Subcurrent Energy Systems’ self designed electronic pulse generator, the Pulse5, are passed through the pressure vessel, resulting in a compressed lattice within the engineered constrained system. Mass is created and a proton is converted to a neutron, causing a enormous loss of energy in the system. 1H (protium) is transformed to 2H (deuterium), 2H (deuterium) is transformed to 3H (tritium) and 3H (tritium) is transformed to 4H (quatrium). This results in net energy out as the 4H (quatrium) rapidly beta decays to a release of (largely) heat, plus a tiny amount of 4He (helium) into the system. This CECR process effectively liberates more energy than it took to create all the preceding steps, on an energy density level equivalent in scope to nuclear fusion, but without the pollution.