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Published 06.11.2003
Ph. M. Kanarev
E-mail:
kanphil@mail.kuban.ru
CELL OF THE THIN
PLASMAELECTRIC GENERATOR OF HEAT
The
main task of the experiment was to check the hypothesis:
"Electrodynamic
influence on the water molecules gives the possibility to reduce energy
expenses on destruction of their chemical bonds significantly; further fusion
of these molecules increases considerably the output of additional energy in
the form of heat".
In
order to solve this task, special experiments were carried out connected with
electrodynamic destruction of chemical bonds of water molecules with electric
pulses of various frequencies.
Photo of the Cell of thin
Plasmaelectric Generator of Heat
PROTOCOL OF CONTROL TEST
Table 1
Supply voltage and
current were measured with the help of a voltmeter, an ammeter and an
oscillograph (Fig. 1-6)
|
Indices |
1 |
2 |
3 |
Mean |
|
1 – mass of the solution,
which has passed through the cell m,
kg. |
0.350 |
0.352 |
0.352 |
0.351 |
|
2 – temperature of solution
at the input of the cell t1,
degrees |
18 |
18 |
18 |
18 |
|
3 – temperature of the
solution at the output of the cell t2, degrees |
72 |
72 |
72 |
72 |
|
4 – temperature difference
of the solution Dt= t2
- t1, degrees |
54 |
54 |
54 |
54 |
|
5 – durability of the
experiment Dt, s |
300 |
300 |
300 |
300 |
|
6 – reading of voltmeter V,
V |
4.50 |
4.50 |
4.50 |
4.50 |
|
7 – reading of ammeter I, A |
1.80 |
1.80 |
1.80 |
1.80 |
|
8 – electric power consumption
according to indices of voltmeter and ammeters, E2=I×V×Dt, kJ |
2.43 |
2.43 |
2.43 |
2.43 |
|
9 – power spent for heating
of the solution, E3=4.19×m×Dt, kJ |
79.19 |
79.64 |
79.64 |
79.49 |
|
10 – cell efficiency index according to indices
of voltmeter and ammeters, K= E3/ E2 |
32.59 |
32.77 |
32.77 |
32.71 |
Samples of Oscillograms
|
Fig. 1. Tension |
Fig. 2. Tension |
Fig. 3. Tension |
|
Fig. 4. Current |
Fig. 5. Current |
Fig. 6. Current |
Commercial efficiency of the
water electric generator of heat will depend on pulse generator economies. As efficiency
of powerful pulse generators can be near unit, energy efficiency should not
differ greatly from the data being obtained during laboratory investigations
for the industrial-scale plants with the use of the generators of heat being
considered.
Simplicity and hundred per cent
reproducibility of the experiments being described open a prospect for quick
commercialization of the water electric generator of heat.
REFERENCES
1. Kanarev Ph.M. The Foundation of Physchemistry of Microworld (the
second edition). (In
Russian) http://www.ikar.udm.ru/sb28-2.htm
2. Kanarev Ph.M. The Foundation of
Physchemistry of Microworld.
The second edition. (In English). http://book.physchemistry.innoplaza.net
3. Kanarev Ph.M. Water Electric Generator of
Heat. http://kanarev.heatgenerator.innoplaza.net/
Webmaster: j_hartikka@hotmail.com
Cell of the Thin Plasmaelectric Generator of Heat by Prof. Kanarev: http://Kanarev.cell.innoplaza.net
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