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Date: Tue, 23 Oct 2007 11:01:56 -0500
From: "Mark Steitle" <msteitle@gmail.com>
To: "Rotary motors in aircraft" <flyrotary@lancaironline.net>
Subject: Re: [FlyRotary] Re: Cooling Update - Lancair ES/20B
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That's why they invented duct tape.  ;-)

Mark


On 10/23/07, Kelly Troyer <keltro@att.net> wrote:
>
>  Mark,
>    I presume you can temporarily block off the air to you air/oil cooler
> to
> test this theory ??
> --
> Kelly Troyer
> "Dyke Delta"_13B ROTARY Engine
> "RWS"_RD1C/EC2/EM2
> "Mistral"_Backplate/Oil Manifold
>
>
>
>
>
> -------------- Original message from "Mark Steitle" <msteitle@gmail.com>:
> --------------
>
> Bill,
>
> Oil temp is measured as oil enters the engine at the filter pad.  Water
> temp is measured at the thermostat housing as the coolant leaves the
> engine.  (I had also been measuring the oil temps leaving the engine and
> would see 225 - 250*F.  I had to remove this sensor when I installed the
> oil/water exchanger.)
>
> Prior to this change, in a slow cruise (5200 rpm), water temps had been as
> low as 140-150.  So, it brought the water temps up by about 25 - 35*F.  I
> have a pretty large radiator.
>
> I'm hoping that I will be able to remove the oil/air cooler and block off
> that inlet.  This should bring the oil temps more in line with the water
> temps.  Also, this would reduce the pressure inside the cowl thereby
> improving the airflow through the water radiator, and increase
> the efficiency of the system in the process.  We'll see.
>
> Mark
>
>
> On 10/23/07, Bill Schertz <wschertz@comcast.net> wrote:
> >
> >  Mark,
> > Interesting data, to help me understand it better \:
> >
> > 1. Oil flow from engine to oil/water cooler to oil/air cooler to engine?
> > where is the temperature measured?
> > 2. Where is water temp measured?
> > 3. What was water temp under similar conditions prior to the change?
> >
> > Bill Schertz
> > KIS Cruiser #4045
> >
> > ----- Original Message -----
> > *From:* Mark Steitle <msteitle@gmail.com>
> > *To:* Rotary motors in aircraft <flyrotary@lancaironline.net>
> > *Sent:* Tuesday, October 23, 2007 8:00 AM
> > *Subject:* [FlyRotary] Cooling Update - Lancair ES/20B
> >
> >
> > OK, I was going to wait to discuss this at the fly-in, but I was
> > chastized for keeping this to myself, so here goes.
> >
> > My 3-rotor Lancair ES has had excessive oil temps of 225 - 235*F (in
> > climb) since first flight.  Opening the cowl exit area helped enough to get
> > me in the air for more than a lap around the pattern, but I was
> > climb-limited to about 500fpm.  I was anticipating better performance once
> > the Texas summer heat subsided, but that just didn't happen this year (temps
> > in the high 80's just last weekend).  So, I decided to try an oil/water heat
> > exchanger.  I found a NASCAR Fluidyne unit on ebay and managed to "win" the
> > bid.  It required that I do major surgery to the cooling system, including
> > relocating some items on the firewall to make room for the new heat
> > exchanger.  I finished it up Sunday afternoon and did a couple of ground
> > runs and things looked promising (it didn't leak).  So, I decided to go for
> > a short t est flight.
> >
> > I set the  M/T constant speed prop to 2300 rpm, which will give me
> > takeoff rpm in the mid to upper 6K range.  OAT was about 88*F.  I
> > accelerated and where I would normally have to throttle back to keep temps
> > under 230*F, the temps were in the 180* range.  So, I kept the power on,
> > climbing like I have never climbed before (1400 fpm).  This is a 4-place,
> > 2100# empty airplane.  I kept it WOT until I reached 2000 msl (1500agl) and
> > then noticed that I forgot to retract the 10* flaps used for takeoff. So, I
> > cruised around at 2500 - 3000 msl and water temp was 170 - 177*F, oil temps
> > were 160 - 165*F.  Before this mod, my oil temps would normally be approx.
> > 185 - 190*F in cruise.  Needless to say, I was very happy.
> >
> > The difference in my oil/water arrangement is that I tapped the water
> > pump with a 1/2" line just before it enters the front side housing and I use
> > this "cool" water to supply the water to the oil/wat er exchanger.  I return
> > the heated water to the engine discharge leading to the radiator.  I felt
> > this would still provide sufficient coolant flow through the engine as some
> > guys are running the smaller 13B pump on their 3-rotor engines without a
> > problem.  The 20B water pump impeller is 1/4" larger diameter.  From my
> > initial flight, it seems that there is plenty of coolant flow to keep the
> > engine cool.
> >
> > It is really too early to tell for certain, but things look very
> > promising.  I will try and take some pictures to bring with me to the Rotary
> > Fly-In.
> >
> > Finally, to give credit where credit is due, I am told that Leon (from
> > down under) has been using this design for years with great success.  I
> > thank Leon for sharing his racer tricks with the group.
> >
> > Mark S.
> >
> >
>

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<div>That&#39;s why they invented&nbsp;duct tape.&nbsp; ;-)</div>
<div>&nbsp;</div>
<div>Mark<br><br>&nbsp;</div>
<div><span class=3D"gmail_quote">On 10/23/07, <b class=3D"gmail_sendername"=
>Kelly Troyer</b> &lt;<a href=3D"mailto:keltro@att.net">keltro@att.net</a>&=
gt; wrote:</span>
<blockquote class=3D"gmail_quote" style=3D"PADDING-LEFT: 1ex; MARGIN: 0px 0=
px 0px 0.8ex; BORDER-LEFT: #ccc 1px solid">
<div>
<div></div>
<div>Mark,</div>
<div>&nbsp;&nbsp; I presume you can temporarily block off the air to you ai=
r/oil cooler to </div>
<div>test this theory ??</div>
<div>--<br>Kelly Troyer <br>&quot;Dyke Delta&quot;_13B ROTARY Engine <br>&q=
uot;RWS&quot;_RD1C/EC2/EM2 <br>&quot;Mistral&quot;_Backplate/Oil Manifold <=
br><br><br><br>&nbsp;</div><br>
<blockquote style=3D"PADDING-LEFT: 5px; MARGIN-LEFT: 5px; BORDER-LEFT: #101=
0ff 2px solid">-------------- Original message from &quot;Mark Steitle&quot=
; &lt;<a onclick=3D"return top.js.OpenExtLink(window,event,this)" href=3D"m=
ailto:msteitle@gmail.com" target=3D"_blank">
msteitle@gmail.com</a>&gt;: -------------- <br><br>
<div>Bill, </div>
<div>&nbsp;</div>
<div>Oil temp is measured as oil enters the engine at the filter pad.&nbsp;=
 Water temp is measured at the thermostat housing as the coolant leaves the=
 engine.&nbsp; (I had also been measuring the oil temps leaving the engine =
and would see 225 - 250*F.&nbsp; I had to remove this sensor when I install=
ed the oil/water exchanger.)&nbsp;=20
</div>
<div>&nbsp;</div>
<div>Prior to this change, in a slow cruise (5200 rpm), water temps had bee=
n as low as 140-150.&nbsp; So, it brought the water temps up by about 25 - =
35*F.&nbsp; I have a pretty large radiator.&nbsp; </div>
<div>&nbsp;</div>
<div>I&#39;m hoping that I&nbsp;will be able to&nbsp;remove the oil/air coo=
ler and block off that inlet.&nbsp; This should bring the oil temps more in=
 line with the water temps.&nbsp; Also, this would reduce the pressure insi=
de the cowl thereby improving the airflow through the water radiator, and i=
ncrease the&nbsp;efficiency of&nbsp;the system in the process.&nbsp; We&#39=
;ll see.&nbsp;=20
<br><br>Mark</div>
<div>&nbsp;</div>
<div>&nbsp;</div>
<div><span class=3D"gmail_quote">On 10/23/07, <b class=3D"gmail_sendername"=
>Bill Schertz</b> &lt;<a onclick=3D"return top.js.OpenExtLink(window,event,=
this)" href=3D"mailto:wschertz@comcast.net" target=3D"_blank">wschertz@comc=
ast.net
</a>&gt; wrote:</span>=20
<blockquote class=3D"gmail_quote" style=3D"PADDING-LEFT: 1ex; MARGIN: 0px 0=
px 0px 0.8ex; BORDER-LEFT: #ccc 1px solid">
<div bgcolor=3D"#ffffff">
<div><font face=3D"Arial" size=3D"2">Mark,</font></div>
<div><font face=3D"Arial" size=3D"2">Interesting data, to help me understan=
d it better \:</font></div>
<div><font face=3D"Arial" size=3D"2"></font>&nbsp;</div>
<div><font face=3D"Arial" size=3D"2">1. Oil flow from engine to oil/water c=
ooler to oil/air cooler to engine? where is the temperature measured?</font=
></div>
<div><font face=3D"Arial" size=3D"2">2. Where is water temp measured?</font=
></div>
<div><font face=3D"Arial" size=3D"2">3. What was water temp under similar c=
onditions prior to the change?</font></div><span>
<div><font face=3D"Arial" size=3D"2"></font>&nbsp;</div>
<div>Bill Schertz<br>KIS Cruiser #4045</div></span>
<div><span>
<blockquote style=3D"PADDING-RIGHT: 0px; PADDING-LEFT: 5px; MARGIN-LEFT: 5p=
x; BORDER-LEFT: #000000 2px solid; MARGIN-RIGHT: 0px">
<div style=3D"FONT: 10pt arial">----- Original Message ----- </div>
<div style=3D"BACKGROUND: #e4e4e4; FONT: 10pt arial"><b>From:</b> <a title=
=3D"msteitle@gmail.com" onclick=3D"return top.js.OpenExtLink(window,event,t=
his)" href=3D"mailto:msteitle@gmail.com" target=3D"_blank">Mark Steitle</a>=
 </div>

<div style=3D"FONT: 10pt arial"><b>To:</b> <a title=3D"flyrotary@lancaironl=
ine.net" onclick=3D"return top.js.OpenExtLink(window,event,this)" href=3D"m=
ailto:flyrotary@lancaironline.net" target=3D"_blank">Rotary motors in aircr=
aft</a>
 </div>
<div style=3D"FONT: 10pt arial"><b>Sent:</b> Tuesday, October 23, 2007 8:00=
 AM</div>
<div style=3D"FONT: 10pt arial"><b>Subject:</b> [FlyRotary] Cooling Update =
- Lancair ES/20B</div>
<div><br>&nbsp;</div>OK, I was going to wait to discuss this at the fly-in,=
 but I was chastized for keeping this to myself, so here goes. <br><br>My 3=
-rotor Lancair ES has had excessive oil temps of 225 - 235*F (in climb) sin=
ce first flight.&nbsp; Opening the cowl exit area helped enough to get me i=
n the air for more than a lap around the pattern, but I was climb-limited t=
o about 500fpm.&nbsp; I was anticipating better performance once the Texas =
summer heat subsided, but that just didn&#39;t happen this year (temps in t=
he high 80&#39;s just last weekend).&nbsp; So, I decided to try an oil/wate=
r heat exchanger.&nbsp; I found a NASCAR Fluidyne unit on ebay and managed =
to &quot;win&quot; the bid.&nbsp; It required that I do major surgery to th=
e cooling system, including relocating some items on the firewall to make r=
oom for the new heat exchanger.&nbsp; I finished it up Sunday afternoon and=
 did a couple of ground runs and things looked promising (it didn&#39;t lea=
k).&nbsp; So, I decided to go for a short t est flight.&nbsp;=20
<br><br>I set the&nbsp; M/T constant speed prop to 2300 rpm, which will giv=
e me takeoff rpm in the mid to upper 6K range.&nbsp; OAT was about 88*F.&nb=
sp; I accelerated and where I would normally have to throttle back to keep =
temps under 230*F, the temps were in the 180* range.&nbsp; So, I kept the p=
ower on, climbing like I have never climbed before (1400 fpm).&nbsp; This i=
s a 4-place, 2100# empty airplane.&nbsp; I kept it WOT until I reached 2000=
 msl (1500agl) and then noticed that I forgot to retract the 10* flaps used=
 for takeoff. So, I cruised around at 2500 - 3000 msl and water temp was 17=
0 - 177*F, oil temps were 160 - 165*F.&nbsp; Before this mod, my oil temps =
would normally be approx. 185 - 190*F in cruise.&nbsp; Needless to say, I w=
as very happy.&nbsp;=20
<br><br>The difference in my oil/water arrangement is that I tapped the wat=
er pump with a 1/2&quot; line just before it enters the front side housing =
and I use this &quot;cool&quot; water to supply the water to the oil/wat er=
 exchanger.&nbsp; I return the heated water to the engine discharge leading=
 to the radiator.&nbsp; I felt this would still provide sufficient coolant =
flow through the engine as some guys are running the smaller 13B pump on th=
eir 3-rotor engines without a problem.&nbsp; The 20B water pump impeller is=
 1/4&quot; larger diameter.&nbsp;&nbsp;From my initial flight, it seems tha=
t there is plenty of coolant flow to keep the engine cool.=20
<br><br>It is really too early to tell for certain, but things look very pr=
omising.&nbsp; I will try and take some pictures to bring with me to the Ro=
tary Fly-In.&nbsp; <br><br>Finally, to give credit where credit is due, I a=
m told that Leon (from down under) has been using this design for years wit=
h great success.&nbsp; I thank Leon for sharing his racer tricks with the g=
roup.&nbsp;=20
<br><br>Mark S. </blockquote></span></div></div></blockquote></div><br></bl=
ockquote></div></blockquote></div><br>

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