X-Virus-Scanned: clean according to Sophos on Logan.com Return-Path: Received: from mail-qy0-f12.google.com ([209.85.221.12] verified) by logan.com (CommuniGate Pro SMTP 5.2.12) with ESMTP id 3501294 for flyrotary@lancaironline.net; Thu, 19 Feb 2009 15:06:14 -0500 Received-SPF: pass receiver=logan.com; client-ip=209.85.221.12; envelope-from=msteitle@gmail.com Received: by qyk5 with SMTP id 5so1237260qyk.19 for ; Thu, 19 Feb 2009 12:05:38 -0800 (PST) DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=gmail.com; s=gamma; h=domainkey-signature:mime-version:received:in-reply-to:references :date:message-id:subject:from:to:content-type; bh=U2hXjAqpnSP6wx5ZO+6xOmPi0BgA9T0LoIiNduSvZdU=; b=oGPMU9hkZgTtdmeErPF+NBP2GieP/jbLnEgltCfya15hutUK7NMYstyJJNXIrbSOR7 1J7i0F9ExTgG+ZPmKLSDY3B4qgalO2qRCayIa92HHyxLs75MGthlUOaOFwpa8HxNHjTL /QNrHB+8qkBnXnnvaZ/7VFRMrNcsrVg5nRPk4= DomainKey-Signature: a=rsa-sha1; c=nofws; d=gmail.com; s=gamma; h=mime-version:in-reply-to:references:date:message-id:subject:from:to :content-type; b=l8jhbV0VnbYFM+pf3WqA0QxiRchxb9dLS5Tf/o+z+i6FGK2y4xvi/ganaCigSoBifC 6guJSUn+dVpAQWvM2zyw6srtrWNQ2jyy0oyAC7kL/N9mPfdUtBcFb14YwqZ7VzCYZ04W CuGjzNnwV2LQgBJuT2J+xhUgs2hDF3ctfTyKg= MIME-Version: 1.0 Received: by 10.224.73.143 with SMTP id q15mr6291407qaj.311.1235073937966; Thu, 19 Feb 2009 12:05:37 -0800 (PST) In-Reply-To: References: Date: Thu, 19 Feb 2009 14:05:37 -0600 Message-ID: <5cf132c0902191205m13cdac87q6442d39f7e302edc@mail.gmail.com> Subject: Re: [FlyRotary] Re: Staging Bog and Lean mixture From: Mark Steitle To: Rotary motors in aircraft Content-Type: multipart/alternative; boundary=0015175cd56058095504634b0f01 --0015175cd56058095504634b0f01 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 7bit David, With the time lag at the staging point (as Tracy described), do you think it would help to switch the locations of the injectors and use the injectors that are at the front-end of runners as the primaries and the ones in the ports as the secondaries? I'm thinking that the secondaries would then have a little extra time to start flowing before the mixture provided by the primary injectors is cut in half. I'm guessing that some of the bog may be caused by the secondaries being located at the other end of the runners? Switching the injectors around may minimize the bog effect? Mark S. On Thu, Feb 19, 2009 at 1:43 PM, David Leonard wrote: > For me (and probably many others), there is the additional factor that my > secondaries are at the end of the runners while the primaries are in on the > engine block. That means there is a slight delay in the getting the fuel > from the secondaries. I do compensate a little by turning up the mixture a > little on the first couple of bins above the staging point. Helps, but cant > fix the problem all together. > > -- > David Leonard > > Turbo Rotary RV-6 N4VY > http://N4VY.RotaryRoster.net > http://RotaryRoster.net > > On Thu, Feb 19, 2009 at 8:59 AM, Ed Anderson wrote: > >> Ok, thanks for the explanation, Tracy. Makes sense to me. >> >> >> So the fuel increase with the secondaries coming on line during staging >> trails the shut-off of fuel on the primary injectors by some X amount. >> So >> if I visualize it correctly I would see the fuel flow coming out of the >> secondaries increase as a ramp function compared to the step function shut >> off of the primaries. All happening in milliseconds or less of course. >> >> Well, heck, all you have to do is calculate the cross over point where the >> ramp function of the secondary meets the primary step function just as it >> closes and then start the secondary injectors to opening before the >> primaries are closed. How, you do that - given all the interacting >> variables, I haven't any ideal - but sounds simple to me (in concept). I >> AM >> kidding {:>) {:>) >> >> I think I'll just stick with my current technique as it seems to do the >> job. >> >> >> By the way, here is an interesting patient perhaps related to the topic >> >> United States Patent 7475671 >> >> A method for compensating fuel injection timing when a torque signal or >> throttle command indicates that a transient operation is about to >> transpire. >> The control adjusts the fuel injection timing in advance of the transient >> operation to prevent loss of torque due to change in combustion phase >> position. During engine operation in pre-mix mode of combustion, rapid >> changes in fueling quantity can affect the combustion angle as well as the >> temperature in the combustion chamber, causing late or early combustion >> phasing. The present invention anticipates a change in combustion phasing >> by >> sensing a change in demanded fueling rate. The Engine Control Module (ECM) >> then applies a nest of algorithms to advance fuel injection timing during >> acceleration or to shorten ignition delay for deceleration by retarding >> fuel >> injection timing. As the engine returns to steady state operation, the >> compensation in injection timing is progressively reduced to zero. >> http://www.freepatentsonline.com/7475671.html >> >> >> The phrase I like best in the abstract is ...applies a nest of algorithms >> .. >> (sounds like a snake's nest to me {:>)). >> >> 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 Tracy Crook >> Sent: Thursday, February 19, 2009 10:48 AM >> To: Rotary motors in aircraft >> Subject: [FlyRotary] Re: Staging Bog and Lean mixture >> >> Hi Ed, The method you used will work fine for eliminating the staging bog. >> >> There have been enough comments on this subject so I might as well get >> into >> some of the underlying causes. >> >> I mentioned before that it was related to the difference in turn-on and >> turn-off times of the injectors. The turn-on time is slower than the turn >> off time, especially with the snubber mod which speeds up turn-off. So, >> at staging point, the injector pulse width ( IPW ) is cut in half at the >> same time as the controller enables the secondary injectors. If the t-on >> and t-off times were equal, the injected fuel would be almost the same as >> just before staging. BUT, the actual time the injectors are turned on is >> less than 1/2 of what it was because a higher percentage of the IPW is >> used >> up in the t-on injector delay , result is a lean condition. When the >> throttle is advanced more, the IPW gets longer and so the percentage of >> IPW >> "wasted" in the t-on delay is less and the mixture returns to normal. >> >> If the staging point is made at a higher manifold pressure (and longer >> IPW), >> the effect is not as great and that's why tuning out the "bog" is easier. >> >> This describes the results with the same flow rate injectors in both >> primary >> and secondary injectors. When different flow rates are used, the picture >> gets more complicated. Mode 6 (staging flow rate differential) is even >> more important in these cases. That's why I now ask for what injectors >> are >> used so I can roughly pre-set Mode 6 to make tuning it easier. >> >> Also a factor in how difficult the bog is to tune out is the setting of >> Mode >> 2 (Injection Dynamic Range) but that is a longer subject. Suffice it to >> say that setting Mode 6 and 2 up prior to MAP tuning in Mode 1 will make >> your life easier. >> >> Hope this helps in understanding what is going on. >> >> Tracy >> >> On Tue, Feb 17, 2009 at 5:45 PM, Ed Anderson >> wrote: >> Tracy, for what it's worth, I also see the leaning of the mixture at the >> staging point which happens to also coincide with the staging "bog". >> I never knew what was causing the bog and since I don't fly there nor >> encounter if during flight, it's never really bothered other than >> wondering >> about what was causing it. >> >> Once I had a screen display to watch the bin pointer, the staging point >> and >> the air/fuel mixture on the same screen, all at the same time, it became >> very clear that leaning of the mixture (or at least that is the indication >> of air/fuel ratio indicator) is happening. >> >> As my bin pointer moves from the hump at the idle (low rpm) region, it >> jumps >> from the low rpm map to the high power/manifold pressure chart above bin >> 64 >> - not staged yet. Still no bog, but as it moves a few bins higher the >> air/fuel indicator dives from rich side to off the bottom of the scale >> lean >> and the bog begins. At this point my staging sign goes from 2 injectors to >> 4 >> injectors indicating that the EC2 has signaled staging. It last for >> approx >> 3-5 bins (memory's a bit vague here) before the A/F indicator comes back >> up >> the scale. So something is causing a lean condition. I always speculated >> that it had something to do with the air/fuel mixture in the secondaries >> making the transition from "dry" to wet - but couldn't quite convince >> myself. >> >> The only way I have been able to eliminate the bog is to increase the >> richness of that region (3-4 bins) to approx 80-90 (out of 255) which is >> not >> really a rich setting, but it works and has eliminated the bog. I enrich >> each bin's bar watching the A/F indicator as soon as it stops going >> completely off the lean end of the scale, I stop and that seems to work >> for >> me. >> >> 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 >> >> >> >> >> >> __________ Information from ESET NOD32 Antivirus, version of virus >> signature >> database 3267 (20080714) __________ >> >> The message was checked by ESET NOD32 Antivirus. >> >> http://www.eset.com >> >> >> -- >> Homepage: http://www.flyrotary.com/ >> Archive and UnSub: >> http://mail.lancaironline.net:81/lists/flyrotary/List.html >> >> > > > > --0015175cd56058095504634b0f01 Content-Type: text/html; charset=ISO-8859-1 Content-Transfer-Encoding: quoted-printable
David,
 
With the time lag at the staging point (as Tracy described), do you th= ink it would help to switch the locations of the injectors and us= e the injectors that are at the front-end of runners as the primaries and t= he ones in the ports as the secondaries?  I'm thinking that the se= condaries would then have a little extra time to start = flowing before the mixture provided by the primary injectors is cut in half= .  I'm guessing that some of the bog may be caused by the sec= ondaries being located at the other end of the runners?  Switching&nbs= p;the injectors around may minimize the bog effect?    =
 
Mark S.   

On Thu, Feb 19, 2009 at 1:43 PM, David Leonard <= span dir=3D"ltr"><wdleonard@gmail= .com> wrote:
For me (and probably many others), there is the additional factor that= my secondaries are at the end of the runners while the primaries are in on= the engine block.  That means there is a slight delay in the getting = the fuel from the secondaries.  I do compensate a little by turning up= the mixture a little on the first couple of bins above the staging point.&= nbsp; Helps, but cant fix the problem all together.
 
--
David Leonard

Turbo Rotary RV-6 N4VY
http://N4VY.RotaryRoster.net
http://RotaryRo= ster.net

On Thu, Feb 19, 2009 at 8:59 AM, Ed Anderson <eanderson@carolina.rr.com> wrote:
Ok, thanks for the explanation, = Tracy.  Makes sense to me.


So the fuel increase with the se= condaries coming on line during staging
trails the shut-off of fuel on the primary injectors by some  X amount= .  So
if I visualize it correctly I would see the fuel flow coming = out of the
secondaries increase as a ramp function compared to the step = function shut
off of the primaries. All happening in milliseconds or less of course.
<= br>Well, heck, all you have to do is calculate the cross over point where t= he
ramp function of the secondary meets the primary step function just a= s it
closes and then start the secondary injectors to opening before the
prim= aries are closed.  How, you do that - given all the interacting
var= iables, I haven't any ideal - but sounds simple to me (in concept). &nb= sp;I AM
kidding {:>) {:>)

I think I'll just stick with my current = technique as it seems to do the job.


By the way, here is an inte= resting patient perhaps related to the topic

United States Patent 74= 75671

A method for compensating fuel injection timing when a torque signal or=
throttle command indicates that a transient operation is about to trans= pire.
The control adjusts the fuel injection timing in advance of the tr= ansient
operation to prevent loss of torque due to change in combustion phase
po= sition. During engine operation in pre-mix mode of combustion, rapid
cha= nges in fueling quantity can affect the combustion angle as well as the
temperature in the combustion chamber, causing late or early combustion
= phasing. The present invention anticipates a change in combustion phasing b= y
sensing a change in demanded fueling rate. The Engine Control Module (= ECM)
then applies a nest of algorithms to advance fuel injection timing duringacceleration or to shorten ignition delay for deceleration by retarding f= uel
injection timing. As the engine returns to steady state operation, t= he
compensation in injection timing is progressively reduced to zero.
http= ://www.freepatentsonline.com/7475671.html


The phrase I like = best in the abstract is ...applies a nest of algorithms ..
(sounds like a snake's nest to me {:>)).
From: Rotary motors in aircraft [mailto:flyrotary@lancaironline.net] On=
Behalf Of Tracy Crook
Sent: Thursday, February 19, 2009 10:48 AM
To: Rotary motors in aircraft
Subject: [FlyRotary] Re: Staging Bog and L= ean mixture

Hi Ed, The method you used will work fine for eliminating the stag= ing bog.

There have been enough comments on this subject so I might = as well get into
some of the underlying causes.

I mentioned befor= e that it was related to the difference in turn-on and
turn-off times of the injectors.  The turn-on time is slower than the = turn
off time, especially with the snubber mod which speeds up turn-off.=   So,
at staging point, the injector pulse width ( IPW )  is = cut in half at the
same time as the controller enables the secondary injectors.  If the t= -on
and t-off times were equal, the injected fuel would be almost the sa= me as
just before staging.   BUT, the actual time the injectors are= turned on is
less than 1/2 of what it was because a higher percentage of the IPW is used=
up in the t-on injector delay ,  result is a lean condition.  = ; When the
throttle is advanced more, the IPW gets longer and so the per= centage of IPW
"wasted" in the t-on delay is less and the mixture returns to nor= mal.

If the staging point is made at a higher manifold pressure (and= longer IPW),
the effect is not as great and that's why tuning out t= he "bog" is easier.

This describes the results with the same flow rate injectors in both pr= imary
and secondary injectors.   When different flow rates are used= , the picture
gets more complicated.   Mode 6 (staging flow rate di= fferential) is even
more important in these cases.  That's why I now ask for what inje= ctors are
used so I can roughly pre-set Mode 6 to make tuning it easier.=

Also a factor in how difficult the bog is to tune out is the settin= g of Mode
2 (Injection Dynamic Range) but that is a longer subject.   Suffice it= to
say that setting Mode 6 and 2 up prior to MAP tuning in Mode 1 will = make
your life easier.

Hope this helps in understanding what is g= oing on.

Tracy

On Tue, Feb 17, 2009 at 5:45 PM, Ed Anderson <eanderson@carolina.= rr.com>
wrote:
Tracy, for what it's worth, I also see the = leaning of the mixture at the
staging point which happens to also coincide with the staging "bog&quo= t;.
I never knew what was causing the bog and since I don't fly ther= e nor
encounter if during flight, it's never really bothered other t= han wondering
about what was causing it.

Once I had a screen display to watch the = bin pointer, the staging point and
the air/fuel mixture on the same scre= en, all at the same time, it became
very clear that leaning of the mixtu= re (or at least that is the indication
of air/fuel ratio indicator) is happening.

As my bin pointer moves f= rom the hump at the idle (low rpm) region, it jumps
from the low rpm map= to the high power/manifold pressure chart above bin 64
- not staged yet= .  Still no bog, but as it moves a few bins higher   the
air/fuel indicator dives from rich side to off the bottom of the scale lean=
and the bog begins. At this point my staging sign goes from 2 injectors= to 4
injectors indicating that the EC2 has signaled staging.  It l= ast for approx
3-5 bins (memory's a bit vague here) before the A/F indicator comes bac= k up
the scale.  So something is causing a lean condition.  I = always speculated
that it had something to do with the air/fuel mixture = in the secondaries
making the transition from "dry" to wet - but couldn't quite = convince
myself.

The only way I have been able to eliminate the b= og is to increase the
richness of that region (3-4 bins) to approx 80-90= (out of 255) which is not
really a rich setting, but it works and has eliminated the bog.  I enr= ich
each bin's bar watching the A/F indicator as soon as it stops go= ing
completely off the lean end of the scale, I stop and that seems to w= ork for
me.

Ed

Ed Anderson
Rv-6A N494BW Rotary Powered
Matthews= , NC
eand= erson@carolina.rr.com
http://www.andersonee.com
http://= www.dmack.net/mazda/index.html
http://www.flyrotary.com/
http://mem= bers.cox.net/rogersda/rotary/configs.htm#N494BW
<http://members.cox.net/rogersda/rotary/configs.htm>
&= nbsp;<http://www.dmack.net/mazda/index.html>



__________ Information from ESET NOD32 Antivirus, version of virus sig= nature
database 3267 (20080714) __________

The message was checke= d by ESET NOD32 Antivirus.

http://www.eset.com


--
Homepage:  http://www.flyrotary.com/
Archive and UnSub: =   http://mail.lancaironline.net:81/lists/flyrotary/List.= html





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