Return-Path: Received: from [65.33.86.188] (account ) by logan.com (CommuniGate Pro WebUser 4.0.2) with HTTP id 1893901 for ; Tue, 03 Dec 2002 18:53:58 -0500 From: "Marvin Kaye" Subject: Re: [FlyRotary] Re: Radiator Caps. To: flyrotary X-Mailer: CommuniGate Pro Web Mailer v.4.0.2 Date: Tue, 03 Dec 2002 18:53:58 -0500 Message-ID: In-Reply-To: <3DECB53F.A130E861@starband.net> MIME-Version: 1.0 Content-Type: text/plain; charset="ISO-8859-1"; format="flowed" Content-Transfer-Encoding: 8bit Posted for Jim Sower : It sounds to me like air introduced into solution is causing problems, and that maybe it can be prevented from mixing into the water without eliminating air altogether. It seems to me that if there is room for a little "stagnant" air above the highest point in the system, and if there is "stagnant" water below it, the air won't mix. I'm assuming that the pressure cap is at the high point in the system. That said, if the pressure cap is at a point of high flow and turbulence, any air under the cap will tend to mix with the coolant. If, on the other hand, there is a column of coolant several inches high (like an upside down "T") with the cap at the top, all the activity will take place below the air pocket and separated from the air by the coolant in the stem of the "T". If that is already the case, and the air in the overflow tube that is drawn back into the system still mixes with coolant, then this is not a solution. If OTOH there is no place for some "still water" beneath the air bubble, perhaps it would be easier to provide some still water than totally eliminate the bubble. Just a theory .... Jim S.