Return-Path: Received: from [207.30.237.27] (account ) by logan.com (CommuniGate Pro WebUser 4.0b7) with HTTP id 1734111 for ; Sun, 15 Sep 2002 21:50:17 -0400 From: "Marvin Kaye" Subject: Re: Fw: Swirl tank volume? To: flyrotary X-Mailer: CommuniGate Pro Web Mailer v.4.0b7 Date: Sun, 15 Sep 2002 21:50:17 -0400 Message-ID: In-Reply-To: <000501c25d15$e9e6ab20$3a2fd1d8@yvoncournoyer> MIME-Version: 1.0 Content-Type: text/plain; charset="ISO-8859-1"; format="flowed" Content-Transfer-Encoding: 8bit Posted for "GERYVON" : > > Jerry Hey wrote: > > > > > > > > Paul, > > > >> Has there been any reference data to calculate the necessary volume > of the > > > >> swirl tank? How do you decide if you need one? It looks like some > > > >>have them and > > > >> some don't. > > > >> Thanks > > > >> Dean > > > > > > > >Most automotive systems don't use swirl tanks and they work quite well. > > > >I am going to try it with out and just copy an automotive system > exactly. > > > >After all, billions of dollars have gone into developing automotive > > > >cooling systems. If it will work for a 6000 pound truck pulling a > > > >7000 pound load up an 8% grade in So Cal at 65 MPH on a 100 F > > > >day it will work for an airplane. > > > > > > > >People flying use all sorts of different plumbing systems. I cannot at > this > > > >time identify why some plumbing systems work well and others don't. > > > >It is buried in too many other factors. > > > > > > > >I CAN see why some cooling system don't work for aerodynamic reasons > > > >and that problem appears to be at the top of the list. In that > > > >category having the back side of the rad too close to an object > > > >seems to be the main reason. Second is not having enough > > > >air outlet area for the cowl. Third is having a poorly shaped > > > >inlet duct. Having a radiator that is too small is way down > > > >the reason list. Most are too large given all the other mistakes. > > > >The exact plumbing system used is probably at the bottom > > > >of the reason list. > > > > > > > >We still have not got to the point where we are considering cooling > > > >drag as nobody is yet using cowl flaps to my knowledge. > > > > > > > >This is the way I see it now. > > > > > > > >Paul Lamar > > > > > > I think the difference is that automobiles universally have radiators > > > with one of the tanks above the engine. If the rad is below the > > > engine you will need a swirl pot. Race cars with low radiators > > > have swirl pots. Jerry > > I have a large radiator lying flat in the bottom of the aft fuselage, well > below and far from the engine. I have a simple small overflow tank and no > swirl pot. The rear housing heater outlet and smaller top outlet are both > connected back to the coolant pump. > I flew again yesterday. The weather was cool, (about 15C-60F) dry and > windy. Coolant and oil temperatures went to 200-210F on climb out as they > usually do. Cruising at 3-4000 ft after a few minutes (after some time) the > temps stabilized at coolant 160 and oil 180-5. > My coolant temp sensor is in the rear housing in the standard Mazda > location. My oil temp sensor is in the oil pan in the standard Mazda > location. > > Paul, I have never seen the coolant at 160 in flight before. After I > mentionned high temperatures in cabin compounded by hot air trapped in rear > fuselage, you suggested hot air exits under the stabilator. I tried that and > it appears to be quite efficient, for the engine cooling as well. Thanks for > the > tip. > Yvon Cournoyer I addressed this last message to ACRE NL on Sep 13. It has not appeared on the ACRE NL yet. I still want Jerry Hey to receive it. So here it is. Yvon Cournoyer.