@hanzymester .... Hello again, I just wanted to say that all is true of what my instruments recorded and what I said earlier..... the 1044 watts is the power the motor drew when plugged in. As for the configuration of the magnets , please watch my other video of when I started this project and you should be able to see how I did it ! Very simple design...let me know how it goes ! best regards ,
@hanzymester ....The line was 1/4" tubing and water pressure around 6 psi. Liters of water running threw is around 3.7 a minute which would be 222 Liters per hour.... Hoped this info helped you out. Best regards !
@hanzymester ....Yes , I did get a 30 degree increase in temperature from running constant water from my kitchen faucet threw it.. Started at 58 degrees and ended at 88 ! not bad for constant water flow....I never tried looping the water back into the system thou? Would probably get allot hotter !!! The motor was a 1/2 Hp and drew 8.7 amps at 120 volt ( 1,044 Watts ) and 4.3 amps at 240 volts ( 1,032 Watts ) . turned at 3,000 RPM.
@chipsnyper06 Yes...In the center spins a North and South Pole Magnet which cancels out each others field causing heat to be generated very fast.... the water picks up the heat as it travels threw the tubing...... I manged to get a 30 degree increase in temperature from running constant water threw it from my sink faucet. I'm spinning the magnet at 3000 RPM'S. Thanks for watching !
Please show the configuration of magnets ! :) Very interesting !
hanzymester 6 months ago
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hanzymester 6 months ago
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hanzymester 6 months ago
Dear whyme2b!
Thank you for informations !:)
I'm thinking about it:
The needed power at 222 Liters/hour and 30 degree increase is 222 x 1.16 x 30 = 7725 W/h
Your input power is 1044 W/h for one hour.
It's impossible :))) Check your datas !!
7725 / 1044 = 740% efficiency
I would like to know the true :)))
hanzymester 6 months ago
@hanzymester .... Hello again, I just wanted to say that all is true of what my instruments recorded and what I said earlier..... the 1044 watts is the power the motor drew when plugged in. As for the configuration of the magnets , please watch my other video of when I started this project and you should be able to see how I did it ! Very simple design...let me know how it goes ! best regards ,
Kevin.
whyme2b 6 months ago
Hello! I more important thing is missing: the waterflow speed.
How much liters/hour was ? :)
hanzymester 6 months ago
@hanzymester ....The line was 1/4" tubing and water pressure around 6 psi. Liters of water running threw is around 3.7 a minute which would be 222 Liters per hour.... Hoped this info helped you out. Best regards !
whyme2b 6 months ago
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hanzymester 6 months ago
Bravo! Do you have any test results ? Waterflow water temperature, Input energy (watt), output water temperature ? Tell me ! :)
hanzymester 6 months ago
@hanzymester ....Yes , I did get a 30 degree increase in temperature from running constant water from my kitchen faucet threw it.. Started at 58 degrees and ended at 88 ! not bad for constant water flow....I never tried looping the water back into the system thou? Would probably get allot hotter !!! The motor was a 1/2 Hp and drew 8.7 amps at 120 volt ( 1,044 Watts ) and 4.3 amps at 240 volts ( 1,032 Watts ) . turned at 3,000 RPM.
Thanks for watching my video..
whyme2b 6 months ago
would it heat the water by friction? im a little confused as to how this would work.
chipsnyper06 9 months ago
@chipsnyper06 Yes...In the center spins a North and South Pole Magnet which cancels out each others field causing heat to be generated very fast.... the water picks up the heat as it travels threw the tubing...... I manged to get a 30 degree increase in temperature from running constant water threw it from my sink faucet. I'm spinning the magnet at 3000 RPM'S. Thanks for watching !
whyme2b 8 months ago