To: | mgb-v8@autox.team.net |
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Subject: | Re: Cooling in relation to water speed |
From: | James Jewell <m1garand@speakeasy.net> |
Date: | Wed, 07 Dec 2005 20:18:00 -0500 |
In-reply-to: | <6.2.3.4.0.20051207154026.027b21a0@mail.look.ca> |
References: | <6.2.3.4.0.20051207154026.027b21a0@mail.look.ca> |
Reply-to: | James Jewell <m1garand@speakeasy.net> |
Sender: | owner-mgb-v8@autox.team.net |
User-agent: | Mozilla Thunderbird 1.0.6 (Windows/20050716) |
All, There are a few other things to consider. The analogy with "air across the radiator" is flawed, because in that case the system is "open loop" and the air is the coolant, not the substance being cooled. The air is coming from an essentially an infinite supply, kept at a bulk temperature (at least in your neighborhood), and once an air molecule has heated up, odds are that it will never touch your radiator again until the end of time, (by which point it has sufficiently cooled or heated, depending on your religious preference). Also, since air is already a gas, you don't have to worry about it boiling, although it does turn to plasma at a temperature that I can't remember and don't worry about. The question at hand is: Do we believe a company that is in the business of selling high-speed water pumps? OK, that's not the whole question, but it is important to consider. Stewart argues that the longer the water stays in the radiator getting cooler, the longer it also stays in the engine, getting hotter, as if that's a bad thing. But if the water doesn't get cool enough in the radiator, it is returned to the engine hotter, and closer to the boiling point, so in other words, running the pump faster puts hotter water back into the engine, so their argument is an oversimplified sales pitch. What their pumps do is improve flow at idle, where small radiators, with stock coolant perform poorly (cavitation, pumping losses, etc.) and non-linearly. As long as the water is moving fast enough that it doesn't boil on the hot side, it's moving fast enough. Above that, there are no textbook improvements. (it's possible that some poorly designed engines have "stagnant" pockets where the coolant moves through that location at a much slower rate than the rest of the water jacket, in which case the whole system flow has to be increased to compensate for that one location. Poor design, or poor casting could lead to this exception) Methods of improving your system are : 1) increase the radiator size (not really possible in our business), or fan speed 2) increasing the boiling point of the coolant. Keep in mind that metal doesn't magically fail at 212 deg. F, but water boils at that temp, and the metal quickly rises to a temperature where it does have problems. Most engines could run 100 or 200 deg. hotter without structural problems (read my Rover disclaimer below), but for the most part, the coolant fails before the actual structure of the engine. Tricks to increase the boiling point of water include running it at higher pressure (which is partially what Stewart's pumps do) or by adding chemicals, or both. Some folks completely forgo water and use other coolants that boil up in the 300 range. Now having said all that, the big-bore factory Rovers do crack, nearly every time the coolant gets above 190, because the factory was too cheap during the redesign to increase wall thickness between the sleeves and the water jacket. It's not a structural problem, and can be fixed. Wildcat blocks don't have that problem, nor do the 3.5L blocks. Frankly, any properly designed engine can run much hotter. Remember that the oil runs much hotter that 212, as do the heads, which are up in the 1200 Deg F range. Let the flaming arrows commence........... James J., agent provocateur /// /// mgb-v8@autox.team.net mailing list /// Send admin requests to majordomo@autox.team.net /// Send list postings to mgb-v8@autox.team.net /// Edit your replies! If they include this trailer, they will NOT be sent. /// |
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