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So why they don't use new tech and carbon fiber body for simorgh
So why they don't use new tech and carbon fiber body for simorgh
good but several time heavier and Simorgh have a chronic lack of trust problem on its second stage. the easiest solution is to make it lighterAluminium is good enough for liquid fuel SLVs.
Carbon composite pays off if you have solid fuel which creates immense stress on the casing.
good but several time heavier and Simorgh have a chronic lack of trust problem on its second stage. the easiest solution is to make it lighter
the problem is with second stage not first stage . so those upperstage motors are the ones which have problemWithout component malfunction, the Simorgh has no thrust problem.
Nor is the second stage of the Simorgh of importance, its motors are a technological deadend.
Iran needs the promised higher thrust motors for the Sarir second stage and the Simorgh has already tested its first stage.
If the Sarir is still too far away I recommend two of the unknown Iranian upper stage motors instead of the 4 R-27 veniers which work at the edge of their design in the Simorgh.
Yeah,it was called the JCPOA.Something happened in Iran’s SLV development that delayed next gen Iranian SLVs.
Again premature shut down or too low thrust of the second stage, like the last time.
Did one of the two turbopumps fail? Or one of the four motors did a safety shut down? A software error that shut off the second stage?
No Saman thrid stage was present, they wanted to keep it simple.
Maybe the R-27 venier motor is simply not suited for that long vacuum operation, as it should be significantly longer than on the Safir. Did the extension nozzle skirt fail due to overheating? Because that can't be well simulated on earth.
Iran's Zafar satellite launch fails again
2020-02-09
According to Iran ’s official IRIB news agency, Mohammad Javad Azari-Jahromi, Iran ’s Minister of Information and Communications Technology, said: 'The Zafar (Victory in Persian) satellite will be launched from Semnan into orbit at a speed of 7.400 kilometers per second. '
The 113-kilogram Zafar satellite will be launched by the 'Simorgh' rocket into 530 kilometers Low Earth orbit. 'The main task will be to collect images. Iran needs these data to study earthquakes, respond to natural disasters and develop agriculture.'
A spokesman for the Ministry of Defense said that the satellite was launched at 19:15 and that about 90% of its orbital path was also completed. The satellite reached an altitude of 540 kilometers and a speed of 6'500 meters per second, but the satellite did not reach orbital insertion speed.
He added: "The satellite was also in orbit for a few minutes, but the orbit was not complete. At the same time, signals were received and the ground station was taking action."
In January 2019, Iran announced that its satellite Payam, which collects environmental data from Iran, failed to enter orbit.
[size=1[url="[URL]https://www.irinn.ir/fa/news/768853/%D8%B3%DB%8C%D9%85%D8%B1%D8%BA-%D8%B8%D9%81%D8%B1-%D8%B1%D8%A7-%D8%A8%D8%A7-%D9%85%D9%88%D9%81%D9%82%DB%8C%D8%AA-%D8%A8%D9%87-%D9%81%D8%B6%D8%A7-%D9%BE%D8%B1%D8%AA%D8%A7%D8%A8-%DA%A9%D8%B1%D8%AF[/URL]"]_[/url][/size]
Wrong, official video published shows the Saman-1 upper stage, performing the final spin up orbital insertion!
Targeted: 530 kilometers and a speed of 7'400 meters per second
Achieved: 540 kilometers and a speed of 6'500 meters per second
This simply means that the upper stage's fuel was totally consumed but the wrong way, the Saman-1 upper stage peaking 10 km too high at the expense of a loss of speed of 900 meters/second.
One of the most frequent cause of failure in trying an orbital insertion when playing with space simulation video games such as Kerbal space!
This could happen if the upper stage is firing slightly off the optimal direction (we see it with catastrophic ending last year with the Indian Chandrayaan lunar lander).
And that engine cannot simply be shut and restarted the following orbit, because it is solid and not liquid fueled! You only have one shot.
Mission's rating
The Iranian Safir-2 carrier rocket has been successfully launched twice. The failure occurred with the Saman-1 upper stage. The launch of Iran’s Zafar-1 observation satellite was thus rated at 95% successful.
______
▲ 1. Saman-1 upper stage.
___
▲ 2. Saman-1 upper stage.
Although Iran failed to launch a satellite, it still released a video of the launch.
Video of the first and second stage:
https://media.farsnews.ir/Uploaded/Files/Video/1398/11/22/13981122000012.mp4
_
✔ Ignition at 19:18:13 ICT (UTC+3:30) 100% successful
✔ Liftoff at 19:18:16 ICT (UTC+3:30) 100% successful
✔ 1st stage engines cutoff at 19:19:57 ICT (UTC+3:30) 100% successful
✔ First stage separation at 19:20:02 ICT (UTC+3:30) 100% successful
✔ Second stage's engines ignition at 19:20:03 ICT (UTC+3:30) 100% successful
✔ Payload fairing jettisoned at 19:20:18 ICT (UTC+3:30) 100% successful
✔ End of video 19:21:02 ICT (UTC+3:30) 100% successful
✔ Second stage separation 100% successful
✗ Upper stage orbital insertion failed
✔ Upper stage separation 100% successful
Overall mission rated at: 95 % successful
Conclusion
It only requires 5% of correction, and Iran will surely succeed in its first upper stage orbital insertion next Khordad (May-June) with the back-up satellite Zafar-2.
Needless to remind that this upper stage though looking like a toy right now because of its smaller size, is key in mastering Roll and Attitude Control System (RACS), that will be required in all future advanced missions ranging from solid propellant rocket, advanced geosynchronous insertions, and of course manned spacecrafts! Call it Post Boost Vehicles (PBV) if militarized. Again core component in any nuclear deterrent.