Thanks to Gerard McEk for posting the following link to a news report from the website of ENG8 titled “Independent Validation Confirms Self-Sustaining EnergiCell Operation”
https://eng8.energy/independent-validation-confirms-self-sustaining-energicell-operation/
They say that a third-party expert (Jean-Paul Biberian) has observed self-sustaining energy production for an “extended period”, but don’t say how long that period of time is.
Here are some excerpts:
Overview of the Validation
In early October, physicist Jean-Paul Biberian conducted an independent validation of an updated EnergiCell® unit, confirming extended self-sustaining operation compared with earlier trials. The visit aimed to revisit prior observations and verify consistent behaviour under controlled laboratory conditions.The EnergiCell system consists of a primary circuit and a secondary circuit, linked through a discharge tube containing the electrodes. A brief high-voltage starting pulse initiates the system, which then operates independently of any external electrical input. The test demonstrates that the system can sustain itself under controlled conditions for an extended period (redacted for confidentiality).
Key Observations
- During the validation, Biberian observed several important operational behaviours:
- With the feedback loop engaged, oscillations persisted for a significantly longer duration than previous tests, and the updated configuration showed more stable behaviour than earlier versions, allowing the system’s response to the feedback loop to be evaluated more clearly.
- A brief spark at the end of the run regenerated plasmoids on the electrode surfaces, restoring stable oscillatory behaviour, described as “relighting a gas oven when the flame goes out.”
- The device operated in ambient air without additional hydrogen feedstock. Hydrogen from ambient moisture, together with plasmoid formation on the electrodes, likely contributes to sustaining the process.
- When the connection between the primary and secondary circuits was removed, oscillations collapsed rapidly, confirming that residual energy in the primary circuit was not responsible for the observed behaviour.
- Pressure was identified as a critical parameter; maintaining it within a narrow range is necessary for sustained oscillations, and adjustments can restart the system without further electrical input.
Interpretation and Significance
Biberian concluded that the principle of operation has been demonstrated. The system showed clear evidence of self-sustaining behaviour under controlled laboratory conditions. However, the device remains at a research stage. Several variables—including pressure stability, gas composition and electrode materials—require further optimisation.
