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Professor Ph. M. Kanarev, Krasnodar

The problems of power engineering are well known. The power carriers, which are used nowadays, are not only exhaustible, but they cause a considerable damage to environment. Nearly 40 years ago it was announced that controlled thermonuclear fusion could be the future inexhaustible energy source. More than 25 billion dollars have been spent for the investigation of this source, but there is no positive result. This state can be explained by a considerable lag of theoretical investigations from the possibilities of industry to implement any installation in order to check an intuitive idea being formulated. As a result, the main attention has been paid to an experiment, not to a theory.
Professor Ph. M. Kanarev, Krasnodar

Hydrogen Water Fuel Cell Results Using Kanarev`s Data
Modern Electrolyzers consume 4 .0kWh per cubic meter of this gas.
When one cubic mete of hydrogen is burnt,3.55 kwh of energy is released.

One litre of hydrogen weighs 0.09 gram:One litre of oxygen weighs 1.47 g. It means that
it is possible to produce 111.11/.09=1234.44 liters of hydrogen and 888.89/1.47=604.69 litres of oxygen from one litre of water. One gram of water contains 1.23 litres of hydrogen Energy consumption for the production of 1000 litres of hydrogen is 4 kWh andfor one litre 4Wh .It is possible to produce 1.23 litres of hydrogen from one gram of water,1.23x4 =4.94Wh is spent for hydrogen production from one gram of water.

Instruments and Equipment used

Experimental low current wfc.filled with tap water.Stop watch.Scales type Satrue model
SB-200 200g 0.1 gram steps Avo Mk 9 Test Meter.Precision Gold model Wgo20 Digital Test Meter.
Racal Dana True RMS Voltmeter model 9300.Hameg Oscilloscope model 203-5.
Tektronix 547 oscilloscope.
The water fuel cell was pulsed at 6 Khz Square wave 50:50 duty cycle.

Duration of test in min. = 60
RMS Voltage V = 7.5
Ampmeter I, amperes = 0.06
Power P,watts hour (P=VxIxmin/60 0.45
Mass of wfc in grams = 106.9
Mass change in grams m = 0.4
Evaporating water mass me, = 0.04
Mass of water split into gasses, m-me = 0.36
Existing energy consumption Wh/g water = 4.94
Released hydrogen quantity 0.36x1.23x0.09= 0.03985
Energy content of produced hydrogen (W=0.03985x142/3.6)= 1.57186
Energy Efficency (Wx100/P) % )= 349 %

Energy Efficency of this WFC is 349 % or overunity

Date of Test : 15 June 2004 Done by D. Lawton

Professor Kanarev has shown a new form of electrochemistry which can generate much more Hydrogen than conventional electrolysis ever could. He claims at least 10 times but his data suggests more like 4,000 times more Hydrogen than the Wh input would predict. He also has measured very significant Hydrogen generation when his cell is not powered and mentions Foam as is accepted in a stage 3 Joe cell." -- Congress:Member:Greg Watson (May 4, 2006)
Directory:Kanarev Electrolysis - PESWiki

energy, water, hydrogen, electrolysis