Kerrow Energetics, based in Cornwall, UK, is a non-commercial enterprise that scientifically examines energy systems that purport to be thermodynamically open and which may contribute to a greener future and a lower carbon footprint.

Through careful and diligent research techniques, it investigates prior claims through project builds and implementation and then prepares technical reports and papers in support of its findings and main objectives.

Setup in 2018, work initially examined electrolysis efficiency in the production of Hydrogen and HHO gas. Now, inductive pulse charging technologies (IPC) are being explored to investigate prior claims of energy gains and improvements in battery health and longevity with their implications for recycling, energy storage and battery management. The first study was completed in 2024 and has been published.

A follow-up study examined the likely origins of the measured energy gains, either internal enthalpy or the local environment, with implications for the dynamics of electrochemical processes or extended electrodynamic theory in the context of open systems. This second study was published in January 2025 and a third paper, looking at plausible energetic mechanisms, was published in April, 2025.

Now that the research on IPC has reached a certain stage and level, and a scientific contribution to a larger electrodynamic model has been proposed, it is appropriate to turn my attention to another solid-state technology that is inherently more scalable to produce power that individuals can readily access and utilise. These developments fall under the heading of ‘Magnetic Resonance Energy Systems’ (MRES) and details are on the ‘MRES’ tab.