One post on this forum states that it is 6.182 MMW (ml per minute per watt).
Here is a link to report that considers this question and calculates a value more like 9.28. http://www.hho-research.org/mmw_report_1_1.pdf
One post on this forum states that it is 6.182 MMW (ml per minute per watt).
Here is a link to report that considers this question and calculates a value more like 9.28. http://www.hho-research.org/mmw_report_1_1.pdf
Guess you answered your own question, huh?
[SIGPIC][/SIGPIC]
MMW needs the temperature of the gas and Barometric pressure in order to calculate the right figure. If you do not you are kidding yourself. Example follows:
Volts= 13.8
Amps= 10
LPM = 1
Time= 60 seconds
# Cells= 7
# stacks= 1
Gas temperature= 100º F
Barometric Pressure= 1013.25
Results
MMW= 7.25
Faraday's Maximum MMW = 6.04
Change the temperature to 90º F
The results are:
Faraday's Maximum changes to MMW= 5.93.
Here is a link to a calculator
http://site.altpropulsion.com/MMWCalc.htm
Link for Barometric Pressure in the USA
http://www.usairnet.com/weather/maps...tric-pressure/
You can change the Barometirc Pressure and see how Faraday's maximum will change too.
The calculators do not work for unipolar setups.
"Democracy is two wolves and a lamb deciding what to have for dinner. Liberty is a well-armed lamb."
ONE Liter per minute per 10 amps which just isn't possible Ha Ha .