[AR] Re: My Cavitating Venturi
- From: roxanna Mason <rocketmaster.ken@xxxxxxxxx>
- To: arocket@xxxxxxxxxxxxx
- Date: Fri, 24 Jul 2020 00:54:25 -0700
Yeah Daniel, you brought up old memories.
I made many venturis on my lathe over the years using a tapped hand reamer
for the diffuser portion of the venturi. The trick is to achieve repeatable
results by controlling the Cd which is highly dependent on the throat
conture. A Cd near unity is possible. I was first introduced to
cavitation venturis by Mr. Fox of Fox valve back in 1982 or 3. He just
introduced the motorized variable geometry venturi to the industry. I used
a pair in a GOx/JP-8 water cooled rocket engine used as a heat standard for
testing ablative materials for solid rockets and solid and liquid fuel
ramjets at United Technologies/ Chemical Systems Div.in San Jose,CA.I was
hooked once the venturis utility became apparent to the extent I learned to
machine my own to save $1000's. Usually made them from aluminum for ease of
machining. The manually adjustable venturi was my all time favorite as you
can dial a mixture ratio by setting the stem length calibrated with water
and referenced to a calibration chart.
Indeed many old and good memories.
Ken
On Thu, Jul 23, 2020 at 11:00 PM Daniel Dyck <daniel.dyck.379ba@xxxxxxxxx>
wrote:
I figured now would be a good time to share something neat I worked on in
college.
For my capstone project our team built a permanent liquid rocket engine
testing facility, as well as a 1,000 lbf liquid rocket engine.
My job was designing/building the feed system. I built the feed system
using Swagelok, and to set the mass flow rates of our pressure fed engine,
I decided to use cavitating venturis.
I designed the venturi to be a slide in replacement for the front ferrule,
as shown in the cross section below.
(Straight barrel section fits in I.D of tube)
[image: image.png]
I believe this might be the only slide-in Swagelok compatible cavitating
venturi?
I got them machined out of stainless steel, photo of the finished product
below.
[image: image.png]
Before doing this, I made a little -6 AN cavitating venturi that ran on
water and shop air as a proof of concept. It worked great.
[image: image.png]
With the demo venturi I made the plot below. Apologies for the pixely
photo, digging through old college media:
[image: image.png]
And finally, I made an acrylic venturi where you could throttle downstream
pressure and see the results. I attempted to turn it into a GIF to share,
so hopefully this comes through alright.
https://giphy.com/gifs/dY0Cq7jWzo96ZEwT3O
<https://giphy.com/gifs/dY0Cq7jWzo96ZEwT3O>
Hope some folks found this interesting.
Daniel
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