Overview
Flight Data Files
Weather
Parameters | Nominal Value |
Launch Tower Ht. |
|
Launch Site Altitude | 1406m |
Landing Site Altitude |
|
Temperature | 68-95 |
Baro Pressure | 29.68 Hg |
Latitude | 32.9904 |
Longitude | 106.9750 |
Time | Windspeed |
7AM | NNW Wind:3.728 mph
|
4PM | N Wind:6.836 mph |
CAD
Video
Simulator Files:
12-17-2017
I've spent a few hours digging through RASAero, Open Rocket, BurnSim, the Mass Budget, and hitting all of the above with healthy doses of common sense. Andrew gave me a few good ideas on where to start sanity checking our numbers. I know these values still sound on the high side, but I'm inclined to believe them pending flaws inthesimfiles. I would be very happy to hit 80% of these values though, knowing how these kinds of flights go.
In case anyone was curious,therocksimfilethepreviousrasaeronumberswerebasedoffofstillwas usinganoffaxispistonand was almost 2 feet longer than the current design. This has led to some stability problems with the current design. At Burnout we hit a stability margin of 1.11. As this happens at Mach 3.35 I think we should increase the fin size to compensate.
These files are now correct to the design, as I understand it.
Motor file: 70kNs Rev 6
Composite Fin Can, OD of fin collar 6.25 in, 1/4 thick fins. .75 in edge chamfer .05 in rounding on edges.
Surface Finish: Rough Camouflage Pain
Rocket Length 11 feet 8 inches
GLOW is 158 lbs according to Mass Budget
Aft Closure include Boat Tail to 5.6 in aft diameter
Here are the relevant quantities.
GLOW: 158 lbs, +/- 14 lbs
Burnout Altitude: 12,200 ft AGL
Burnout Velocity 3,700 ft/s (Mach 3.35)
Maximum Altitude: 125,600 ft +/- 23,100 ft (from mass deltas)
These values came from some hand runsofRasAero
The next set of values came from OpenRocket on a dataset of 500 runs through Cassandra (ThanksJosh!). The raw values are quite different than the Open Rocket values, but with a healthy fudge factor (screwing with finishes and fin thicknesses) to get supersonic cd's to matchthoseofRasAero, the numbers were similar.Secondsemesterwe should improve Cassandra's aerodynamics. Anyways, Cassandra gives the following
GLOW = 158 lbs
Apogee 131,529 +/- 6,443 ft
Median Apogee = 133,142 (An average flight is pretty close to the average of the flights, which is good)
3-Sigma Altitude = 138,870 ft
Landing Zone = 4.3 miles east of base camp +/- 1.4 miles
1-28-2018
Take a look at the fin profiles on the manual page of the RAS Aero website. I think the only styles that are reasonable to assume that we could manufacture are hexagonal, hexagonal blunt-base, and rounded (not including square, because... yeah). With a realistic, if not generous, tip radius of 0.05 inches and a hexagonal profile, I'm getting 83kft out of a 65,000 Ns motor in a 156 lb rocket. This assumes an ISP of ~212 s, which I think is achievable. Playing around with rounded or hexagonal blunt-base yields lower altitudes, mostly in the 65kft range. I think we should keep the target altitude of 80 kft, and be thankful that things have essentially randomly aligned with that goal. I have attached my motor file and simulation file for your consideration. Other happy news: the rocket will reach a max velocity of ~3100 fps at 13kft, which is only around mach 2.9 at that altitude. Not saying that it is trivial to keep the fins on any supersonic rocket, but < mach 3 makes Matthew's life easier.