Return-Path: Received: from fed1mtao03.cox.net ([68.6.19.242] verified) by logan.com (CommuniGate Pro SMTP 4.1.8) with ESMTP id 2754337 for flyrotary@lancaironline.net; Fri, 21 Nov 2003 01:24:58 -0500 Received: from BigAl ([68.107.116.221]) by fed1mtao03.cox.net (InterMail vM.5.01.06.05 201-253-122-130-105-20030824) with ESMTP id <20031121062456.XPWR28419.fed1mtao03.cox.net@BigAl> for ; Fri, 21 Nov 2003 01:24:56 -0500 From: "Al Gietzen" To: "'Rotary motors in aircraft'" Subject: RE: [FlyRotary] radiator Date: Thu, 20 Nov 2003 22:24:57 -0800 Message-ID: <000001c3aff8$2f4b2570$6400a8c0@BigAl> MIME-Version: 1.0 Content-Type: multipart/mixed; boundary="----=_NextPart_000_0001_01C3AFB5.2127E570" X-Priority: 3 (Normal) X-MSMail-Priority: Normal X-Mailer: Microsoft Outlook, Build 10.0.4024 Importance: Normal In-Reply-To: X-MimeOLE: Produced By Microsoft MimeOLE V6.00.2800.1165 This is a multi-part message in MIME format. ------=_NextPart_000_0001_01C3AFB5.2127E570 Content-Type: multipart/alternative; boundary="----=_NextPart_001_0002_01C3AFB5.2127E570" ------=_NextPart_001_0002_01C3AFB5.2127E570 Content-Type: text/plain; charset="us-ascii" Content-Transfer-Encoding: 7bit Subject: [FlyRotary] radiator Hi, fellow rotary enthusiasts.....I'm getting ready to order a radiator for my 13b powered SQ2000 canard pusher. I talked to Al Wick, and he has a 160 hp Subaru powered Cozy and is cooling it very well with a radiator that is 17" x 7.25" x 3" deep. Any idea if that size might also cool a rotary? We all know that the cooling system is the most frequent problem area in custom engine installations. One reason is that too often it is done on the basis of 'what worked for Joe Blow should work for me'. It's not that I argue with what works; it's just that configurations are very different, and the applications (air speeds) are different. Ducting and air flow are probably the most variable. Right off hand, Paul, I'd guess that a 17" x 7.25" x 3" would work for roughly a continuous 100 hp climb on a 90 degree day. The cooling system can be 'engineered' without too much complex math to give you pretty good odds on having it work when you get in the air. Ed has taken a good step to putting together some analysis. When I get a chance I'll write up how I engineered my system; although it would be safer to talk about that after I get it proven in flight, wouldn't it. But maybe some guidelines (and opinions) could help. We know how much heat we have to reject from the rotary engine coolant, and from the oil. We know about what the flow rates are, we know the specific heat of water (and 50/50 eg &water) and we know the specific heat of air. Radiator designs have lots of variables, but there is plenty of experience to tell us pretty well what is optimum; so we can compute what air flow we need for a given power and air temp. Without going too much into numbers, I'll say that the stock Mazda water pumps are fine for a NA 13B. You need about 0.2 gpm per hp at 6000 rpm. Full power climbout is the limiting condition; and my 'opinion' is that we should design for at least 80% power on a 90 degree day. We have to compromise if we don't have adjustable ducting because we don't want the drag associated with full power capability for our cruise flight. Interestingly, with the above assumptions, the air flow you need in cubic ft/min (cfm) is very close to the heat rejected from the coolant in Btu/min. And that's about 27/hp for the coolant and about 11/hp for the oil. And if you know how fast you're going you can calculate the inlet area needed. Take the required cfm, divide by the forward speed in ft/min, divide by a scoop efficiency of about 85% (.85, maybe less if you are using a NACA scoop), and there you have it - inlet area in sq. ft. Multiply by 144 gives you sq. in. Yes, you need to know how get from there to dimensions of whatever inlet shape you're using. Inlet diffusers (expanding duct) are important to convert the dynamic pressure into static pressure that can force the air through the radiator. This depends on a whole bunch of factors, but for a tractor plane you get some external diffusion up there on the front of the cowling, and on pushers with the scoop toward the back you don't. So on a pusher the duct needs to slow the air by at least about a factor of 3-5, that is expand it to 3-5 times the area (. On a tractor type, maybe 2-3 will work. So now you know, roughly , the cross sectional area of your radiator. Using something close to the K-M duct expansion profile (attached) is good. The specifics of rad design are complex. You know about the old thick vs thin argument, as though that were the only variable; but it isn't. You can have thick if the core density (fins/in, tube spacing, etc.) is low and you have a high diffuser ratio. But my impression is that with the right amount of coolant flow and the right amount of air, there is a fair amount of latitude. There is plenty of data from the racing world that suggests that a rad thickness of about 2.5" may be optimum; 3 will be fine. The rad area times thickness gives you volume. Somewhere around 2.5 - 3.0 cu. in./hp will be fine for cruise. But for that climbout on a hot day, you're going to need more; probably around 4. And don't forget; to keep the drag down you'd like to liberate that cooling air back into the free stream at something like free stream velocity. So some of that static pressure you recovered in the inlet duct can be used to accelerate the air in the outlet. Outlet area should be on the order of 1.5 times inlet area, and try to let the air out in a low pressure area. So that ought to get you into the ballpark, and if you do things right it will work just fine. You can do some tuning after you get the thing flying. Al ------=_NextPart_001_0002_01C3AFB5.2127E570 Content-Type: text/html; charset="us-ascii" Content-Transfer-Encoding: quoted-printable

Subject: [FlyRotary] radiator

 

Hi, fellow rotary enthusiasts.....I'm getting ready to order a radiator for my 13b powered = SQ2000 canard pusher.  I talked to Al Wick, and he has a 160 hp Subaru = powered Cozy and is cooling it very well with a radiator that is 17" x = 7.25" x 3" deep.  Any idea if that size might also cool a = rotary? 

 

 

We all know that the cooling = system is the most frequent problem area in custom engine installations.  One = reason is that too often it is done on the basis of ‘what worked for Joe = Blow should work for me’.  It’s not that I argue with what = works; it’s just that configurations are very different, and the = applications (air speeds) are different.  Ducting and air flow are probably the = most variable.  Right off hand, Paul, I’d guess that a 17” x 7.25” x 3” would work for roughly a continuous 100 hp climb = on a 90 degree day.

 

 The cooling system can be ‘engineered’ without too much complex math to give you = pretty good odds on having it work when you get in the air.  Ed has taken a = good step to putting together some analysis.  When I get a chance I’ll = write up how I engineered my system; although it would be safer to talk about = that after I get it proven in flight, wouldn’t it.  But maybe some guidelines (and opinions) could help.

 

We know how much heat we have to = reject from the rotary engine coolant, and from the oil.  We know about = what the flow rates are, we know the specific heat of water (and 50/50 eg = &water) and we know the specific heat of air.  Radiator designs have lots = of variables, but there is plenty of experience to tell us pretty well what = is optimum; so we can compute what air flow we need for a given power and = air temp.

 

Without going too much into = numbers, I’ll say that the stock Mazda water pumps are fine for a NA 13B. = You need about 0.2 gpm per hp at 6000 rpm.  Full power climbout is the = limiting condition; and my ‘opinion’ is that we should design for at = least 80% power on a 90 degree day.  We have to compromise if we don’t = have adjustable ducting because we don’t want the drag associated with = full power capability for our cruise flight.

 

Interestingly, with the above assumptions, the air flow you need in cubic ft/min (cfm) is very close = to the heat rejected from the coolant in Btu/min.  And that’s about = 27/hp for the coolant and about 11/hp for the oil.  And if you know how = fast you’re going you can calculate the inlet area needed.  Take = the required cfm, divide by the forward speed in ft/min, divide by a scoop efficiency of about 85% (.85, maybe less if you are using a NACA scoop), = and there you have it – inlet area in sq. ft.  Multiply by 144 = gives you sq. in.  Yes, you need to know how get from there to dimensions of whatever inlet shape you’re using.

 

Inlet diffusers (expanding duct) = are important to convert the dynamic pressure into static pressure that can = force the air through the radiator.  This depends on a whole bunch of = factors, but for a tractor plane you get some external diffusion up there on the = front of the cowling, and on pushers with the scoop toward the back you don’t.  So on a pusher the duct needs to slow the air by at = least about a factor of 3-5, that is expand it to 3-5 times the area (.  = On a tractor type, maybe 2-3 will work.  So now you know, roughly , the = cross sectional area of your radiator.  Using something close to the K-M = duct expansion profile (attached) is good.

 

The specifics of rad design are complex.  You know about the old thick vs thin argument, as though = that were the only variable; but it isn’t.  You can have thick if = the core density (fins/in, tube spacing, etc.) is low and you have a high = diffuser ratio. But my impression is that with the right amount of coolant flow = and the right amount of air, there is a fair amount of latitude.  There is = plenty of data from the racing world that suggests that a rad thickness of = about 2.5” may be optimum; 3 will be fine.  The rad area times thickness gives = you volume.

 

Somewhere around 2.5 – 3.0 = cu. in./hp will be fine for cruise.  But for that climbout on a hot day, = you’re going to need more; probably around 4. 

 

And don’t forget; to keep = the drag down you’d like to liberate that cooling air back into the free = stream at something like free stream velocity.  So some of that static = pressure you recovered in the inlet duct can be used to accelerate the air in the = outlet.  Outlet area should be on the order of 1.5 times inlet area, and try to = let the air out in a low pressure area.

 

So that ought to get you into the ballpark, and if you do things right it will work just fine.  You = can do some tuning after you get the thing flying.

 

Al

 

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