Here's your bullshit dispeller if the day...based on the actual, scientific principles of ethanol, not some made up crap.
Yes, ethanol is hygroscopic. Water vapor will come out of the air and attach to the ethanol molecule. If you have a closed system with (say) 100 gallons of (say) pure ethanol and 100 gallons of moist air. There is not enough water in the air to go into the ethanol and reach the azeotropic ratio -- not by 2 or 3 orders of magnitude. If you know the relative humidity of the air at the time the tote was opened (and the temperature), you can find the absolute humidity (the mass % of water vapor in the air) and so estimate the maximum amount of water that went into the container. Since 100 gallons is about 20 times the volume of a mole of gas, assuming an absolute humidity of 10% (it's very likely way less) the answer is about 2 moles, or about 40 grams. In equilibrium (in the closed system) almost all of the water vapor will very soon go into the ethanol, so you have 100 gallons of ethanol (with a bit of toluene), plus 40 g of water. That's 0.01%. Obviously we're not working with pure ethanol but at a 5 to 15% by volume in gasoline. Very little water will accumulate in a closed system. But ours is open via a vent hole and continuously exposed. At some point the water will drop out of suspension and accumulate but the amount depends on a continuous exposure to water vapor, humidity, and temperature. Cold slows the absorption. What will hurt you is a tank that is less than full condenses the vapor on it's interior surface and that greatly hastens accumulation by those same orders of magnitude. So...a closed system is what you want. A simple piece of Saran wrap over the filler with a screwed on cap will limit the vapor to just what is in the tank in storage. Water issue solved.
Ethanol, pure or otherwise, is a great fuel. Burns cleanly, leaves little residue. It also has a much lower latent heat of evaporation than gasoline which means it cools the intake charge much more effectively and thereby allows the engine to run cooler by removing the heat of combustion by also burning at a lower temperature, a good thing for air cooled engines but does little for water cooled. The primary negative is that it's much better at washing the oil film off cylinder walls at higher concentrations but you'd have to be north of 50% to see that. Autoignition temp of gasoline is 580f, give or take a bit, ethanol is 685f or so. But the BTU content of ethanol is 76,000 BTU/gal as opposed to gasoline's 125,000 BTU/gal the energy input per unit time in the ignition cycle is far less than gasoline thus the heat available for input into the engine is far less...40% less. If you really want to see a cool engine modify it for methanol (nasty stuff, don't recommend it).
Getting your facts from the "home handyman" is at best, suspect.
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