Return-Path: Received: from [65.33.86.188] (account ) by logan.com (CommuniGate Pro WebUser 4.0.2) with HTTP id 1893314 for ; Tue, 03 Dec 2002 00:58:11 -0500 From: "Marvin Kaye" Subject: Re: [FlyRotary] Radiator Caps. To: flyrotary X-Mailer: CommuniGate Pro Web Mailer v.4.0.2 Date: Tue, 03 Dec 2002 00:58:11 -0500 Message-ID: In-Reply-To: <03f101c29a89$0961da00$6501a8c0@ip.net> MIME-Version: 1.0 Content-Type: text/plain; charset="ISO-8859-1"; format="flowed" Content-Transfer-Encoding: 8bit Posted for "David Carter" : I've been thinking of recent posts to this thread all day long driving home today from Birmingham, AL to Nederland, TX, trying to do a mental design of my 13B coolant system, factoring in some of the details that I've been reading about and thinking shallowly about for several years. First, this is obviously an important thread and some good "insights" ('a Ha!'s) are coming together from different previously unknown-to-be-related facts (classic definition of "insight" in flt instructor manual). E.g., 1) "runs a little cooler for 1 flight when I top off the system, but goes back to normal 5 to 10 degrees hotter after that initial "topped off" flight (caused possibly by tiny bit of steam forming during takeoff & climb that displaces more coolant than we'd expect from a simple increase of coolant temp from "cold" to "185 degrees" - the steam will condense back to liquid, but not until AFTER forcing out some coolant from a "too small" expansion tank or bottle - which is the variable between systems that consistently lose coolant or don't. Steam volume is about 1000 times the size of the liquid volume before it flashes going by the combustion chamber. So, if lose 2 fluid ounces of coolant, maybe got 2 oz of steam volume, which would come from 2/1000 fl oz of liquid water - NOT MUCH!) E.g, 2) Bill's most recent: "I always get a bit of air, maybe just the volume of the vent tube." - I thought about that one most of all today, then reached home and found Bill's post: If all the vent tubes to-from an expansion tank don't run UPHILL to the tank and enter that tank below liquid level, then they are running DOWNHILL and therefore can/will drain out and fill with air while everything is going along 'apparently nicely' during flight. Then, we when shut down, we get that "tube volume" of air sucked into the "closed, supposed-to-be-totally-fluid-system" before the liquid starts being sucked in. Then, as another poster said, you have a bit of air, not steam that will re-condense, continuously circulating (and increasing perhaps after every flight/shyutdown) probably as tiny bubbles, but which nonetheless cut the density and heat absorbing capacity of the coolant - something like 4% change was roughly calculated in that e-mail. Not much, but in the ball park for the 5 to 10 degree increase in temp noted. I recently had an oppurtunity to help a fellow diagnose a cooling problem with his 1995 or '98? Ford Taurus. A visual examination of the entire system revealed a couple of things I'd never seen before, but which were VERY GOOD to emulate: 1) The expansion tank was pressurized - had a big lock-on cap that had the 12-15 psi pressure relief valve right in the center. Don't remember if it had a vent hose to anything - think not. 2) The connection of this tank to the radiator was different from the "std" setups I'd seen on all other cars I own or have owned, which were a simple small rubber hose running from a stem off the radiator pressure cap's neck where coolant blowby (above the 15psi cap rating) would go to the non-pressurized, translucent expansion tank, until shutdown, at which time the coolant would be sucked back into the radiator, keeping it full. This Taurus system was different: It had 3 tubes - 1st from the top corner of the radiator, which lets air be forced out when filling the coolant system, 2nd from top part of engine head - highest point - which lets air be forced out when filling the coolant system, and last of all, it had a bigger tube that went straight down out of the bottom of the expansion tank to a T fitting on the radiator hose at the bottom of the radiator. This "down tube" was simply for filling the radiator and engine block "from the bottom", with the other two previously mentioned allowing air to be displaced/expelled as the liquid level rose in the radiator and engine block & head. Good system - makes more sense than anything I've seen. Both the air vent hoses ran level or uphill into the expansion tank and entered below the "cold" water level. Summary: I figure I'm going to get one of those Taurus tanks, measure volume ABOVE the "Cold" level, hope it is 1 1/4 qts to match the emperical data that says a 1 qt tank is too small for what is happening on Tracy's and some other systems ("it burped 2 oz out of the expansion tank into the test bottle or whatever Tracy attached to the overflow port of his expansion tank"). Then I'll make sure there is an additional fitting on each of my GM/Harrison air conditioner core "radiators" for air vent tubes that go UP slightly and T into the "fill"/"down" line so all air will be expelled from the radiators and go up into and out of the expansion tank while I'm filling the system with the pressure cap off the exp tank - when I fill the system; and then the "fill line/down tube" will T into the water hose to the water pump. Last, I'll have an air vent line from the front/high end of the 13B block - in looking at Dave Atkins' engine a couple of years ago, I think I noted there are plugged holes available at either end of engine for that "top air vent" line to run to the expansion tank. Finally, to keep all lines going UP, I'll mount the pressurized expansion tank up fwd of the engine in vicinity of PSRU so its "cold" coolant level will be slightly above the top of engine block. Hope that doesn't require a bubble in my RV-6 engine cowling. David Carter