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benone...anche se nell'articolo che ho postato prima si parlava gi? di forniture avvenute o adivenire a brevissimo...ma sulla validit? dell'e-cat ci sono anche pareri diversi da quelli di Rossi ed ? tutto eseguito, da quel che mi ? dato sapere, presso l'Universit? di Bologna..
Swedish physicists on the E-cat:
http://www.nyteknik.se/incoming/arti...%A9n+%28pdf%29.
At the trial in Bologna, Kullander and Ess?n could investigate the energy catalyzer with the surrounding insulation and the lead shielding stripped away. The exterior design is described in their report.
The reactor itself, which is loaded with the nickel powder and secret catalysts pressurized with hydrogen, has an estimated volume of 50 cubic centimeters (3.2 cubic inches). The reactor is made of stainless steel.
A copper tube surrounds the steel reactor. The water to be heated flows between the steel and the copper. In operation, the construction is also surrounded by insulation and a lead shielding with a thickness of approximately two centimeters (0.8 inches).
Before starting, Kullander and Ess?n calibrated the water flow and estimated it at 6.5 kg per hour. The power required to heat the flowing water from 18 degrees and convert it completely into steam was calculated to 4.7 kW.
They also filled the reactor with hydrogen at a pressure of about 25 bars. The reactor was according to Rossi loaded with 50 grams of nickel powder.
As in previous trials the process was ?ignited? with an electrical resistance. Input power was 330 watts, of which about 30 watts were required to operate the electronics.
A phenomenon that Kullander and Ess?n noted was that the curve for the water temperature at the output showed a steady increase up to about 60 degrees centigrade, after which the increase escalated.
?The curve then became steeper, it clearly had a new derivative. At the same time there was no increase in power consumption, it rather decreased when it got warmer,? said Ess?n.
In their report they note that it took nine minutes to go from 20 to 60 degrees centigrade, which corresponds to the heating from the input electrical power. Going from 60 to 97.5 degrees centigrade, by contrast, just took four minutes.
Throughout the experiment Kullander and Ess?n had the opportunity to examine the equipment.
?We checked everything that could be checked, and we could walk around freely and have a look at most of the equipment,? said Ess?n.
?We looked specifically into the big control unit (with electronics) and it contains mostly rectifiers and passive components ? there was nothing of interest in it,? said Kullander, which is in line of what Dr. Levi previously noted.
insomma...che sia veramente valida come soluzione?
Swedish physicists on the E-cat:
http://www.nyteknik.se/incoming/arti...%A9n+%28pdf%29.
At the trial in Bologna, Kullander and Ess?n could investigate the energy catalyzer with the surrounding insulation and the lead shielding stripped away. The exterior design is described in their report.
The reactor itself, which is loaded with the nickel powder and secret catalysts pressurized with hydrogen, has an estimated volume of 50 cubic centimeters (3.2 cubic inches). The reactor is made of stainless steel.
A copper tube surrounds the steel reactor. The water to be heated flows between the steel and the copper. In operation, the construction is also surrounded by insulation and a lead shielding with a thickness of approximately two centimeters (0.8 inches).
Before starting, Kullander and Ess?n calibrated the water flow and estimated it at 6.5 kg per hour. The power required to heat the flowing water from 18 degrees and convert it completely into steam was calculated to 4.7 kW.
They also filled the reactor with hydrogen at a pressure of about 25 bars. The reactor was according to Rossi loaded with 50 grams of nickel powder.
As in previous trials the process was ?ignited? with an electrical resistance. Input power was 330 watts, of which about 30 watts were required to operate the electronics.
A phenomenon that Kullander and Ess?n noted was that the curve for the water temperature at the output showed a steady increase up to about 60 degrees centigrade, after which the increase escalated.
?The curve then became steeper, it clearly had a new derivative. At the same time there was no increase in power consumption, it rather decreased when it got warmer,? said Ess?n.
In their report they note that it took nine minutes to go from 20 to 60 degrees centigrade, which corresponds to the heating from the input electrical power. Going from 60 to 97.5 degrees centigrade, by contrast, just took four minutes.
Throughout the experiment Kullander and Ess?n had the opportunity to examine the equipment.
?We checked everything that could be checked, and we could walk around freely and have a look at most of the equipment,? said Ess?n.
?We looked specifically into the big control unit (with electronics) and it contains mostly rectifiers and passive components ? there was nothing of interest in it,? said Kullander, which is in line of what Dr. Levi previously noted.
insomma...che sia veramente valida come soluzione?
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