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    In an attempt to fill the void left by PESN on reporting “Free Energy” technologies slightly left of center, I will start featuring some of the more interesting ones. This will highlight the work of the tireless , often amateur free energy researchers. The major difference this is a…SCAMMER FREE ZONE

    I may not agree with the theories or in many cases question the data and assumptions, but it is important that the information is published to inspire others or just get good feedback and advice for the inventor.

    The first of these is distant relative from something I experimented on a few years ago. These were ambient temp thermo-couples (I know that sounds like an oxymoron). It is something I intend to conduct further experiment on latter this year. I remember discussing the experiment with  the late Mark E over dinner one night when visiting the USA and he not only described how and why it worked but predicted the behavior of the materials we had created with uncanny accuracy. (I still miss his genius everyday)

    So sit back, relax and enjoy

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    Ambient Temperature Resistant Electricity  (ATRE)
    Inventor: 
    Leon Barnard
    Location:
    Surrey, BC, Canada

    http://atrb.weebly.com/

    I am an inventor of a new form of electric current, called Ambient Temperature Resistant Electricity, abbreviated as ATRE.

    I am in the seed stage of my research and 60% toward completion of a viable commercial power panel that could provide free energy to power a single room in any house. The electricity that is generated by combining very opposing metals together to create an electromagnetic spectrum at the point of contact from which electrons is given of by one opposing metal to the other under free ambient temperature. Very similar is static electricity buildup in a metal. By capturing these free load electrons by on/off switching of the point of contact with water H2O , the released electrons tend to hold on to water ions that carry them forward into an absorbent material from where it can be relayed in sequence to an ultra capacitor. The ultra capacitor power can be drawn to power a device such as lights or an electric motor or charge a battery.

    Formulating a scientific explanation regarding the complete functionality of an ATRB as many many Engineers believe I am chasing RF ghost voltage with no current?

    Please watch the following Video

    I can not copy the format here so you have to click the link

    https://www.dropbox.com/s/ngtg7tmtpm0og24/ATRE-FINAL-MOVIE.mp4?dl=0

    The above video and following video explains most of what is known, however I am unable to access many other links. My main question is anything consumed or does the water just need replacing at certain intervals.

    To add a little bit of confusion to the subject it is important to perhaps look at how thermocouples work( this device is not claiming to be a thermocouple) Source: http://www.thermocoupleinfo.com/

    A Thermocouple is a sensor used to measure temperature. Thermocouples consist of two wire legs made from different metals. The wires legs are welded together at one end, creating a junction. This junction is where the temperature is measured. When the junction experiences a change in temperature, a voltage is created. The voltage can then be interpreted using thermocouple reference tables to calculate the temperature.

    There are many types of thermocouples, each with its own unique characteristics in terms of temperature range, durability, vibration resistance, chemical resistance, and application compatibility. Type J, K, T, & E are “Base Metal” thermocouples, the most common types of thermocouples.Type R, S, and B thermocouples are “Noble Metal” thermocouples, which are used in high temperature applications (see thermocouple temperature ranges for details).

    Thermocouples are used in many industrial, scientific, and OEM applications. They can be found in nearly all industrial markets: Power Generation, Oil/Gas, Pharmaceutical, BioTech, Cement, Paper & Pulp, etc. Thermocouples are also used in everyday appliances like stoves, furnaces, and toasters.  Thermocouples are typically selected because of their low cost, high temperature limits, wide temperature ranges, and durable nature

     

    Interview with Leon 

     

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