The Big Cold Fusion Reactor v4.0
created on May 8, 2003 - JLN Labs - Last update June 12, 2003
Toutes les informations et schémas sont publiés gratuitement ( freeware ) et sont destinés à un usage personnel et non commercial
All informations and diagrams are published freely (freeware) and are intended for a private use and a non commercial use.


1 - The Cold Fusion Reactor v4.0 - Description :

The Cold Fusion Reactor ( CFR ) v4.0 uses a big 5000 mL Dewar vessel filled with 2000 mL of demineralized water and 55.3 g of Potassium Carbonate ( K2CO3 ), the electrolyte solution used is 0.2 molar ( 0.2 M, ). The height ( 180 mm ) of the Dewar wall above the surface of the electrolyte avoids some eventual projections of electrolyte outside the reactor.

The Cathode used is a pure tungsten rod ( W ) 3 mm diameter and 45 mm length from tungsten TIG electrodes (WP) commonly used forTIG and Plasma welding. The Anode used is composed of stainless steel grid ( 50 x 160 mm ) maintained with a stainless steel  shaft. All the wires connections are made with a 1.5 mm2 copper flexible wire gained with silicon.

The CFR 4.0 is bigger than the CFR v3.0 previously tested ( see below )


2 - Experimental test setup :

The CFR v4.0 is powered with a DC voltage through a bridge rectifier connected through a variable transformer ( Variac ) to the 220V AC power grid line. The voltage input has been measured with a digital oscilloscope Fluke 123 with a Shielded Test Lead STL 120 ( 1:1, 1 Mohms/225 pF ). The current input has been measured with a current clamp CIE Model CA-60A ( Accuracy DC Amps ±1.5%, AC Amps±2% (40Hz-2kHz), AC Amps±4%(2kHz-10kHz), AC Amps±6%(10kHz-20kHz) ). The temperature has been measured with a type "K" temp probe ( NiCrNi ) connected on a VC506 digital multimeter ( -20°C to +1200 °C with an accuracy of +/- 3% ). ( see the photo above ).


3 - RUN #1 - Test results :

RUN #1 - POWER INPUT/OUPUT and EFFICIENCY of the CFR v4.0 :

The Voltage/Current datas logged give an average electrical power input of 1258.4 Watts during 456 seconds, so this gives :

ELECTRICAL ENERGY INPUT = 573842 Joules

The evaporated water in the CFR during the full boiling was 315 mL. We know that we need 2260 J/g to vaporize water. The temperature rise of the 600 mL was 19°C. So, this gives :

ENERGY OUTPUT = ( 315 x 2260 ) + ( 600 x 19 x 4.18 ) = 870740 Joules

Power OUTPUT = 1909.5 Watts, Net Power Gain = 651.1 Watts

Energy OUTPUT/INPUT = 870740 / 573842 = 1.52

4 - RUN #2 - Test results :

RUN #2 - POWER INPUT/OUPUT and EFFICIENCY of the CFR v4.0 :

The Voltage/Current datas logged give an average electrical power input of 737.5 Watts during 547.2 seconds, so this gives :

ELECTRICAL ENERGY INPUT = 403538 Joules

The evaporated water in the CFR during the full boiling was 265 mL. We know that we need 2260 J/g to vaporize water. The temperature rise of the 600 mL was 11°C. So, this gives :

ENERGY OUTPUT = ( 265 x 2260 ) + ( 600 x 11 x 4.18 ) = 690860 Joules

Power OUTPUT = 1262.5 Watts, Net Power Gain = 525.1 Watts

Energy OUTPUT/INPUT = 690860 / 403538 = 1.71

Notes from Jean-Louis Naudin : In spite of the use of 2000 mL of electrolyte and a small W cathode ( 3 x 45 mm ), the net power gain is still present here in these two tests ( 525 and 651 Watts of power gained ). I have noticed during the tests that the steam production decreases with the time during these two tests runs, this is due to the fact that after few minutes of run the steam recondenses on the wall inside of the Dewar vessel and falls over again into the reactor. This why, I have not yet overcome 200% of efficiency ( like with the CFR v3.0), I think that a better efficiency can be obtained with a bigger tungsten rod or the use of multiple small Tungsten rods and also with a new design of the steam exit from the reactor. More tests runs are coming soon...

See the videos of the Enhanced CFR v4.0 in action

To see the video, the free downloadable RealPlayer is required
You may download free the RealPlayer 8 Basic at : http://proforma.real.com/real/player/blackjack.html

Demonstration of the Big CFR v4.0 in action

Click on the picture above to see the video (694 Kb )


The working of the Cold Fusion Reactor CFR v4.0 is very stable...

Click here to see a FULL SCREEN MPEG VIDEO of the Enhanced CFR v4.0 in action.. .

I am very grateful to the Professor Pierre Clauzon for his contribution to the CFR project and his help during some CFR tests runs and also to the Professor Jean-François Fauvarque and Gérard Lallevé from the "Laboratoire d'Electrochimie Industrielle" of the CNAM ( Conservatoire National des Arts et Métiers ) from Paris, for their scientific support and their contribution to this project.



Cold Fusion Reactor : Full Experimental datas results


Tests of the CFR v3.3 with a new PS


Email : JNaudin509@aol.com


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