Return-Path: Received: from [65.33.163.164] (account marv@lancaironline.net) by logan.com (CommuniGate Pro WebUser 4.1.3) with HTTP id 2580687 for flyrotary@lancaironline.net; Mon, 15 Sep 2003 20:08:33 -0400 From: "Marvin Kaye" Subject: Re: PRV and wastegates To: flyrotary X-Mailer: CommuniGate Pro WebUser Interface v.4.1.3 Date: Mon, 15 Sep 2003 20:08:33 -0400 Message-ID: In-Reply-To: <000001c37a2f$ba178120$6502a8c0@office> MIME-Version: 1.0 Content-Type: text/plain; charset="ISO-8859-1"; format="flowed" Content-Transfer-Encoding: 8bit Posted for "marc" : This is typically the way all stock aircraft 'turbo normalized' intake manifolds are designed. The "pop off" or "blow off" or "prv" is set to release the excess pressure relative to the absolute map the "upper deck" is experiencing, regardless of pressure altitude outside. If you want 34" map at 20,000 feet it will not release unless that is exceeded. If you want 34" at sea level, the same goes. These safety devices are generally not adjustable in flight, but have an adjustment on the ground for the point at which you want it to 'relieve' your engine (within its design range for hp). Essential reading: the entire series of Light Plane Maintenance Mag's turbo maintenance series. This mag is worth its weight in gold if you have any aircraft, experimental or not. There are several control schemes used in aircraft. The sloped density controllers are neat. I don't have it all figured out yet, and wish GAMI would come up with an electronic scheme better than the hydraulic control schemes presently in widespread use. I do not have much regard for any system using vacuum tubing controls. One thought to remember regarding almost all wastegates: they aren't as big as the open pipe straight from the engine. Most times they are about half size. So unless you upsize the wastegate and assoc piping, you will almost always be running some boost, even at sea level! Marc Wiese