neil_w - Any armored bunker thoughts for this one? :wink:
Or equivalent.
neil_w - Any armored bunker thoughts for this one? :wink:
I needed something to block the bottom of the shroud and also hold it in place, so I figured something like a centering ring makes sense. Unfortunately I couldn't locate the ones I had (don't even know if I had the right size), so I looked for heavy cardstock and found it in a small box of chocolates. Time for dinner! To be continued...
Glen, we both said the same thing to Ken. The area of the inlet has to be equal to the area of the slots +/- a couple of percent. Great minds think alike. BobI have been thinking along similar lines as this, but instead of vertical fin type air ducts, using a set of closely spaced vent holes around the entire bottom circumference of the rocket to make an air-disc type of fin. You could precede that with an internal transition to force the air into the air slots from the through tube to the outer body tube. you want to have sufficient air flow through the fin holes so that you don't have air blockage, this would create an air dam at the front of the rocket as the air is spilled out the front because it can't get through, shifting the effective Cp to the front. Consider the extreme case where there are no fin holes, what would the air do? So, how big should they be? Use some basic area ruling as a start. What is the frontal area of the inlet? Make the slot fins total area equal or bigger.
LOL! My mindsim doesn't adjust for that. Actually, I'm guessing you're referring to turbulence...there likely would be some in different areas; however that is more complex than I'm capable of figuring out. If you have any ideas, please feel free to adjust or add to the pic on what you think may happen...would be interesting to see other views of what may go on.
Also regarding your earlier note about base drag...I originally thought of using a BT-80 for the first design and later decided to go slimmer. So my original thought was for a "squatter" ("squatty-er"?) where base drag may be more present and help to reduce the amount of nose weight. In the current testbed case, the length to width ratio is just under 10:1, but not if I include the nose cone, so I think you're right about base drag not being present in that first design.
Well, back to work week for me! Possible good news is that I just discovered there's a "bonus launch" this Saturday at RR (weather permitting), so there is a possibility I may do a test launch as soon as this weekend. :grin:
Or equivalent.
What was that movie? 'Life is like a box of chocolates' or maybe we should just call you Astronaut Farmer?
I would follow the original kit idea "Make a rocket of any size you want" and make as much of this interchangeable as possible. Such sacrilege... you sliced the fin can all apart, you barbarian! :shock:
You guys are churning out posts like no tomorrow, I have to catch up with it all.
Yes, there will be some back pressure or air resistance because of the blocked tube. I would think the placement of the shroud in relation to the nose tip is critical. The bow shock from the tip will divert air away from or into the shroud. Ken, I think you need to look at the nose cone shape (ogive, VK, etc) and determine where the bow shock would be. If you can place the shroud so the bow shock is inside the shroud you will get more airflow out of your slots. I'll look around and see if I can find some aerodynamics sites for you.
Too bad you don't have access to a wind tunnel, and no, don't attempt to build one. I know the wheels are already spinning trying to figure out how to make one! It is harder than it looks, we built one in school (Aviation High School) and it was an epic fail the first time one of the test samples let loose.
better than Forward Air Rearward Throughput): Sorry I would have left it as FART just for parochial giggles. Have you thought about rail buttons so you can put this WAY out on the HPR pads? At least for the first few Christmas Tree launches.
Well, the 10:1 is the magical ratio where base drag is s'posed to help. Looked longer to me and I forgot if that was mentioned earlier.
Yay, I hope that works out!
I made an earlier comment about the flow rate in/out business. I guess it's not so much that I don't believe that generally but I still think there will be a limit on how much air actually goes in. It won't flow unimpeded IMO.
Honestly though, looking at my first iteration, I don't think there is much to worry about. It's close in resemblence to the original rocket and only the fin can area is different. Even if it was a solid tube on the back end, it should fly upwards.
Sure looks like weather will not be permitting this Saturday. :eyepop:
What? 5-8" of snow and 21mph winds and you guys quit? I thought you guys were Radical Rocketeers! :wink:
#mindsimblown
In that case I would like to update my protective gear:
See, I am a Radical Rocketeer of the first order! (or First Order)
in the interests of launch safety, you might consider adding a base disc or cone at the bottom of the rocket of greater diameter than the shroud to ensure a stable flight. Then test it with progressively smaller ones to see if the air fins are becoming effective. You could tell if it starts to get squirrelly as you decrease the size of the disc or cone. Then, hopefully it would be stable with the device removed. Just an idea. or just put on some regular fins, and cut them down smaller after each successful flight.
https://www.rocketryforum.com/showthread.php?130953-Big-Augie-Gas-Assist-Stability-Rocket
This one may be of some help.
Wasn't there a whole thread about that?
I bet the ducting in the 'Augie' rockets mostly just allows the motor to be recessed forward and thus help CG.
So I honestly see this design working quite well. Even without the slots at the bottom of tube, although at that point it would probably act more like a wind sail. Anyway I'll just be watching this neat design. And I apologize if this has been answered, I just skimmed, when are you flying it?
That is possible; however if you're adding an additional shroud extending out the back, the weight of the shroud is also bringing the CG back which kind of kills some of that benefit and it also adds a lot of drag.
FWIW - I just did a search and saw someone post on YORF that the Augie design is for "thrust augmentation" and another person on Rocket Reviews said the ducted design was another method for staging rockets (https://www.rocketryforum.com/showt...Induction-Stabilization&p=1541410#post1541410).
The goal may have been thrust augmentation but I don't believe this can be realized on modrocs. This has been discussed numerous time but nobody ever convinced me. I added a thrust augmentation tube to my most recent GDS Saturn V. I saw where the Jetex motor's augmentation tubes were proven to work via actual measurements. However, someone quickly pointed out the error of my ways. It flew with the tube but the thrust was reduced instead of being augmented, And it was toast afterwards as a bonus.
If the rocket in motion is less that 250 MPH, the compression of airflow can be ignored. Above 250 MPH, the compression of airflow around a nose cone will be affected by nose cone shape. This shape determines the boundary layer, wherein compression, drag, and laminar flow need to be taken into account
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