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From: "Bill Schertz" <wschertz@comcast.net>
To: "Rotary motors in aircraft" <flyrotary@lancaironline.net>
References: <list-4315004@logan.com>
In-Reply-To: <list-4315004@logan.com>
Subject: Re: [FlyRotary] Re: alternative water pump
Date: Fri, 14 May 2010 22:12:50 -0500
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Ed,
Here is a plot of temperature data, all taken with CHT thermocouples.
Rad_in is clamped to the water pipe just before it splits to go to the =
two radiators
Rad_out is clamped to the exit water pipe after the flow from the two =
rads has been recombined.
Oil_filter is clamped to the oil line as it exits the filter and enters =
the engine, and
Oil Cool left end is bonded to the end away from the entrance/exit on =
the oil cooler to tests that the oil cooler is working. As you know the =
standard Mazda oil cooler sends the oil down to the end and back.  I was =
getting high oil temperatures on one of my (non thermocouple ) oil =
sensors, and wanted to verify that the oil cooler was working.
Bill Schertz
KIS Cruiser #4045
N343BS
Phase I testing


From: Ed Anderson=20
Sent: Friday, May 14, 2010 5:32 PM
To: Rotary motors in aircraft=20
Subject: [FlyRotary] Re: alternative water pump


Hi Bill,

=20

Had seen your nice data before, but one thing finally awoke in my old =
brain when I looked at it this time that I had not considered before.  =
We know that parallel cores give slightly better efficiency than a =
serial core set because the DT decreases for the second core in the =
series compared to both parallel cores having the same DT (at least in =
theory).  However, what jumped out at me this time was the real =
significance of the parallel cores in cooling.  In this case, I am =
assuming no thermostat in the coolant flow.

=20

If I understood your graphs correctly, it looks like you are getting =
around 20 gpm flow with a single core (so presumably you would get a bit =
less with two cores in series - but perhaps not significantly), but =
looks like with parallel cores you are getting around 32 gpm flow.  That =
is a 20/32 =3D  approx 37 %  more mass coolant flow through the engine.  =
 That means (all else being equal), you should transfer 37% more heat =
out of the engine per unit time with the parallel cores compared to the =
serial cores (assuming cores of same type and size). =20

=20

Now the engine is producing X amount of waste heat at Y HP that it needs =
to get rid of.  That won't change for a given power setting Y.  So Q =
(waste heat X) produced by the  engine should be a constant at Y Hp.

=20

So taking Q =3D M*Dt/Cp and since Q (waste heat)  =3D constant at power =
setting Y, then with M (mass flow up 37%)  implies that in this case Dt =
=3D (Temp of coolant out of engine - temp of coolant into engine)  =
should decrease by 37%.  When you increase the mass flow and are =
removing the same quantity of heat, the DT is of necessity a lower =
value.

=20

If that is the case, then the question is  - does this mean the temp of =
coolant into the engine increases - not necessarily desirable, or does =
the Temp of coolant out of the engine decrease? Or a bit of both?  I =
suspect it's a bit of both depending on the radiator's performance.  If =
your radiators/air flow are the limiting factors, then transferring more =
heat per unit time to the radiators is not going to buy you much.  The =
reason is that if it is not able to get rid of the heat at the faster =
rate and the DT between the coolant and air will be less.=20

=20

But, my guess is that this theoretical increase in heat removal by using =
parallel cores could be useful in some situations - again if you are =
already limited in the airflow situation, then this won't make much =
difference.  It  does suggest that using parallel cores could result in =
the need for core sizes 37% smaller.  OR did I miss something here?

=20

=20

 Like your data in any case

=20

Ed

=20

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

http://www.rotaryaviation.com/Rotorhead%20Truth.htm


-------------------------------------------------------------------------=
-------

From: Rotary motors in aircraft [mailto:flyrotary@lancaironline.net] On =
Behalf Of Bill Schertz
Sent: Thursday, May 13, 2010 10:39 AM
To: Rotary motors in aircraft
Subject: [FlyRotary] Re: alternative water pump

=20

Back in 2002 I measured the flow from a 13-B pump, attached to the =
engine but driven with an electric motor. The curve is attached. I ran =
the pump at 3 different RPM, established by changing the pulley size on =
the motor. At 5594 rpm, the pump produced 19 psi at zero flow, and 44 =
gpm at 0 psi. At lower RPM, the pump of course pumps less.

=20

The other test I did was to measure the flow through one core of the two =
I was using for my installation. That is the curve going up to the right =
with the red dots as the experimental points. Since I am running my =
cores in parallel, the right hand rising curve is a 'calculated' flow =
response for the parallel cores.

=20

Finally, I hooked up the cores to the system, and pumped water through =
them. The single large point represents where the flow and pressure came =
out, very close to the calculated expected response.

=20

All flow measurements were done by the "bucket and stop-watch" =
technique, with multiple runs to get the flow.

=20

Bill Schertz
KIS Cruiser #4045
N343BS
Phase I testing

=20

From: Al Gietzen=20

Sent: Wednesday, May 12, 2010 11:54 AM

To: Rotary motors in aircraft=20

Subject: [FlyRotary] Re: alternative water pump

=20

Al,

Are you sure of the 40 GPM?  That seems like a lot.  My radiator in/out =
is 1.25 inches, so the water would be traveling at 628 feet per minute =
at that flow rate.  That is over 7 miles per hour!

=20

Bill B

When my 20B (with a 13B pump that Atkins referred to as 'high flow') was =
on the dyno the measured flow was 48 gpm with the standard pulleys.  I =
expect the dyno cooling loop was fairly low pressure drop compared to =
our typical systems, so I'm just guessing 40 gpm is in the ballpark.  =
628 fpm (10.5 ft/sec) would not be considered very high - - above 15 =
ft/sec I'd consider high.

Al

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<DIV><FONT size=3D2 face=3DArial>Ed,</FONT></DIV>
<DIV><FONT size=3D2 face=3DArial>Here is a plot of temperature data, all =
taken with=20
CHT thermocouples.</FONT></DIV>
<DIV><FONT size=3D2 face=3DArial>Rad_in is clamped to the water pipe =
just before it=20
splits to go to the two radiators</FONT></DIV>
<DIV><FONT size=3D2 face=3DArial>Rad_out is clamped to the exit water =
pipe after the=20
flow from the two rads has been recombined.</FONT></DIV>
<DIV><FONT size=3D2 face=3DArial>Oil_filter is clamped to the oil line =
as it exits=20
the filter and enters the engine, and</FONT></DIV>
<DIV><FONT size=3D2 face=3DArial>Oil Cool left end is bonded to the end =
away from=20
the entrance/exit on the oil cooler to tests that the oil cooler is =
working. As=20
you know the standard Mazda oil cooler sends the oil down to the end and =

back.&nbsp; I was getting high oil temperatures on one of my (non =
thermocouple )=20
oil sensors, and wanted to verify that the oil cooler was =
working.</FONT></DIV>
<DIV><FONT size=3D2 face=3DArial>Bill Schertz<BR>KIS Cruiser=20
#4045<BR>N343BS<BR>Phase I testing</FONT></DIV>
<DIV style=3D"FONT: 10pt Tahoma">
<DIV><BR></DIV>
<DIV style=3D"BACKGROUND: #f5f5f5">
<DIV style=3D"font-color: black"><B>From:</B> <A =
title=3Deanderson@carolina.rr.com=20
href=3D"mailto:eanderson@carolina.rr.com">Ed Anderson</A> </DIV>
<DIV><B>Sent:</B> Friday, May 14, 2010 5:32 PM</DIV>
<DIV><B>To:</B> <A title=3Dflyrotary@lancaironline.net=20
href=3D"mailto:flyrotary@lancaironline.net">Rotary motors in =
aircraft</A> </DIV>
<DIV><B>Subject:</B> [FlyRotary] Re: alternative water =
pump</DIV></DIV></DIV>
<DIV><BR></DIV>
<DIV class=3DSection1>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt">Hi=20
Bill,<o:p></o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt"><o:p>&nbsp;</o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt">Had seen your =
nice data=20
before, but one thing finally awoke in my old brain when I looked at it =
this=20
time that I had not considered before.&nbsp; We know that parallel cores =
give=20
slightly better efficiency than a serial core set because the=20
</SPAN></FONT><FONT color=3Dnavy size=3D2 face=3DSymbol><SPAN=20
style=3D"FONT-FAMILY: Symbol; COLOR: navy; FONT-SIZE: =
10pt">D</SPAN></FONT><FONT=20
color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt">T decreases =
for the=20
second core in the series compared to both parallel cores having the =
same=20
</SPAN></FONT><FONT color=3Dnavy size=3D2 face=3DSymbol><SPAN=20
style=3D"FONT-FAMILY: Symbol; COLOR: navy; FONT-SIZE: =
10pt">D</SPAN></FONT><FONT=20
color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt">T (at least =
in=20
theory).&nbsp; However, what jumped out at me this time was the real=20
significance of the parallel cores in cooling.&nbsp; In this case, I am =
assuming=20
no thermostat in the coolant flow.<o:p></o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt"><o:p>&nbsp;</o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt">If I =
understood your=20
graphs correctly, it looks like you are getting around 20 gpm flow with =
a single=20
core (so presumably you would get a bit less with two cores in series =
=96 but=20
perhaps not significantly), but looks like with parallel cores you are =
getting=20
around 32 gpm flow.&nbsp; That is a 20/32 =3D&nbsp; approx 37 %&nbsp; =
more mass=20
coolant flow through the engine.&nbsp;&nbsp; That means (all else being =
equal),=20
you should transfer 37% more heat out of the engine per unit time with =
the=20
parallel cores compared to the serial cores (assuming cores of same type =
and=20
size).&nbsp; <o:p></o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt"><o:p>&nbsp;</o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt">Now the =
engine is=20
producing X amount of waste heat at Y HP that it needs to get rid =
of.&nbsp; That=20
won=92t change for a given power setting Y.&nbsp; So Q (waste heat X) =
produced by=20
the&nbsp; engine should be a constant at Y =
Hp.<o:p></o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt"><o:p>&nbsp;</o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt">So taking Q =
=3D=20
M*</SPAN></FONT><FONT color=3Dnavy size=3D2 face=3DSymbol><SPAN=20
style=3D"FONT-FAMILY: Symbol; COLOR: navy; FONT-SIZE: =
10pt">D</SPAN></FONT><FONT=20
color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt">t/Cp and =
since Q (waste=20
heat)&nbsp; =3D constant at power setting Y, then with M (mass flow up =
37%)&nbsp;=20
implies that in this case </SPAN></FONT><FONT color=3Dnavy size=3D2=20
face=3DSymbol><SPAN=20
style=3D"FONT-FAMILY: Symbol; COLOR: navy; FONT-SIZE: =
10pt">D</SPAN></FONT><FONT=20
color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt">t =3D (Temp =
of coolant=20
out of engine =96 temp of coolant into engine)&nbsp; should decrease by =
37%.&nbsp;=20
When you increase the mass flow and are removing the same quantity of =
heat, the=20
</SPAN></FONT><FONT color=3Dnavy size=3D2 face=3DSymbol><SPAN=20
style=3D"FONT-FAMILY: Symbol; COLOR: navy; FONT-SIZE: =
10pt">D</SPAN></FONT><FONT=20
color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt">T is of =
necessity a=20
lower value.<o:p></o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt"><o:p>&nbsp;</o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt">If that is =
the case,=20
then the question is &nbsp;- does this mean the temp of coolant<B><SPAN=20
style=3D"FONT-WEIGHT: bold"> into</SPAN></B> the engine <B><SPAN=20
style=3D"FONT-WEIGHT: bold">increases</SPAN></B> =96 not necessarily =
desirable, or=20
does the Temp of coolant <B><SPAN style=3D"FONT-WEIGHT: bold">out =
of</SPAN></B>=20
the engine <B><SPAN style=3D"FONT-WEIGHT: bold">decrease</SPAN></B>? Or =
a bit of=20
both?&nbsp; I suspect it=92s a bit of both depending on the radiator=92s =

performance.&nbsp; If your radiators/air flow are the limiting factors, =
then=20
transferring more heat per unit time to the radiators is not going to =
buy you=20
much.&nbsp; The reason is that if it is not able to get rid of the heat =
at the=20
faster rate and the DT between the coolant and air will be less.=20
<o:p></o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt"><o:p>&nbsp;</o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt">But, my guess =
is that=20
this theoretical increase in heat removal by using parallel cores could =
be=20
useful in some situations =96 again if you are already limited in the =
airflow=20
situation, then this won=92t make much difference.&nbsp; It &nbsp;does =
suggest=20
that using parallel cores could result in the need for core sizes 37%=20
smaller.&nbsp; OR did I miss something =
here?<o:p></o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt"><o:p>&nbsp;</o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt"><o:p>&nbsp;</o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt">&nbsp;Like =
your data in=20
any case<o:p></o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt"><o:p>&nbsp;</o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt">Ed<o:p></o:p></SPAN></FONT></P>
<P class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt"><o:p>&nbsp;</o:p></SPAN></FONT></P>
<DIV>
<P><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt" lang=3DEN>Ed=20
Anderson<o:p></o:p></SPAN></FONT></P>
<P><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt" =
lang=3DEN>Rv-6A N494BW=20
Rotary Powered<o:p></o:p></SPAN></FONT></P>
<P><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt" =
lang=3DEN>Matthews,=20
NC<o:p></o:p></SPAN></FONT></P>
<P><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt"=20
lang=3DEN>eanderson@carolina.rr.com<o:p></o:p></SPAN></FONT></P>
<P><FONT size=3D3 face=3D"Times New Roman"><SPAN style=3D"FONT-SIZE: =
12pt"><A=20
href=3D"http://www.andersonee.com"><FONT size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; FONT-SIZE: 10pt"=20
lang=3DEN>http://www.andersonee.com</SPAN></FONT></A></SPAN></FONT><FONT =

color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt"><o:p></o:p></SPAN></FONT></P>
<P><FONT size=3D3 face=3D"Times New Roman"><SPAN style=3D"FONT-SIZE: =
12pt"><A=20
href=3D"http://www.dmack.net/mazda/index.html"><FONT size=3D2 =
face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; FONT-SIZE: 10pt"=20
lang=3DEN>http://www.dmack.net/mazda/index.html</SPAN></FONT></A></SPAN><=
/FONT><FONT=20
color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt"><o:p></o:p></SPAN></FONT></P>
<P><FONT size=3D3 face=3D"Times New Roman"><SPAN style=3D"FONT-SIZE: =
12pt"><A=20
href=3D"http://www.flyrotary.com/"><FONT size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; FONT-SIZE: 10pt"=20
lang=3DEN>http://www.flyrotary.com/</SPAN></FONT></A></SPAN></FONT><FONT =

color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt"><o:p></o:p></SPAN></FONT></P>
<P><FONT size=3D3 face=3D"Times New Roman"><SPAN style=3D"FONT-SIZE: =
12pt"><A=20
href=3D"http://members.cox.net/rogersda/rotary/configs.htm"><FONT =
size=3D2=20
face=3DArial><SPAN style=3D"FONT-FAMILY: Arial; FONT-SIZE: 10pt"=20
lang=3DEN>http://members.cox.net/rogersda/rotary/configs.htm#N494BW</SPAN=
></FONT></A></SPAN></FONT><FONT=20
color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt"><o:p></o:p></SPAN></FONT></P>
<P><FONT size=3D3 face=3D"Times New Roman"><SPAN style=3D"FONT-SIZE: =
12pt"><A=20
href=3D"http://www.rotaryaviation.com/Rotorhead%20Truth.htm"><FONT =
size=3D2=20
face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; FONT-SIZE: =
10pt">http://www.rotaryaviation.com/Rotorhead%20Truth.htm</SPAN></FONT></=
A><A=20
href=3D"http://www.dmack.net/mazda/index.html"></A></SPAN></FONT><FONT =
size=3D2=20
face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; FONT-SIZE: =
10pt"><o:p></o:p></SPAN></FONT></P></DIV>
<DIV>
<DIV style=3D"TEXT-ALIGN: center" class=3DMsoNormal align=3Dcenter><FONT =
size=3D3=20
face=3D"Times New Roman"><SPAN style=3D"FONT-SIZE: 12pt">
<HR tabIndex=3D-1 align=3Dcenter SIZE=3D2 width=3D"100%">
</SPAN></FONT></DIV>
<P class=3DMsoNormal><B><FONT size=3D2 face=3DTahoma><SPAN=20
style=3D"FONT-FAMILY: Tahoma; FONT-SIZE: 10pt; FONT-WEIGHT: =
bold">From:</SPAN></FONT></B><FONT=20
size=3D2 face=3DTahoma><SPAN style=3D"FONT-FAMILY: Tahoma; FONT-SIZE: =
10pt">=20
<st1:PersonName w:st=3D"on">Rotary motors in aircraft</st1:PersonName>=20
[mailto:flyrotary@lancaironline.net] <B><SPAN style=3D"FONT-WEIGHT: =
bold">On=20
Behalf Of </SPAN></B>Bill Schertz<BR><B><SPAN=20
style=3D"FONT-WEIGHT: bold">Sent:</SPAN></B> Thursday, May 13, 2010 =
10:39=20
AM<BR><B><SPAN style=3D"FONT-WEIGHT: bold">To:</SPAN></B> =
<st1:PersonName=20
w:st=3D"on">Rotary motors in aircraft</st1:PersonName><BR><B><SPAN=20
style=3D"FONT-WEIGHT: bold">Subject:</SPAN></B> [FlyRotary] Re: =
alternative water=20
pump</SPAN></FONT><o:p></o:p></P></DIV>
<P class=3DMsoNormal><FONT size=3D3 face=3D"Times New Roman"><SPAN=20
style=3D"FONT-SIZE: 12pt"><o:p>&nbsp;</o:p></SPAN></FONT></P>
<DIV>
<P class=3DMsoNormal><FONT size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; FONT-SIZE: 10pt">Back in 2002 I measured =
the flow=20
from a 13-B pump, attached to the engine but driven with an electric =
motor. The=20
curve is attached. I ran the pump at 3 different RPM, established by =
changing=20
the pulley size on the motor. At 5594 rpm, the pump produced 19 psi at =
zero=20
flow, and 44 gpm at 0 psi. At lower RPM, the pump of course pumps=20
less.</SPAN></FONT><o:p></o:p></P></DIV>
<DIV>
<P class=3DMsoNormal><FONT size=3D3 face=3D"Times New Roman"><SPAN=20
style=3D"FONT-SIZE: 12pt">&nbsp;<o:p></o:p></SPAN></FONT></P></DIV>
<DIV>
<P class=3DMsoNormal><FONT size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; FONT-SIZE: 10pt">The other test I did was =
to measure=20
the flow through one core of the two I was using for my installation. =
That is=20
the curve going up to the right with the red dots as the experimental =
points.=20
Since I am running my cores in parallel, the right hand rising curve is =
a=20
'calculated' flow response for the parallel=20
cores.</SPAN></FONT><o:p></o:p></P></DIV>
<DIV>
<P class=3DMsoNormal><FONT size=3D3 face=3D"Times New Roman"><SPAN=20
style=3D"FONT-SIZE: 12pt">&nbsp;<o:p></o:p></SPAN></FONT></P></DIV>
<DIV>
<P class=3DMsoNormal><FONT size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; FONT-SIZE: 10pt">Finally, I hooked up the =
cores to=20
the system, and pumped water through them. The single large point =
represents=20
where the flow and pressure came out, very close to the calculated =
expected=20
response.</SPAN></FONT><o:p></o:p></P></DIV>
<DIV>
<P class=3DMsoNormal><FONT size=3D3 face=3D"Times New Roman"><SPAN=20
style=3D"FONT-SIZE: 12pt">&nbsp;<o:p></o:p></SPAN></FONT></P></DIV>
<DIV>
<P class=3DMsoNormal><FONT size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; FONT-SIZE: 10pt">All flow measurements were =
done by=20
the "bucket and stop-watch" technique, with multiple runs to get the=20
flow.</SPAN></FONT><o:p></o:p></P></DIV>
<DIV>
<P class=3DMsoNormal><FONT size=3D3 face=3D"Times New Roman"><SPAN=20
style=3D"FONT-SIZE: 12pt">&nbsp;<o:p></o:p></SPAN></FONT></P></DIV>
<DIV>
<P class=3DMsoNormal><FONT size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; FONT-SIZE: 10pt">Bill Schertz<BR>KIS =
Cruiser=20
#4045<BR>N343BS<BR>Phase I testing</SPAN></FONT><o:p></o:p></P></DIV>
<DIV>
<DIV>
<P class=3DMsoNormal><FONT size=3D2 face=3DTahoma><SPAN=20
style=3D"FONT-FAMILY: Tahoma; FONT-SIZE: =
10pt"><o:p>&nbsp;</o:p></SPAN></FONT></P></DIV>
<DIV>
<DIV style=3D"font-color: black">
<P style=3D"BACKGROUND: whitesmoke" class=3DMsoNormal><B><FONT size=3D2=20
face=3DTahoma><SPAN=20
style=3D"FONT-FAMILY: Tahoma; FONT-SIZE: 10pt; FONT-WEIGHT: =
bold">From:</SPAN></FONT></B><FONT=20
size=3D2 face=3DTahoma><SPAN style=3D"FONT-FAMILY: Tahoma; FONT-SIZE: =
10pt"> <A=20
title=3DALVentures@cox.net href=3D"mailto:ALVentures@cox.net">Al =
Gietzen</A>=20
<o:p></o:p></SPAN></FONT></P></DIV>
<DIV>
<P style=3D"BACKGROUND: whitesmoke" class=3DMsoNormal><B><FONT size=3D2=20
face=3DTahoma><SPAN=20
style=3D"FONT-FAMILY: Tahoma; FONT-SIZE: 10pt; FONT-WEIGHT: =
bold">Sent:</SPAN></FONT></B><FONT=20
size=3D2 face=3DTahoma><SPAN style=3D"FONT-FAMILY: Tahoma; FONT-SIZE: =
10pt">=20
Wednesday, May 12, 2010 11:54 AM<o:p></o:p></SPAN></FONT></P></DIV>
<DIV>
<P style=3D"BACKGROUND: whitesmoke" class=3DMsoNormal><B><FONT size=3D2=20
face=3DTahoma><SPAN=20
style=3D"FONT-FAMILY: Tahoma; FONT-SIZE: 10pt; FONT-WEIGHT: =
bold">To:</SPAN></FONT></B><FONT=20
size=3D2 face=3DTahoma><SPAN style=3D"FONT-FAMILY: Tahoma; FONT-SIZE: =
10pt"> <A=20
title=3Dflyrotary@lancaironline.net=20
href=3D"mailto:flyrotary@lancaironline.net">Rotary motors in =
aircraft</A>=20
<o:p></o:p></SPAN></FONT></P></DIV>
<DIV>
<P style=3D"BACKGROUND: whitesmoke" class=3DMsoNormal><B><FONT size=3D2=20
face=3DTahoma><SPAN=20
style=3D"FONT-FAMILY: Tahoma; FONT-SIZE: 10pt; FONT-WEIGHT: =
bold">Subject:</SPAN></FONT></B><FONT=20
size=3D2 face=3DTahoma><SPAN style=3D"FONT-FAMILY: Tahoma; FONT-SIZE: =
10pt">=20
[FlyRotary] Re: alternative water=20
pump<o:p></o:p></SPAN></FONT></P></DIV></DIV></DIV>
<DIV>
<P class=3DMsoNormal><FONT size=3D3 face=3D"Times New Roman"><SPAN=20
style=3D"FONT-SIZE: 12pt"><o:p>&nbsp;</o:p></SPAN></FONT></P></DIV>
<P style=3D"MARGIN-LEFT: 0.5in" class=3DMsoNormal><FONT color=3Dnavy =
size=3D2=20
face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt">Al,</SPAN></FONT><o:p></o:p></P>
<P style=3D"MARGIN-LEFT: 0.5in" class=3DMsoNormal><FONT color=3Dnavy =
size=3D2=20
face=3DArial><SPAN style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: =
10pt">Are=20
you sure of the 40 GPM?&nbsp; That seems like a lot.&nbsp; My radiator =
in/out is=20
1.25 inches, so the water would be traveling at 628 feet per minute at =
that flow=20
rate.&nbsp; That is over 7 miles per hour!</SPAN></FONT><o:p></o:p></P>
<P style=3D"MARGIN-LEFT: 0.5in" class=3DMsoNormal><FONT size=3D3=20
face=3D"Times New Roman"><SPAN=20
style=3D"FONT-SIZE: 12pt">&nbsp;<o:p></o:p></SPAN></FONT></P>
<DIV>
<P=20
style=3D"MARGIN-BOTTOM: 12pt; MARGIN-LEFT: 0.5in; MARGIN-RIGHT: 0in; =
mso-margin-top-alt: 0in"=20
class=3DMsoNormal><FONT color=3Dnavy size=3D2 face=3DArial><SPAN=20
style=3D"FONT-FAMILY: Arial; COLOR: navy; FONT-SIZE: 10pt">Bill=20
B</SPAN></FONT><o:p></o:p></P>
<P style=3D"MARGIN-BOTTOM: 12pt" class=3DMsoNormal><FONT color=3Dblue =
size=3D2=20
face=3DVerdana><SPAN=20
style=3D"FONT-FAMILY: Verdana; COLOR: blue; FONT-SIZE: 11pt">When my 20B =
(with a=20
13B pump that Atkins referred to as =91high flow=92) was on the dyno the =
measured=20
flow was 48 gpm with the standard pulleys.&nbsp; I expect the dyno =
cooling loop=20
was fairly low pressure drop compared to our typical systems, so I=92m =
just=20
guessing 40 gpm is in the ballpark.&nbsp; 628 fpm (10.5 ft/sec) would =
not be=20
considered very high - - above 15 ft/sec I=92d consider=20
high.</SPAN></FONT><o:p></o:p></P>
<P style=3D"MARGIN-BOTTOM: 12pt" class=3DMsoNormal><FONT color=3Dblue =
size=3D2=20
face=3DVerdana><SPAN=20
style=3D"FONT-FAMILY: Verdana; COLOR: blue; FONT-SIZE: =
11pt">Al</SPAN></FONT><o:p></o:p></P></DIV></DIV></BODY></HTML>

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