X-Virus-Scanned: clean according to Sophos on Logan.com Return-Path: Sender: To: lml@lancaironline.net Date: Sun, 13 Jan 2013 17:51:42 -0500 Message-ID: X-Original-Return-Path: Received: from imr-db01.mx.aol.com ([205.188.91.95] verified) by logan.com (CommuniGate Pro SMTP 6.0.1) with ESMTP id 6009949 for lml@lancaironline.net; Sun, 13 Jan 2013 09:18:31 -0500 Received-SPF: pass receiver=logan.com; client-ip=205.188.91.95; envelope-from=Sky2high@aol.com Received: from mtaomg-ma02.r1000.mx.aol.com (mtaomg-ma02.r1000.mx.aol.com [172.29.41.9]) by imr-db01.mx.aol.com (Outbound Mail Relay) with ESMTP id E51D33800009B for ; Sun, 13 Jan 2013 09:17:56 -0500 (EST) Received: from core-mte003b.r1000.mail.aol.com (core-mte003.r1000.mail.aol.com [172.29.236.73]) by mtaomg-ma02.r1000.mx.aol.com (OMAG/Core Interface) with ESMTP id B6AEBE000081 for ; Sun, 13 Jan 2013 09:17:56 -0500 (EST) From: Sky2high@aol.com Full-name: Sky2high X-Original-Message-ID: <12e5c.79cf7c7c.3e241c14@aol.com> X-Original-Date: Sun, 13 Jan 2013 09:17:56 -0500 (EST) Subject: Re: [LML] Efficiency of canards, lawn darts and such X-Original-To: lml@lancaironline.net MIME-Version: 1.0 Content-Type: multipart/mixed; boundary="part1_12e5c.79cf7c7c.3e241c14_boundary" X-Mailer: AOL 9.6 sub 168 X-Originating-IP: [67.175.156.123] x-aol-global-disposition: G X-AOL-VSS-INFO: 5400.1158/87279 X-AOL-VSS-CODE: clean X-AOL-SCOLL-SCORE: 1:2:417889408:93952408 X-AOL-SCOLL-URL_COUNT: 1 x-aol-sid: 3039ac1d290950f2c2147f69 --part1_12e5c.79cf7c7c.3e241c14_boundary Content-Type: multipart/related; boundary="part1_12e5c.79cf7c7c.3e241c14_rel_boundary" --part1_12e5c.79cf7c7c.3e241c14_rel_boundary Content-Type: multipart/alternative; boundary="12e5c.79cf7c7c_alt_bound" --12e5c.79cf7c7c_alt_bound Content-Type: text/plain; charset="US-ASCII" Content-Transfer-Encoding: 7bit Fred, Yep, and flying in the ETE or backwards is no help. The problem of flying at sea level over land is well known as the only place in the US is abnormally hot too. Equine power (HP) is another weirdo since the FAA, in concert with the aviation-industrial complex, uses sea level (baro setting) with dry air at 15C to rate it. The SAE is a bit more reasonable in that they use a higher temperature and a lower baro (I think they try the dry air trick also) that would lower the HP rating of aircraft engines by 5% (?, could be more) using their formulation. As you point out, drag elements are most interesting when related to slick wee lawn darts. With such a small flat plate area, any thing related to drag has a great impact on performance. Small increases in power are rewarding. Reduced cooling drag is a free performance enhancer. Gap seals have a positive effect. Etc. This is also why a windmilling CS prop at coarse pitch (lo drag) is such an improvement in reducing the descent rate (at best glide) as opposed to it being left in cruise pitch (hi drag). In my 320 the rate was about 500 fpm vs 1500 fpm (in an airplane made slicker by aforementioned adjustments). Egads, I blather on............ Grayhawk In a message dated 1/13/2013 1:29:43 A.M. Central Standard Time, frederickmoreno@bigpond.com writes: At OSH in the late 70's, era of the Vari-eze, we had dinner with the late RT Jones, America's premier aerodynamicist. I asked him, "Are the Vari-ezes fast with small HP because they are canards?" "No," he said, "It is because they are slick." Experience has shown that our tractor arrangement airplanes can be as efficient as the best exotic pushers and canards and such due to secondary effects such as prop/fuselage effects and such. ATtention to detail in drag reduction is the key. Fanaticism helps. Let's set aside efficiency defined as fuel burned per ton mile (huge supertankers win hands down) or airplane fuel burned per seat mile (747 and A380's win) and focus on simple airplane miles per gallon. For that you need the minimum airplane drag and maximum efficiency out of the engine. Total drag (induced plus skin friction parasitic plus cooling drag) can be measured by a full power blast at sea level. We use sea level and full power because at this corner of the envelope you get the most accurate data in an area where accuracy counts for a lot. Note that TAS calibration is a must if you want truthful numbers, or you must make four way GPS runs under absolutely stable conditions. Caution: small errors make big changes in drag area estimates. You can do it at altitude, but you have to make corrections for density altitude, air density, power corrections, and so forth. Do-able, but errors multiply. Here is how it works using the attached chart. Multiply your full throttle sea level power by .85 for the propeller efficiency to get the net horsepower (along the top of the chart attached), then go down the diagonal line until you intersect your top speed in MPH (along the bottom). At that intersection go to the left or right to get the total equivalent "flat plate drag area." Lower is better. Some reference figures: stock Lancair IV as originally designed and tested (non- pressurized, 2900 lb gross wt, turbocharged with intercoolers) was measured at 2.12 square feet. The cleanest 235/320 class, about 1.7 (from memory, may be wrong). ES/Cirrus/Columbia about 3, while C210/Bonanza class about 4. C172/182 about 6 (very rough). I think the Legacy works out to about 1.8-2.0 but reports on performance vary widely. As I said, little errors in power estimation, speed calibration and such make big errors in the flat plate area number. In my own case, non-pressurized, no turbos (and thus no intercoolers with their associated cooling drag), extreme attention to reduced cooling drag, cowl flaps closed, fresh paint with no nicks or dust, no bugs, gap seals, the works, I got down to maybe 1.85. Age, nicks on leading edge, foam strips that have worked loose here and there and such and it has creeped up with age to maybe 1.9, possibly a bit more. GOOD data takes a lot of effort to get. Carefully calibrated instruments, three test runs with careful measurement and corrections (don't forget to correct power if your manifold pressure is higher than normal due ram pressure during that high speed sea level blast) and you should get close. It's all good fun. Give it a try. --12e5c.79cf7c7c_alt_bound Content-Type: text/html; charset="US-ASCII" Content-Transfer-Encoding: quoted-printable
Fred,
 
Yep, and flying in the ETE or backwards is no help.  The=20 problem of flying at sea level over land is well known as the only pla= ce in=20 the US is abnormally hot too.  Equine power (HP) is another weirdo sin= ce=20 the FAA, in concert with the aviation-industrial complex, uses sea level (b= aro=20 setting) with dry air at 15C to rate it. The SAE is a bit mo= re=20 reasonable in that they use a higher temperature and a lower baro (I think = they=20 try the dry air trick also) that would lower the HP rating of aircraft= =20 engines by 5% (?, could be more) using their formulation.
 
As you point out, drag elements are most interesting when related to s= lick=20 wee lawn darts.  With such a small flat plate area, any thing related = to=20 drag has a great impact on performance.  Small increases in power are= =20 rewarding.  Reduced cooling drag is a free performance enhancer. = Gap=20 seals have a positive effect.  Etc.  This is also why a=20 windmilling CS prop at coarse pitch (lo drag) is such an improvem= ent=20 in reducing the descent rate (at best glide) as opposed to it being left in= =20 cruise pitch (hi drag).  In my 320 the rate was about 500 fpm vs 1500 = fpm=20 (in an airplane made slicker by aforementioned adjustments).
 
Egads, I blather on............
 
Grayhawk
 
In a message dated 1/13/2013 1:29:43 A.M. Central Standard Time,=20 frederickmoreno@bigpond.com writes:
At OSH in the late 70's, era of the Vari-eze, we had dinn= er=20 with the late RT Jones, America's premier aerodynamicist.  I a= sked=20 him, "Are the Vari-ezes fast with small HP because they are=20 canards?"  "No," he said, "It is because they are=20 slick."
 
Experience has shown that our tractor arrangement airplanes ca= n be=20 as efficient as the best exotic pushers and canards and such due to= =20 secondary effects such as prop/fuselage effects and such. =20 ATtention to detail in drag reduction is the key.  Fanaticism= =20 helps.
 
Let's set aside efficiency defined as fuel burned per ton mile= =20 (huge supertankers win hands down) or airplane fuel burned per seat= mile=20 (747 and A380's win) and focus on simple airplane miles per=20 gallon.  For that you need the minimum  airplane drag and= =20 maximum efficiency out of the engine. 
 
Total drag (induced plus skin friction parasitic plus cooling = drag)=20 can be measured by a full power blast at sea level.  We use se= a=20 level and full power because at this corner of the envelope you get= the=20 most accurate data in an area where accuracy counts for a lot. = ;=20 Note that TAS calibration is a must if you want truthful numbers, o= r you=20 must make four way GPS runs under absolutely stable=20 conditions.   Caution: small errors make big changes in d= rag=20 area estimates.  You can do it at altitude, but you have to ma= ke=20 corrections for density altitude, air density, power corrections, a= nd so=20 forth.   Do-able, but errors multiply.
 
Here is how it works using the attached chart.  Multiply = your=20 full throttle sea level power by .85 for the propeller efficiency t= o get=20 the net horsepower (along the top of the chart attached), then = ;go=20 down the diagonal line until you intersect your top speed in  = MPH=20 (along the bottom).  At that intersection go to the left or ri= ght=20 to get the total equivalent "flat plate drag area."  Lower is= =20 better.  
 
Some reference figures: stock Lancair IV as originally designe= d and=20 tested (non- pressurized, 2900 lb gross wt, turbocharged with=20 intercoolers) was measured at 2.12 square feet.  The cleanest= =20 235/320 class, about 1.7 (from memory, may be wrong). =20 ES/Cirrus/Columbia about 3, while C210/Bonanza class about 4. = =20 C172/182 about 6 (very rough). 
 
I think the Legacy  works out to about 1.8-2.0  but= =20 reports on performance vary widely.  As I said, little errors = in=20 power estimation, speed calibration and such make big errors in the= flat=20 plate area number.  In my own case, non-pressurized, no turbos= (and=20 thus no intercoolers with their associated cooling drag), extreme= =20 attention to reduced cooling drag, cowl flaps closed, fresh paint w= ith=20 no nicks or  dust, no bugs, gap seals, the works, I got down t= o=20 maybe 1.85.  Age, nicks on leading edge, foam strips that have= =20 worked loose here and there and such and it has creeped up with age= to=20 maybe 1.9, possibly a bit more.   
 
GOOD data takes a lot of effort to get.  Carefully calibr= ated=20 instruments, three test runs with careful measurement and correctio= ns=20 (don't forget to correct power if your manifold pressure is higher = than=20 normal due ram pressure during that high speed sea level blast) and= =20 you should get close.  It's all good fun.  Give it a= =20 try. 
 
 
 
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