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http://naca.larc.nasa.gov/reports/1933/naca-tn-476/
If you read this, you will see that a reduction in coolant temperature does increase horsepower. When increasing the coolant temperature from 71degC and 90degC (160°F and 195°F) the engine lost 3-5% horsepower. When applied to our engines, that is roughly 5-10hp.
You will notice the fuel vaporization was higher, mechanical friction was lower, and fuel consumption dropped as the coolant temperature rose. This is easily explained though by the fact fuel vaporizes quicker in the heat, oils from 1933 were less pourable when cold, and the less dense intake charge allowed for less fuel to enter the cyl per stroke.
Please read this, all of you. I found it very informative and wanted to share it with the board. I hope some of you accept this paper as a fact and really learn something from it. [img]smile.gif[/img]
[ June 17, 2002: Message edited by: Dominic ]</p>
If you read this, you will see that a reduction in coolant temperature does increase horsepower. When increasing the coolant temperature from 71degC and 90degC (160°F and 195°F) the engine lost 3-5% horsepower. When applied to our engines, that is roughly 5-10hp.
You will notice the fuel vaporization was higher, mechanical friction was lower, and fuel consumption dropped as the coolant temperature rose. This is easily explained though by the fact fuel vaporizes quicker in the heat, oils from 1933 were less pourable when cold, and the less dense intake charge allowed for less fuel to enter the cyl per stroke.
Please read this, all of you. I found it very informative and wanted to share it with the board. I hope some of you accept this paper as a fact and really learn something from it. [img]smile.gif[/img]
[ June 17, 2002: Message edited by: Dominic ]</p>
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