X-Virus-Scanned: clean according to Sophos on Logan.com Return-Path: Received: from fmailhost06.isp.att.net ([204.127.217.106] verified) by logan.com (CommuniGate Pro SMTP 5.2.12) with ESMTP id 3500119 for flyrotary@lancaironline.net; Wed, 18 Feb 2009 23:26:08 -0500 Received-SPF: pass receiver=logan.com; client-ip=204.127.217.106; envelope-from=bbradburry@bellsouth.net Received: from desktop (adsl-146-127-99.mco.bellsouth.net[72.146.127.99]) by isp.att.net (frfwmhc06) with SMTP id <20090219042529H0600193mbe>; Thu, 19 Feb 2009 04:25:30 +0000 X-Originating-IP: [72.146.127.99] From: "Bill Bradburry" To: "'Rotary motors in aircraft'" References: In-Reply-To: Subject: RE: [FlyRotary] Re: staging Date: Wed, 18 Feb 2009 23:25:32 -0500 Message-ID: <321CF2E08FDE45D2A4CC1CF16A68D6E0@Desktop> MIME-Version: 1.0 Content-Type: multipart/alternative; boundary="----=_NextPart_000_0021_01C99220.3252B660" X-Mailer: Microsoft Office Outlook 11 Thread-Index: AcmSHOvTtAyf3ARuQVaUHBN7naV7XQAK9xxw X-MimeOLE: Produced By Microsoft MimeOLE V6.0.6001.18049 This is a multi-part message in MIME format. ------=_NextPart_000_0021_01C99220.3252B660 Content-Type: text/plain; charset="us-ascii" Content-Transfer-Encoding: 7bit Thanks to both you and Jeff for calculating that for me. I was just mulling over where I should set the staging for the Renesis. I think Tracy has it set at around 15 inches from the factory. He suggests moving it a little higher to around 19-20 inches. Sounds like that is pretty close to the running out of gas point for the small injectors?? Where do you flying guys set the manifold pressure when on approach in the pattern? I would assume somewhere between 15 to 20 inches?? What does that give you in RPM? I assume you are approaching at about 90 knots? Bill B _____ From: Rotary motors in aircraft [mailto:flyrotary@lancaironline.net] On Behalf Of Ed Anderson Sent: Wednesday, February 18, 2009 6:02 PM To: Rotary motors in aircraft Subject: [FlyRotary] Re: staging Hi Bill, Two 295 cc/min injectors would provide a total of 2*295 * 0.8 = 472 cc/min combined flow at 80%. So converting to something I can handle better than metric - that gives approx 0.1307652 gallon/min * 60 = 7.845912 gallons/hr * 6lb/gallon = 47.075 lbs/hr. Using a conservative BSFC of 0.55 that gives Hp = 47.075/0.55 = 85.49 HP. An RV will fly quite well (once airborne) on that flow rate. I normally fly (cruise) at 7.5 - 9 gallons/hr. 85HP will get an RV launched as well - but need a longer runway for sure. But, I will be a very leery trying to get a heavily load RV out of a short strip on a hot day on that kind of power - in fact, I would not attempt it. But, then my RV-6A is a bit on the heavy side. However, Dave's use of two injectors for cruise works just fine - the primary reason is that he is using two 460 cc/min (I think, either that or 550 cc/min) injectors as primary, but taking the lower estimate. That would give Dave 2 * 460 *0.8 = 1150 cc/min or 0.3037979 gallon/min * 60 = 18.2278 gallon/hr * 6 = 109.36 lb/hr and finally Hp = 109.36 lb/hr / 0.55 = 198 HP. So due to the larger injectors Dave can fly with impunity (almost) on two injectors throughout his flight profile - except when he want to run boost and race {:>). So if you wanted to do the same, I would strongly suggest you go to larger than the stock Renesis injectors. Although, you might consider swapping your injector electrical connections so that your EC2 primary drives your secondary (larger injectors) and secondary your primary injectors - Naw probably not the best idea. Best Regards Ed Ed Anderson Rv-6A N494BW Rotary Powered Matthews, NC eanderson@carolina.rr.com http://www.andersonee.com http://www.dmack.net/mazda/index.html http://www.flyrotary.com/ http://members.cox.net/rogersda/rotary/configs.htm#N494BW _____ From: Rotary motors in aircraft [mailto:flyrotary@lancaironline.net] On Behalf Of Bill Bradburry Sent: Wednesday, February 18, 2009 1:20 PM To: Rotary motors in aircraft Subject: [FlyRotary] Re: staging Ed, You are good at this kind of thing.. The Renesis primary (red) injectors are 295 cc/min flow rate. At say, 80% duty cycle, what HP would these injectors support if you moved the staging point to higher RPMs? Bill B _____ From: Rotary motors in aircraft [mailto:flyrotary@lancaironline.net] On Behalf Of sboese Sent: Wednesday, February 18, 2009 12:07 PM To: Rotary motors in aircraft Subject: [FlyRotary] staging Tracy and all, Looking back at the data I was using when thinking about my "staging bog", I realize that the manifold pressures I am looking at are values I calculate from the EC2 data. My conversion to units of inches Hg may not be correct. Either my EC2 manifold pressure sensor may have changed calibration or I may have never had this conversion correct to begin with. I have only one program to do this and may not have it right. How Tracy keeps track of all the versions of EC's is beyond me. In any case, I can NOT say with certainty that my EC2 is internally inconsistent as I stated in my previous message. I apologize if this has caused you to waste any of your valuable time and energy over this. The reason I am concerned with staging more than many others might be is that at the ground level density altitudes of my home airport, the maximum manifold pressure I see is about 23 inches and of course it gradually drops off from there as I climb. This results in staging taking place during critical flight regimes. Encountering an extended "bog" right after take off is not my idea of fun. If I cannot get the staging to work well using mode 6, I am considering David Leonard's suggestion of moving the staging point to a higher manifold pressure where I will not normally encounter it. In my case this is need not be much of a change. The manual indicates that some modes are active only when the engine is running. Is this the case with mode 7? I'm trying to make sure I can set the staging point with a pressure source other than the engine. This does generate the potential for my next trip to lower altitudes to be memorable. I just have to remember that this is venturing into unknown territory again and that full throttle operation may not be reliable until tuning at the higher power settings accessible at lower altitudes has been accomplished. Again, my apologies to especially to Tracy and also the rest of you. Steve Boese __________ Information from ESET NOD32 Antivirus, version of virus signature database 3267 (20080714) __________ The message was checked by ESET NOD32 Antivirus. http://www.eset.com ------=_NextPart_000_0021_01C99220.3252B660 Content-Type: text/html; charset="us-ascii" Content-Transfer-Encoding: quoted-printable

Thanks to both you and Jeff for calculating that for me.  I = was just mulling over where I should set the staging for the Renesis.  = I think Tracy has it set at around 15 inches from the factory.  He suggests moving it a = little higher to around 19-20 inches.  Sounds like that is pretty close to = the running out of gas point for the small = injectors??

Where do you flying guys set the manifold pressure when on = approach in the pattern?  I would assume somewhere between 15 to 20 = inches??  What does that give you in RPM?  I assume you are approaching at = about 90 knots?

 

Bill B 

 

From: Rotary motors in aircraft [mailto:flyrotary@lancaironline.net] On Behalf Of Ed Anderson
Sent: Wednesday, February = 18, 2009 6:02 PM
To: Rotary motors in aircraft
Subject: [FlyRotary] Re: = staging

Hi = Bill,

 

Two 295 cc/min injectors would = provide a total of 2*295 * 0.8 =3D 472 cc/min combined flow at 80%.  So = converting to something I can handle better than metric - that gives approx 0.1307652 gallon/min * 60 =3D 7.845912 gallons/hr * 6lb/gallon =3D 47.075 = lbs/hr.  Using a conservative BSFC of 0.55 that gives Hp =3D 47.075/0.55 =3D 85.49 = HP.  An RV will fly quite well (once airborne) on that flow rate.  I normally = fly (cruise) at 7.5 – 9 gallons/hr.  85HP will get an RV launched = as well – but need a longer runway for = sure.

 

 But, I will be a very leery = trying to get a heavily load RV out of a short strip on a hot day on that kind = of power – in fact, I would not attempt it.  But, then my RV-6A = is a bit on the heavy side.

 

However,  Dave’s use of = two injectors for cruise works just fine – the primary reason is that = he is using two 460 cc/min (I think, either that or 550 cc/min) injectors as = primary, but taking the lower estimate.  That would give Dave 2 * 460 *0.8 = =3D 1150 cc/min or 0.3037979 gallon/min * 60 =3D 18.2278 gallon/hr * 6 =3D 109.36 = lb/hr and finally

 Hp =3D 109.36 lb/hr / 0.55 = =3D 198 HP.  So due to the larger injectors Dave can fly with impunity = (almost) on two injectors throughout his flight profile – except when he want = to run boost and race {:>).

 

So if you wanted to do the same, I = would strongly suggest you go to larger than the stock Renesis = injectors.  Although, you might consider swapping your injector electrical = connections so that your EC2 primary drives your secondary (larger injectors) and = secondary your primary injectors – Naw probably not the best = idea.

 

Best = Regards

 

Ed

 

 

 

From: = Rotary motors in aircraft [mailto:flyrotary@lancaironline.net] On Behalf Of Bill Bradburry
Sent: Wednesday, February = 18, 2009 1:20 PM
To: Rotary motors in aircraft
Subject: [FlyRotary] Re: = staging

 

Ed, You are good at this kind of = thing..

 

The Renesis primary (red) injectors = are 295 cc/min flow rate.  At say, 80% duty cycle, what HP would these injectors support if you moved the staging point to higher = RPMs?

 

Bill B

From: = Rotary motors in aircraft [mailto:flyrotary@lancaironline.net] On Behalf Of sboese
Sent: Wednesday, February = 18, 2009 12:07 PM
To: Rotary motors in aircraft
Subject: [FlyRotary] = staging

 

Tracy and = all,

Looking back at the data I was = using when thinking about my “staging bog”, I realize that the manifold pressures I am looking at are values I calculate from the EC2 = data.  My conversion to units of inches Hg may not be correct.  Either my EC2 manifold pressure sensor may have changed calibration or I may have = never had this conversion correct to begin with.  I have only one program to = do this and may not have it right.  How Tracy keeps track of all the versions of EC’s is beyond me. =

In any case, I can NOT say with = certainty that my EC2 is internally inconsistent as I stated in my previous message.  I apologize if this has caused you to waste any of your = valuable time and energy over this.

The reason I am concerned with = staging more than many others might be is that at the ground level density = altitudes of my home airport, the maximum manifold pressure I see is about 23 inches = and of course it gradually drops off from there as I climb.  This results = in staging taking place during critical flight regimes.  Encountering = an extended “bog” right after take off is not my idea of = fun.  If I cannot get the staging to work well using mode 6, I am considering = David Leonard’s suggestion of moving the staging point to a higher = manifold pressure where I will not normally encounter it.  In my case this = is need not be much of a change.  The manual indicates that some modes are = active only when the engine is running.  Is this the case with mode = 7?  I’m trying to make sure I can set the staging point with a = pressure source other than the engine.

This does generate the potential = for my next trip to lower altitudes to be memorable.  I just have to = remember that this is venturing into unknown territory again and that full = throttle operation may not be reliable until tuning at the higher power settings accessible at lower altitudes has been = accomplished.

Again, my apologies to especially = to Tracy and also = the rest of you.

Steve = Boese

  

 

=

    



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The message was checked by ESET NOD32 Antivirus.

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