Building a new era of energy

Subcurrent Energy Systems is a clean-technology company located in the Netherlands. We develop renewable energy technologies capable of producing commercially useful amounts of thermal energy (heat).

Our technology is a powerful, targeted technical and economic solution for climate change, grid safety, energy security, food security, clean water and other pressing challenges. With the specter of pandemics, this impact investment opportunity is further vital to ensuring that the lowest cost, most flexible micro grids can be built to power the localized supply chains of the future.

A growing number of scientists and engineers worldwide have worked on various approaches to achieving heat effects that are consistent with low energy nuclear reactions (LENR). Subcurrent Energy Systems is the first that has achieved a combination of reproducibility, controllability, continuity of operation, integrity of the materials involved and net energy output this high.

Subcurrent Energy Systems is close to create a safe, controllable, continuous thermal energy source that is inexhaustible and can save the world!

HOw it works

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.

Carbonfree

Super-Clean

Renewable

Safe

OUR Leaders

Subcurrent Energy Systems has formed an experienced team with the scientific, engineering, and business development skills needed to achieve its goal of developing commercial LENR reactors. Our team is led by our experienced leaders.

Robert Thorpe

Chief Executive Officer

Josh tyler

Mechanical Engineering Manager

Ryan Bryant

Chief Technology Officer

Elaine Tusko

Research & business development manager