Polskie Forum Astronautyczne
Astronautyka => Sprawy Ogólne => Wątek zaczęty przez: astropl w Grudnia 08, 2021, 09:32
-
__________________________________________________________________________________________
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
12 22:00-01:00 Mojave 12/30 B-747/LauncherOne 8 x ? (STP-27VPB), STORK-3, SteamSat-2,
Ignis, ADLER-1
13 15:25 Canaveral 40 Falcon-9R [kilkadziesiąt satelitów]
1? ??:?? Xichang 3 CZ-? ?
21 ??:?? Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
31 05:00-08:30 Kodiak 3B RS1 VariSat-1A, VariSat-1B
31 ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
?? 23:11:12 Canaveral 40 Falcon-9R CSG-2
?? ??:?? Canaveral 46 Rocket v3.? BAMA-1, CURIE A, CURIE B, INCA,
QubeSat, R5-S1
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
?? 00:00-04:00 Sriharikota PSLV-XL EOS-4 (RISAT-1A)
?? ??:?? Tanegashima Y/2 H-3/22S ALOS-3
LUTY 2022
02 ??:?? Vandenberg 4E Falcon-9R [NRO L-87]
15 04:25 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 ??:?? Wallops 0A Antares-230+ Cygnus NG-17
20 ??:?? Kourou ELS Sojuz-STB.Fregat-MT OneWeb x 34
28 06:00 KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Jiuquan 43/95A KZ-11 Xingyun-1 (01), Xingyun-1 (02)
?? ??:?? Taiyuan 19 CZ-6 Guangmu-1
MARZEC 2022
05 ??:?? Bajkonur 31/6 Sojuz-2.1b/Fregat-M OneWeb x 36
12 ??:?? KSC 39B SLS Block 1/iCPS Artemis 1 (Orion, ArgoMoon, BioSentinel,
CuSP, EQUULEUS, LunaH-Map, CU-E3,
Lunar IceCube, LunIR, Miles, NEA Scout,
OMOTENASHI, Lunar Flashlight
18 ??:?? Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
?? ??:?? Starbase OLP Super Heavy Starship
-
Astropl, popraw mnie jeśli się mylę, ale to pierwszy raz w Twoich zacnych listach, kiedy umieściłeś rakietę SLS? :)
-
Astropl, popraw mnie jeśli się mylę, ale to pierwszy raz w Twoich zacnych listach, kiedy umieściłeś rakietę SLS? :)
Nie, była już przed paroma miesiącami (https://www.forum.kosmonauta.net/index.php?topic=4784.msg170185#msg170185).
-
Astropl, popraw mnie jeśli się mylę, ale to pierwszy raz w Twoich zacnych listach, kiedy umieściłeś rakietę SLS? :)
Nie, była już przed paroma miesiącami (https://www.forum.kosmonauta.net/index.php?topic=4784.msg170185#msg170185).
Tak, proszę wybaczyć to przeoczenie! :) Niemniej jednak miejmy nadzieję, że SLS z tego kwartału już nie spadnie i... nie będzie zaznaczona kolorkiem czerwonym!
-
Niemniej jednak miejmy nadzieję, że SLS z tego kwartału już nie spadnie i... nie będzie zaznaczona kolorkiem czerwonym!
Duża rakieta, to i duże oczekiwania :)
-
10 stycznia, w całej wesołej gromadce, poleci także satelita z Czech.
https://twitter.com/VZLUcz/status/1470327802432040966
-
10 stycznia, w całej wesołej gromadce, poleci także satelita z Czech.
Nie poleci. Nie on jeden. Podczas testów dyspensera Sherpa-LTC1 doszło do ucieczki paliwa. Lot dyspensera będzie opóźniony o około pół roku.
-
A to ci ciekawostka! Też interesująca kwestia ryzyka dla małych satelitów - takie opóźnienie!
-
10 stycznia, w całej wesołej gromadce, poleci także satelita z Czech.
Nie poleci. Nie on jeden. Podczas testów dyspensera Sherpa-LTC1 doszło do ucieczki paliwa. Lot dyspensera będzie opóźniony o około pół roku.
Okazuje się, że Czesi jednak załatwili start swojego satelity w misji Transporter-3, tyle, że z innego dyspensera.
-
No to już za kilka godzin rozpocznie się rakietowo 2022 rok! :)
-
No to już za kilka godzin rozpocznie się rakietowo 2022 rok! :)
No, ta indyjska PSLV wisi na jutro tylko siłą rozpędu, kiedyś tak podano, nikt tego nie zmienił, a mówi się że w pierwszym kwartale poleci, bez bliższych dat.
-
Dziękuję za to ważne uzupełnienie!
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
__________________________________________________________________________________________
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x2), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:00-01:00 Mojave 12/30 B-747/LauncherOne 8 x ? (STP-27VPB), STORK-3, SteamSat-2,
Ignis, ADLER-1
18 00:16-03:23 KSC 39A Falcon-9R Starlink x ??
18 18:00-21:37 Canaveral 46 Rocket v3.3 BAMA-1, CURIE A, CURIE B, INCA,
QubeSat, R5-S1
1? ??:?? Xichang 3 CZ-? ?
21 ??:?? Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
24 23:11:12 Canaveral 40 Falcon-9R CSG-2
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
?? 00:00-04:00 Sriharikota PSLV-XL EOS-4 (RISAT-1A)
?? ??:?? Tanegashima Y/2 H-3/22S ALOS-3
LUTY 2022
02 ??:?? Vandenberg 4E Falcon-9R [NRO L-87]
10 ??:?? Kourou ELS Sojuz-STB.Fregat-MT OneWeb x 34
15 04:25 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:39 Wallops 0A Antares-230+ Cygnus NG-17
20 05:00-08:30 Kodiak 3B RS1 VariSat-1A, VariSat-1B
28 06:00 KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Jiuquan 43/95A KZ-11 Xingyun-1 (01), Xingyun-1 (02)
?? ??:?? Taiyuan 19 CZ-6 Guangmu-1
MARZEC 2022
05 ??:?? Bajkonur 31/6 Sojuz-2.1b/Fregat-M OneWeb x 36
12 ??:?? KSC 39B SLS Block 1/iCPS Artemis 1 (Orion, ArgoMoon, BioSentinel,
CuSP, EQUULEUS, LunaH-Map, CU-E3,
Lunar IceCube, LunIR, Miles, NEA Scout,
OMOTENASHI, Lunar Flashlight
18 ??:?? Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
?? ??:?? Starbase OLP Super Heavy Starship
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
-
Start Virgin Orbit opóźniony do czwartku.
-
Taka ciekawostka - dzisiaj rakietą Falcon-9 maja polecieć STORK-1 i STORK-2, a LauncherOne STORK-3.
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
__________________________________________________________________________________________
13 22:00-01:00 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
18 00:16-03:23 KSC 39A Falcon-9R Starlink x ??
18 18:00-21:37 Canaveral 46 Rocket v3.3 BAMA-1, CURIE A, CURIE B, INCA,
QubeSat, R5-S1
1? ??:?? Xichang 3 CZ-? ?
21 ??:?? Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
24 23:11:12 Canaveral 40 Falcon-9R CSG-2
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
?? 00:00-04:00 Sriharikota PSLV-XL EOS-4 (RISAT-1A)
?? ??:?? Tanegashima Y/2 H-3/22S ALOS-3
LUTY 2022
02 ??:?? Vandenberg 4E Falcon-9R [NRO L-87]
10 ??:?? Kourou ELS Sojuz-STB.Fregat-MT OneWeb x 34
15 04:25 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:39 Wallops 0A Antares-230+ Cygnus NG-17
20 05:00-08:30 Kodiak 3B RS1 VariSat-1A, VariSat-1B
28 06:00 KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Jiuquan 43/95A KZ-11 Xingyun-1 (01), Xingyun-1 (02)
?? ??:?? Taiyuan 19 CZ-6 Guangmu-1
MARZEC 2022
05 ??:?? Bajkonur 31/6 Sojuz-2.1b/Fregat-M OneWeb x 36
12 ??:?? KSC 39B SLS Block 1/iCPS Artemis 1 (Orion, ArgoMoon, BioSentinel,
CuSP, EQUULEUS, LunaH-Map, CU-E3,
Lunar IceCube, LunIR, Miles, NEA Scout,
OMOTENASHI, Lunar Flashlight
18 ??:?? Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
?? ??:?? Starbase OLP Super Heavy Starship
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
-
"Cosmic girl" Virgin Orbit już w powietrzu. Trwa odliczanie do startu LauncherOne. Pozostało około 40 minut.
Jeśli start się dziś odbędzie, to będziemy mieli dwa starty z polskimi satelitami w ciągu jednego dnia! Nie tylko, że dwa starty, ale i 6 satelitów (STORK-1, STORK-2, SW1FT i LabSat w starcie Falconem 9 oraz STORK-3 i SteamSat-2 (to satelita dla UK, ale zbudowany przez SatRevolution - nie wiem czy można go liczyć jako polski).
https://www.youtube.com/watch?v=IEUQksTzGy8
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
__________________________________________________________________________________________
18 00:26-03:23 KSC 39A Falcon-9R Starlink x 53
18 18:00-21:37 Canaveral 46 Rocket v3.3 BAMA-1, CURIE A, CURIE B, INCA,
QubeSat, R5-S1
1? ??:?? Xichang 3 CZ-? ?
21 ??:?? Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
27 23:11:12 Canaveral 40 Falcon-9R CSG-2
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
?? 00:00-04:00 Sriharikota PSLV-XL EOS-4 (RISAT-1A)
?? ??:?? Tanegashima Y/2 H-3/22S ALOS-3
LUTY 2022
02 ??:?? Vandenberg 4E Falcon-9R [NRO L-87]
10 ??:?? Kourou ELS Sojuz-STB.Fregat-MT OneWeb x 34
15 04:25 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:39 Wallops 0A Antares-230+ Cygnus NG-17
20 05:00-08:30 Kodiak 3B RS1 VariSat-1A, VariSat-1B
28 06:00 KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Jiuquan 43/95A KZ-11 Xingyun-1 (01), Xingyun-1 (02)
?? ??:?? Taiyuan 19 CZ-6 Guangmu-1
MARZEC 2022
05 ??:?? Bajkonur 31/6 Sojuz-2.1b/Fregat-M OneWeb x 36
12 ??:?? KSC 39B SLS Block 1/iCPS Artemis 1 (Orion, ArgoMoon, BioSentinel,
CuSP, EQUULEUS, LunaH-Map, CU-E3,
Lunar IceCube, LunIR, Miles, NEA Scout,
OMOTENASHI, Lunar Flashlight
18 ??:?? Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
?? ??:?? Starbase OLP Super Heavy Starship
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
-
"Cosmic girl" Virgin Orbit już w powietrzu. Trwa odliczanie do startu LauncherOne. Pozostało około 40 minut.
Jeśli start się dziś odbędzie, to będziemy mieli dwa starty z polskimi satelitami w ciągu jednego dnia! Nie tylko, że dwa starty, ale i 6 satelitów (STORK-1, STORK-2, SW1FT i LabSat w starcie Falconem 9 oraz STORK-3 i SteamSat-2 (to satelita dla UK, ale zbudowany przez SatRevolution - nie wiem czy można go liczyć jako polski).
https://www.youtube.com/watch?v=IEUQksTzGy8
Czy wszystkie 6 satelitów są dziełem SatRevolution ?
-
Satelity z LauncherOne:
Polish company SatRevolution is launching two nanosatellites: STORK-3 and SteamSat-2
https://virginorbit.com/above-the-clouds/ (https://virginorbit.com/above-the-clouds/)
Satelity z Falcona9:
https://twitter.com/SatRevolution/status/1481574673523617795 (https://twitter.com/SatRevolution/status/1481574673523617795)
Tutaj, na swojej stronie, jak się przewinie do 2/3 strony wymieniają wszystkie poza SW1FTem: https://www.satrevolution.com/about-us (https://www.satrevolution.com/about-us)
-
Satelity z LauncherOne:
Polish company SatRevolution is launching two nanosatellites: STORK-3 and SteamSat-2
https://virginorbit.com/above-the-clouds/ (https://virginorbit.com/above-the-clouds/)
Satelity z Falcona9:
https://twitter.com/SatRevolution/status/1481574673523617795 (https://twitter.com/SatRevolution/status/1481574673523617795)
Tutaj, na swojej stronie, jak się przewinie do 2/3 strony wymieniają wszystkie poza SW1FTem: https://www.satrevolution.com/about-us (https://www.satrevolution.com/about-us)
Dzięki. Fajnie widzieć ,że jest u nas firma która wysyła cos w kosmos ( szkoda ,że tylko małe satelity ). W sumie mogli by też mieć swoją stronę w języku polskim :)
Od wielu lat zachodzę w głowę i sobie myślę - jak to się stało ,że Polska mając jednak w miarę silne ośrodki badawcze nie wysłała praktycznie żadnego dużego satelity ( pomijają może okres PRL gdzie byliśmy zależni od ZSRR ). Nie mogę w to uwierzyć:(
-
Jeszcze dopiszę . Mówiąc o okresie PRL spokojnie można było "coś" zbudować tylko nie wiem czy nie było jakiś przeszkód od naszego sąsiada . Natomiast już później ? przespane całe 30 lat....
-
... wiesz, kosmos bardzo dokladnie weryfikuje wszelkie twierdzenia o ... wielkosci;-) Z powazaniem
Adam Przybyla
-
... wiesz, kosmos bardzo dokladnie weryfikuje wszelkie twierdzenia o ... wielkosci;-) Z powazaniem
Adam Przybyla
Biorąc pod uwagę PKB polski to nie byłby aż tak wielki wydatek . Dziwie się naukowcom np. z CBK PAN ,że nie parli do takich pomysłów.
-
Panowie, może przenieście się na inny wątek, bo jak nie, to ja to zrobię :)
-
... wiesz, kosmos bardzo dokladnie weryfikuje wszelkie twierdzenia o ... wielkosci;-) Z powazaniem
Adam Przybyla
Zauważ jednak ,że są kraje które też "śpią" lub "przespały" kupę lat. Taka Brazylia ze swoim bądź co bądź dużym PKP , ogromnym wybrzeżem które aż krzyczy : zbuduj kosmodrom :)
Korea południowa w dziedzinie rakiet kosmicznych też słabo stoi( na razie ).
A Pakistan ? Praktycznie nieskrępowanie rozwija program rakiet balistycznych - A rakiet kosmicznych nic. Nie mówiąc o satelitach w których jest u nich chyba jeszcze gorzej niż u nas.
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
__________________________________________________________________________________________
19 00:04:30 KSC 39A Falcon-9R Starlink x 49
21 19:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
27 23:11:12 Canaveral 40 Falcon-9R CSG-2
2? 18:00-21:37 Canaveral 46 Rocket v3.3 BAMA-1, CURIE A, CURIE B, INCA,
QubeSat, R5-S1
29 ??:?? KSC 39A Falcon-9R Starlink x 49
?? ??:?? Xichang 3 CZ-? ?
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
?? ??:?? Vandenberg 4E Falcon-9R Starlink x 51
?? 00:00-04:00 Sriharikota PSLV-XL EOS-4 (RISAT-1A)
LUTY 2022
02 ??:?? Vandenberg 4E Falcon-9R [NRO L-87]
10 ??:?? Kourou ELS Sojuz-STB.Fregat-MT OneWeb x 34
15 04:25 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:39 Wallops 0A Antares-230+ Cygnus NG-17
20 05:00-08:30 Kodiak 3B RS1 VariSat-1A, VariSat-1B
?? ??:?? Jiuquan 43/95A KZ-11 Xingyun-1 (01), Xingyun-1 (02)
?? ??:?? Taiyuan 19 CZ-6 Guangmu-1
MARZEC 2022
05 ??:?? Bajkonur 31/6 Sojuz-2.1b/Fregat-M OneWeb x 36
12 ??:?? KSC 39B SLS Block 1/iCPS Artemis 1 (Orion, ArgoMoon, BioSentinel,
CuSP, EQUULEUS, LunaH-Map, CU-E3,
Lunar IceCube, LunIR, Miles, NEA Scout,
OMOTENASHI, Lunar Flashlight
18 ??:?? Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
31 ??:?? KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Starbase OLP Super Heavy Starship
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
-
No to pierwszy nie-amerykański start w tym roku! :)
-
Pierwszy tegoroczny start z Chin
17.01. o 02:35 z Taiyuan wystrzelona została RN CZ-2D , która wyniosła na orbitę o parametrach: hp= 357 km, ha=1298 km, i=98,68° satelitę Shiyan-13.
http://lk.astronautilus.pl/n220116.htm#01
Long March-2D launches Shiyan-13
https://www.youtube.com/watch?v=13APWIXnHG8
China conducts its first rocket launch of 2022
By Zhao Lei | chinadaily.com.cn | Updated: 2022-01-17 12:20
China launched a Long March 2D carrier rocket on Monday morning, kicking off the country's space program for 2022.
The rocket blasted off at 10:35 am at the Taiyuan Satellite Launch Center in northern China's Shanxi province and soon placed the Shiyan 13 experimental satellite in its preset orbit, China Aerospace Science and Technology Corp said in a statement.
This was China's first rocket launch of the year and the 406th mission of the Long March rocket family.
The State-owned space contractor said the mission marked the beginning of its schedule of space missions in 2022, which is expected to include more than 40 launch activities.
http://www.chinadaily.com.cn/a/202201/17/WS61e4ee7aa310cdd39bc8178e.html
First Chinese space mission of 2022 rockets into orbit
January 17, 2022 Stephen Clark
(https://spaceflightnow.com/wp-content/uploads/2022/01/china_lm2d_sy13.jpg)
A Chinese Long March 2D rocket lifts off with the Shiyan 13 satellite. Credit: CASC
(...) CASC, China’s largest state-owned space industry contractor, said the Long March 2D rocket delivered the Shiyan 13 satellite into orbit. Chinese officials did not disclose details about the purpose of the mission, other than claiming Shiyan 13 will be used for space environment data collection and technology tests.
China’s series of Shiyan satellites, which began launching in 2004, have been used for technology demonstrations and experiments. Many of the Shiyan missions to date have likely had a military purpose. (...)
More than 15 of the launches will use the Long March 2D rocket configuration, according to CASC. The Long March 2D is designed to carry payloads weighing up to 2,900 pounds (about 1.3 metric tons) into a polar sun-synchronous orbit.
Accomplishing 15 or more Long March 2D launches this year would set an annual record for this type of rocket. (...)
https://spaceflightnow.com/2022/01/17/first-chinese-space-mission-of-2022-rockets-into-orbit/
China’s first launch of 2022 puts classified Shiyan-13 satellite into orbit
by Andrew Jones — January 17, 2022
(https://spacenews.com/wp-content/uploads/2022/01/shiyan13-cz2d-tslc-20220117-ourspace-XuChunlei-879x485.jpg)
Liftoff of the Long March 2D (Y70) carrying the classified Shiyan-13 satellite, Jan. 16 Eastern, 2022. Credit: OurSpace/Xu Chunlei
HELSINKI — A Long March 2D carried the classified Shiyan-13 test satellite into orbit late Sunday, marking the start of what is planned to be a busy year of launches for China. (...)
A two-meter-diameter satellite-rocket separation device was used the first time with the Long March 2D due to special requirements of the satellite interface, CASC stated.
Shiyan are understood to be a series of test satellites, with first launched in 2004. Shiyan satellite numbers are often non-sequential and have been developed by a range of entities, including the China Academy of Space Technology (CAST), CAS and the Harbin Institute of Technology (HIT). (...)
https://spacenews.com/china-aims-to-complete-space-station-in-another-huge-year-in-space/
https://www.nasaspaceflight.com/2022/01/shiyan-13-launch/
https://space.skyrocket.de/doc_sdat/sy-13.htm
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
__________________________________________________________________________________________
23 18:00-21:37 Canaveral 46 Rocket v3.3 BAMA-1, CURIE A, CURIE B, INCA,
QubeSat, R5-S1
25 23:?? Jiuquan CZ-4B ? Shijian 6 Group 06 ?
27 23:11:12 Canaveral 40 Falcon-9R CSG-2
29 ??:?? KSC 39A Falcon-9R Starlink x 49
?? ??:?? Xichang 3 CZ-? ?
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
?? ??:?? Vandenberg 4E Falcon-9R Starlink x 51
?? 00:00-04:00 Sriharikota PSLV-XL EOS-4 (RISAT-1A)
LUTY 2022
02 16:37-21:38 Vandenberg 4E Falcon-9 [NRO L-87]
04 05:25-07:30 Onenui 1A Electron/Curie BlackSky Gen-2 18, 19
10 ??:?? Kourou ELS Sojuz-STB.Fregat-MT OneWeb x 34
15 04:25 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:39 Wallops 0A Antares-230+ Cygnus NG-17
20 05:00-08:30 Kodiak 3B RS1 VariSat-1A, VariSat-1B
?? ??:?? Jiuquan 43/95A KZ-11 Xingyun-1 (01), Xingyun-1 (02)
?? ??:?? Taiyuan 19 CZ-6 Guangmu-1
MARZEC 2022
05 ??:?? Bajkonur 31/6 Sojuz-2.1b/Fregat-M OneWeb x 36
12 ??:?? KSC 39B SLS Block 1/iCPS Artemis 1 (Orion, ArgoMoon, BioSentinel,
CuSP, EQUULEUS, LunaH-Map, CU-E3,
Lunar IceCube, LunIR, Miles, NEA Scout,
OMOTENASHI, Lunar Flashlight
18 ??:?? Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
31 ??:?? KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Starbase OLP Super Heavy Starship
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
-
No i stream z lotu Atlasa! :)
https://www.youtube.com/watch?v=BNkCmDBDVzU
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
__________________________________________________________________________________________
25 23:?? Jiuquan CZ-4B ? Shijian 6 Group 06 ?
26 18:00-21:37 Canaveral 46 Rocket v3.3 BAMA-1, INCA, QubeSat, R5-S1
27 23:11:50 Canaveral 40 Falcon-9R CSG-2
29 20:00 KSC 39A Falcon-9R Starlink x 49
?? ??:?? Xichang 3 CZ-? ?
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
?? ??:?? Vandenberg 4E Falcon-9R Starlink x 51
?? 00:00-04:00 Sriharikota PSLV-XL EOS-4 (RISAT-1A)
LUTY 2022
02 16:37-21:38 Vandenberg 4E Falcon-9 [NRO L-87]
04 05:25-07:30 Onenui 1A Electron/Curie BlackSky Gen-2 18, 19
10 ??:?? Kourou ELS Sojuz-STB.Fregat-MT OneWeb x 34
15 04:25 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:39 Wallops 0A Antares-230+ Cygnus NG-17
20 05:00-08:30 Kodiak 3B RS1 VariSat-1A, VariSat-1B
?? ??:?? Jiuquan 43/95A KZ-11 Xingyun-1 (01), Xingyun-1 (02)
?? ??:?? Taiyuan 19 CZ-6 Guangmu-1
MARZEC 2022
05 ??:?? Bajkonur 31/6 Sojuz-2.1b/Fregat-M OneWeb x 36
12 ??:?? KSC 39B SLS Block 1/iCPS Artemis 1 (Orion, ArgoMoon, BioSentinel,
CuSP, EQUULEUS, LunaH-Map, CU-E3,
Lunar IceCube, LunIR, Miles, NEA Scout,
OMOTENASHI, Lunar Flashlight
18 ??:?? Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
31 ??:?? KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Starbase OLP Super Heavy Starship
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
-
Pierwszy Atlas w tym roku
21.01. o 19:00:00 z Cape Canaveral wystrzelona została RN Atlas-5/511, która wyniosła w T+6h 32' 59" na orbitę o parametrach: hp=36106 km, ha=36165 km, i=0° w ramach misji USSF 8 dwa satelity zwiadu orbity geostacjonarnej GSSAP 5 (Hornet 5) i GSSAP 6 (Hornet 6).
http://lk.astronautilus.pl/n220116.htm#03
Atlas V launches GSSAP-5 and GSSAP-6
https://www.youtube.com/watch?v=NByaaPxj8LQ
https://twitter.com/ulalaunch/status/1484694936331206657
https://spaceflightnow.com/2022/01/20/atlas-5-rocket-rolls-to-launch-pad-for-space-force-mission/
ROCKET: Atlas 5 (AV-084)
MISSION: USSF 8
PAYLOAD: GSSAP 5 and GSSAP 6 space surveillance satellites
LAUNCH SITE: SLC-41, Cape Canaveral Space Force Station, Florida
LAUNCH DATE: Jan. 21, 2022
LAUNCH TIME: 2 p.m. EST (1900)
WEATHER FORECAST: 80% chance of acceptable weather
BOOSTER RECOVERY: None
LAUNCH AZIMUTH: East
TARGET ORBIT: Approximately 22,440 miles, 0.0 degrees inclination
LAUNCH TIMELINE:
T-00:00:02.7: RD-180 ignition
T+00:00:01.0: Liftoff
T+00:00:06.9: Begin pitch/yaw maneuver
T+00:00:57.8: Mach 1
T+00:01:07.4: Maximum aerodynamic pressure (Max-Q)
T+00:02:00.5: Solid rocket booster jettison
T+00:03:30.0: Payload fairing jettison
T+00:04:21.2: Atlas booster engine cutoff (BECO)
T+00:04:27.2: Atlas/Centaur stage separation
T+00:04:37.1: Centaur first main engine start (MES-1)
T+00:13:07.8: Centaur first main engine cutoff (MECO-1)
T+01:09:30.4: Centaur second main engine start (MES-2)
T+01:13:37.0: Centaur second main engine cutoff (MECO-2)
T+06:31:12.0: Centaur third main engine start (MES-3)
T+06:32:59.3: Centaur third main engine cutoff (MECO-3)
T+06:35:48.3: GSSAP 5 spacecraft separation
T+06:45:20.3: GSSAP 6 spacecraft separation
MISSION STATS:
673rd launch for Atlas program since 1957
374th Atlas launch from Cape Canaveral
262nd mission of a Centaur upper stage
239th use of Centaur by an Atlas rocket
508th production RL10 engine to be launched
38th RL10C-1 engine launched
97th flight of an RD-180 main engine
91st launch of an Atlas 5 since 2002
35th U.S. Air Force/Space Force use of an Atlas 5
9th GEM-63 solid rocket boosters flown
75th launch of an Atlas 5 from Cape Canaveral
1st Atlas 5 launch of 2022
133rd Evolved Expendable Launch Vehicle flight
148th United Launch Alliance flight overall
83rd Atlas 5 under United Launch Alliance
106th United Launch Alliance flight from Cape Canaveral
33rd 500-series flight of the Atlas 5
1st Atlas 5 to fly in the 511 configuration
102nd launch from Complex 41
75th Atlas 5 to use Complex 41
4th orbital launch overall from Cape Canaveral in 2022
https://spaceflightnow.com/2022/01/21/atlas-5-av-084-ussf-8-live-coverage/
Photos: Atlas 5 rocket flies on ULA’s first mission of 2022
January 25, 2022 Stephen Clark
(https://spaceflightnow.com/wp-content/uploads/2022/01/av085_5.jpg)
Credit: Alex Polimeni / Spaceflight Now
https://spaceflightnow.com/2022/01/25/photos-atlas-5-rocket-flies-on-ulas-first-mission-of-2022/
Atlas 5 rocket delivers two military inspector satellites to high-altitude orbit
January 21, 2022 Stephen Clark
(https://spaceflightnow.com/wp-content/uploads/2022/01/launch_ussf-6.jpeg)
An Atlas 5 rocket, boosted by an RD-180 main engine and one strap-on solid rocket motor, lifts off from pad 41 at Cape Canaveral Space Force Station with a pair of U.S. Space Force tracking satellites. Credit: Alex Polimeni / Spaceflight Now
(...) Not only can the surveillance platforms help the Space Force track objects in geosynchronous orbit — a capability needed to manage traffic and avoid collisions — the GSSAP spacecraft can adjust their orbits to approach and image other satellites using sharp-eyed optical cameras.
The GSSAP satellites’ ability to maneuver around other spacecraft gives military officials data on the location, orbit and size of other objects in geosynchronous orbit, according to the Space Force, “enabling characterization for anomaly resolution and enhanced surveillance, while maintaining flight safety.”
“Data from GSSAP uniquely contributes to timely and accurate orbital predictions, enhancing our knowledge of the geosynchronous orbit environment, and further enabling space flight safety to include satellite collision avoidance,” officials wrote in the Space Force’s official GSSAP fact sheet. (...)
https://spaceflightnow.com/2022/01/21/atlas-5-rocket-delivers-two-military-inspector-satellites-to-high-altitude-orbit/
ULA launches two space surveillance satellites for U.S. Space Force
by Sandra Erwin — January 21, 2022
The Northrop Grumman-made satellites, named GSSAP-5 and GSSAP-6, are part of the Geosynchronous Space Situational Awareness Program
(...) Chief of Space Operations Gen. John “Jay” Raymond called USSF-8 a “really important mission” because the GSSAP satellites are used to monitor objects in the geostationary belt. “The way I would describe it is as a neighborhood watch capability that allows us to better understand what’s going on in the domain especially in a really critical orbit like the GEO orbit,” said Raymond.
The first two pairs of GSSAP satellites were launched in 2014 and 2016 on ULA Delta 4 medium rockets. ”These next two satellites will add to that capability and enable us to understand more completely things that occur in the geosynchronous orbit. It’s a key piece in the puzzle for space domain awareness,” said Lt. Gen. Stephen Whiting, commander of the Space Force’s Space Operations Command.
https://spacenews.com/ula-launches-two-space-surveillance-satellites-for-u-s-space-force/
Mighty Atlas Launches, Begins Banner Year for ULA
by Ben Evans January 21, 2022
(https://www.americaspace.com/wp-content/uploads/2022/01/gssap-1122x752.jpeg)
Conceptualization of the Geosynchronous Space Situation Awareness Program (GSSAP) satellites. Image Credit: U.S. Space Force
(...) It marked the 75th Atlas V mission to originate from the Cape and kicked off an ambitious 2022 for ULA, which hopes to launch more than 12 times, a impressive flight-rate tempo unseen since 2016. (...)
https://www.americaspace.com/2022/01/21/mighty-atlas-launches-begins-banner-year-for-ula/
https://www.nasaspaceflight.com/2022/01/ussf-satellite-inspection/
https://www.ulalaunch.com/missions/archived-launched/atlas-v-ussf-8
GSSAP 5 (Hornet 5, USA 324, USSF 8, AFSPC 8 ) https://space.skyrocket.de/doc_sdat/gssap-1.htm
GSSAP 6 (Hornet 6, USA 325, USSF 8, AFSPC 8 )
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
25 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01A
__________________________________________________________________________________________
27 23:11:50 Canaveral 40 Falcon-9R CSG-2
29 20:00 KSC 39A Falcon-9R Starlink x 49
?? 18:00-21:37 Canaveral 46 Rocket v3.3 BAMA-1, INCA, QubeSat, R5-S1
?? ??:?? Xichang 3 CZ-? ?
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
?? ??:?? Vandenberg 4E Falcon-9R Starlink x 51
?? 00:00-04:00 Sriharikota PSLV-XL EOS-4 (RISAT-1A)
LUTY 2022
02 16:37-21:38 Vandenberg 4E Falcon-9 [NRO L-87]
04 05:25-07:30 Onenui 1A Electron/Curie BlackSky Gen-2 18, 19
10 ??:?? Kourou ELS Sojuz-STB.Fregat-MT OneWeb x 34
15 04:25 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:39 Wallops 0A Antares-230+ Cygnus NG-17
20 05:00-08:30 Kodiak 3B RS1 VariSat-1A, VariSat-1B
?? ??:?? Jiuquan 43/95A KZ-11 Xingyun-1 (01), Xingyun-1 (02)
?? ??:?? Taiyuan 19 CZ-6 Guangmu-1
MARZEC 2022
05 ??:?? Bajkonur 31/6 Sojuz-2.1b/Fregat-M OneWeb x 36
12 ??:?? KSC 39B SLS Block 1/iCPS Artemis 1 (Orion, ArgoMoon, BioSentinel,
CuSP, EQUULEUS, LunaH-Map, CU-E3,
Lunar IceCube, LunIR, Miles, NEA Scout,
OMOTENASHI, Lunar Flashlight
18 ??:?? Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
31 ??:?? KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Starbase OLP Super Heavy Starship
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
-
Chiński SAR
25.01. o 23:44 z Jiuquan wystrzelona zostałą RN CZ-4C, która wyniosła na orbitę o parametrach: hp=595 km, ha=602 km, i=97,80° satelitę teledetekcji SAR Ludi Tance-1 01A.
http://lk.astronautilus.pl/n220116.htm#06
Long March-4C launches L-SAR 01A
https://www.youtube.com/watch?v=TzXL54o-ugU
New Earth observing satellite lifted into orbit
By Zhao Lei | chinadaily.com.cn | Updated: 2022-01-26 12:38
China launched an Earth observation radar satellite on Wednesday morning, according to the China National Space Administration.
The Land Surveyor 1-01A satellite was carried into orbit on a Long March 4C rocket that blasted off at 7:44 am from the Jiuquan Satellite Launch Center in northwestern China and entered a quasi-sun-synchronous orbit at an altitude of 600 kilometers, the administration said in a statement.
Both satellite and rocket were built by the Shanghai Academy of Spaceflight Technology, a subsidiary of the China Aerospace Science and Technology Corp. The launch marked the 407th flight of a Long March rocket.
The main payload on the 3.2-metric ton spacecraft was an L-band synthetic aperture radar that allows for round-the-clock, all-weather observation of the ground. The radar’s antenna is 33 square meters in size, making it the largest of all synthetic aperture radars to be used on Chinese satellites.
The satellite is tasked with providing data and images to aid land resource, disaster prevention and relief, mapping, and forestry authorities, and will significantly strengthen rapid response capability in the event of natural disasters.
The second radar in the series — the Land Surveyor 1-01B — is scheduled to be deployed in late February, the administration said.
According to the Ministry of Natural Resources, the satellite’s main user, China, pays 10 million yuan ($1.6 million) a year for data and images from foreign satellites, but that this is already not enough to meet national needs for geological surveys and disaster forecasting and monitoring.
The new satellite will help to reduce China’s dependence on foreign satellites in this regard, the ministry said.
http://www.chinadaily.com.cn/a/202201/26/WS61f0d039a310cdd39bc8361c.html
http://www.chinadaily.com.cn/a/202201/26/WS61f09df4a310cdd39bc8345e.html
https://www.nasaspaceflight.com/2022/01/ludi-tance-1-01a/
https://space.skyrocket.de/doc_sdat/ludi-tance-1-01.htm
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
25 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01A
__________________________________________________________________________________________
29 23:11:50 Canaveral 40 Falcon-9R CSG-2
30 20:00 KSC 39A Falcon-9R Starlink x 49
?? ??:?? Xichang 3 CZ-2C Yituhao Xingyuan, Xuanming Xingyuan
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
?? ??:?? Vandenberg 4E Falcon-9R Starlink x 51
LUTY 2022
02 20:18 Vandenberg 4E Falcon-9 [NRO L-87]
03 07:00 Plesieck 43/? Sojuz-2.1a/Fregat Kosmos [Neitron]
10 18:09:37 Kourou ELS Sojuz-STB/Fregat-MT OneWeb x 34
14 00:00-04:00 Sriharikota PSLV-XL EOS-4 (RISAT-1A)
14 00:55-03:-0 Onenui 1A Electron/Curie BlackSky Gen-2 18, 19
15 04:25 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:39 Wallops 0A Antares-230+ Cygnus NG-17
?? 18:00-21:37 Canaveral 46 Rocket v3.3 BAMA-1, INCA, QubeSat, R5-S1
?? ??:?? Jiuquan 43/95A KZ-11 Xingyun-1 (01), Xingyun-1 (02)
?? ??:?? Taiyuan 19 CZ-6 Guangmu-1
MARZEC 2022
05 ??:?? Bajkonur 31/6 Sojuz-2.1b/Fregat-M OneWeb x 36
18 ??:?? Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
20 ??:?? KSC 39B SLS Block 1/iCPS Artemis 1 (Orion, ArgoMoon, BioSentinel,
CuSP, EQUULEUS, LunaH-Map, CU-E3,
Lunar IceCube, LunIR, Miles, NEA Scout,
OMOTENASHI, Lunar Flashlight
31 ??:?? KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Starbase OLP Super Heavy Starship
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
-
Starty kosmiczne w 2022
Starty wg miesięcy
I 8 (Chiny 2, SpaceX 4, ULA 1, VO 1)
W skrócie: ilość startów
Chiny 2
USA/Nowa Zelandia (Rocket Lab) 6 (SpaceX 4, ULA 1, NG 0, Virgin Orbit 1, Rocket Lab 0, Astra 0, Firelly Aerospace 0)
Rosja 0+0 z Kourou
Europa (bez europejskich Sojuzów) 0
Japonia 0
Indie 0
Iran 0
Korea Południowa 0
__________________________________________________________________________________________
Statystyka wyniesionych satelitów/sond
I 215 (Chiny 2, SpaceX 204, ULA 2, VO 7)
W skrócie: ilość wyniesionych satelitów/sond (w tym CubeSaty i PocketQubety):
Chiny 2
USA 213 :
SpaceX 204
ULA 2
NG
Virgin Orbit 7
Astra
Firelly Aerospace
Nowa Zelandia (Rocket Lab)
Rosja
Europa (bez europejskich Sojuzów)
Japonia
Indie
Iran
Korea Południowa
CubeSaty i PocketQubety
I SpaceX 77C + 21P, VO 7C
https://www.forum.kosmonauta.net/index.php?topic=4133.msg146649#msg146649
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
25 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01A
31 23:11:14 Canaveral 40 Falcon-9R CSG-2
LUTY 2022
02 20:27:26 Vandenberg 4E Falcon-9R [NRO L-87]
03 18:13:20 KSC 39A Falcon-9R Starlink x 49
05 07:00:00 Plesieck 43/? Sojuz-2.1a/Fregat Kosmos 2553 [Neitron]
__________________________________________________________________________________________
08 18:00-21:00 Canaveral 46 Rocket v3.3 BAMA-1, INCA, QubeSat, R5-S1
10 18:09:37 Kourou ELS Sojuz-STB/Fregat-MT OneWeb x 34
14 00:00-04:00 Sriharikota PSLV-XL EOS-4 (RISAT-1A)
14 00:55-03:-0 Onenui 1A Electron/Curie BlackSky Gen-2 18, 19
15 04:25:41 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:39 Wallops 0A Antares-230+ Cygnus NG-17
20 14:30 Kodiak 3B Rocket v3.3 [S4 CROSSOVER]
2? ??:?? Vandenberg 4E Falcon-9R Starlink x 51
?? ??:?? Wenchang 201 CZ-8 Hainan-1 (1)-(4), Tianxian batch 1, ? x ?
?? ??:?? Xichang 3 CZ-2C Yituhao Xingyuan, Xuanming Xingyuan
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
?? ??:?? Jiuquan 43/95A KZ-11 Xingyun-1 (01), Xingyun-1 (02)
?? ??:?? Taiyuan 19 CZ-6 Guangmu-1
MARZEC 2022
05 ??:?? Bajkonur 31/6 Sojuz-2.1b/Fregat-M OneWeb x 36
18 ??:?? Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
30 ??:?? KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
-
Pierwszy Neutron
05.02. o 07:00:00,101 z Plesiecka wystrzelona została RN Sojuz-2.1a/Fregat, która wyniosła na orbitę o parametrach:
hp=1987 km, ha=1995 km, i=67,08° pierwszego satelitę zwiadu radarowego nowego typu, znanego pod nazwą Neitron
(także Technołog). Satelita otrzymał nazwę oficjalną Kosmos 2553.
http://lk.astronautilus.pl/n220201.htm#03
https://twitter.com/roscosmos/status/1489940089631395841
Состоялся первый в 2022 году российский космический пуск
05.02.2022 15:15
Госкорпорация «Роскосмос» поздравляет Воздушно-космические силы России с успешным проведением первого в 2022 году пуска российской ракеты космического назначения!
В субботу, 5 февраля, в 10 часов 00 минут (мск) с Государственного испытательного космодрома Министерства обороны Российской Федерации (космодром Плесецк) в Архангельской области боевым расчетом Космических войск Воздушно-космических сил успешно осуществлен пуск ракеты-носителя среднего класса «Союз-2.1а» с космическим аппаратом (КА) в интересах Минобороны России.
Старт ракеты-носителя и выведение космического аппарата на расчетную орбиту прошли в штатном режиме. Через две минуты после старта ракета-носитель «Союз-2» была принята на сопровождение наземными средствами управления Главного испытательного космического центра имени Германа Титова.
В расчетное время космический аппарат был выведен на целевую орбиту и принят на управление наземными средствами Космических войск ВКС. С космическим аппаратом установлена и поддерживается устойчивая телеметрическая связь, его бортовые системы функционируют в штатном режиме. Космическому аппарату присвоен порядковый номер «Космос-2553».
Технологический космический аппарат «Космос-2553» оснащен вновь разрабатываемыми бортовыми приборами и системами для их отработки в условиях воздействия радиации и тяжелых заряженных частиц.
После выведения на орбиту космического аппарата офицеры Центра контроля космического пространства внесли информацию о нем в Главный каталог космических объектов российской системы контроля космического пространства информацию, и приступили к анализу и обработке информации о новом космическом объекте для принятия его на сопровождение наземными средствами Главного центра разведки космической обстановки Космических войск ВКС.
Всего в обеспечении запуска космического аппарат Минобороны России было задействовано более 40 наземных измерительных средств и свыше 70 боевых расчетов 15 армии Воздушно-космических сил особого назначения.
https://www.roscosmos.ru/34049/
Soyuz launches Russian military spy satellite
February 7, 2022 Stephen Clark
https://www.youtube.com/watch?v=F-A2ShK6Cmc&t=86s
(...) The Russian Ministry of Defense declared the launch a success in a post-flight press release. U.S. military tracking data confirmed the successful launch, indicating the Fregat upper stage placed its payload into an unusual orbit more than 1,200 miles (nearly 2,000 kilometers) above Earth. At that altitude, the spacecraft circles Earth once every 127 minutes.
Russian officials officially named the satellite Kosmos 2553, keeping with the country’s naming scheme for military spacecraft. The defense ministry said Kosmos 2553 is a technology demonstration spacecraft with “newly-developed on-board instruments and systems” to be tested under the influence of radiation and charged particles in space.
Some analysts believe Kosmos 2553 is likely an imaging surveillance satellite for the Russian military, possibly the first in a new series of radar reconnaissance satellites called Neitron. Radar satellites can collect all-weather, day-and-night surveillance images.
Russia’s military has debuted several new satellite programs in recent years, including Pion-NKS and Lotos satellites to intercept radio transmissions and help Russian intelligence officers locate foreign shipping traffic, including naval forces. Russia has also launched military spacecraft in the last few years that appear to have tested anti-satellite capabilities in orbit, according to U.S. officials.
https://spaceflightnow.com/2022/02/07/soyuz-launches-russian-military-spy-satellite/
https://www.nasaspaceflight.com/2022/02/soyuz-neitron/
https://space.skyrocket.de/doc_sdat/neitron.htm
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
25 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01A
31 23:11:14 Canaveral 40 Falcon-9R CSG-2
LUTY 2022
02 20:27:26 Vandenberg 4E Falcon-9R [NRO L-87]
03 18:13:20 KSC 39A Falcon-9R Starlink x 49
05 07:00:00 Plesieck 43/? Sojuz-2.1a/Fregat Kosmos 2553 [Neitron]
10 18:09:37 Kourou ELS Sojuz-STB/Fregat-MT OneWeb x 34
10 20:00 Canaveral 46 Rocket v3.3 BAMA-1, INCA, QubeSat, R5-S1
__________________________________________________________________________________________
14 00:29 Sriharikota PSLV-XL EOS-4m INSPIREsat-1, INS-2TD
15 04:25:40 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:39:59 Wallops 0A Antares-230+ Cygnus NG-17
20 15:00-19:00 Canaveral 40 Falcon-9R Starlink x 51
25 23:00 Jiuquan 43/94 CZ-4C Ludi Tance-1 01B
27 ??:?? Wenchang 201 CZ-8 [22 satelity]
28 ??:?? Onenui 1A Electron/Curie StriX-beta
?? ??:?? Vandenberg 4E Falcon-9R Starlink x 51
?? ??:?? Xichang 3 CZ-2C Yinhe x 6, Yituhao Xingyuan,
Xuanming Xingyuan
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
MARZEC 2022
01 21:38-23:38 Canaveral 41 Atlas-5/541 GOES-T
?? ??:?? KSC 39A Falcon Heavy [USSF-44], TERA-1
05 ??:?? Bajkonur 31/6 Sojuz-2.1b/Fregat-M OneWeb x 36
15 ??:?? Wostocznyj 1S Sojuz-2.1a/Fregat Kondor-FKA 1
18 18:55 Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
1? ??:?? Plesieck 43/? Sojuz-2.1b/Fregat-M Kosmos [Uragan-M]
29 ??:?? Sriharikota PSLV TDS-01
30 18:45 KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Onenui 1A Electron/Curie BlackSky Gen-2 18, 19
?? ??:?? Jiuquan Lijian-1 Zhuhai-1 x 6
?? ??:?? Sriharikota PSLV EOS-06, BhutanSat, Anand
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
-
No to oficjalnie mamy pierwszy nieudany start w tym roku!
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
25 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01A
31 23:11:14 Canaveral 40 Falcon-9R CSG-2
LUTY 2022
02 20:27:26 Vandenberg 4E Falcon-9R [NRO L-87]
03 18:13:20 KSC 39A Falcon-9R Starlink x 49
05 07:00:00 Plesieck 43/? Sojuz-2.1a/Fregat Kosmos 2553 [Neitron]
10 18:09:37 Kourou ELS Sojuz-STB/Fregat-MT OneWeb x 34
10 20:00 Canaveral 46 Rocket v3.3 BAMA-1, INCA, QubeSat, R5-S1
14 00:29 Sriharikota PSLV-XL RISAT-1A, INSPIREsat-1, INS-2TD
__________________________________________________________________________________________
15 04:25:40 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:39:59 Wallops 0A Antares-230+ Cygnus NG-17
20 15:00-19:00 Canaveral 40 Falcon-9R Starlink x 51
25 23:00 Jiuquan 43/94 CZ-4C Ludi Tance-1 01B
27 ??:?? Wenchang 201 CZ-8 [22 satelity]
28 ??:?? Onenui 1A Electron/Curie StriX-beta
?? ??:?? Vandenberg 4E Falcon-9R Starlink x 51
?? ??:?? Xichang 3 CZ-2C Yinhe x 6, Yituhao Xingyuan,
Xuanming Xingyuan
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
MARZEC 2022
01 21:38-23:38 Canaveral 41 Atlas-5/541 GOES-T
?? ??:?? KSC 39A Falcon Heavy [USSF-44], TERA-1
05 ??:?? Bajkonur 31/6 Sojuz-2.1b/Fregat-M OneWeb x 36
15 ??:?? Wostocznyj 1S Sojuz-2.1a/Fregat Kondor-FKA 1
18 18:55 Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
1? ??:?? Plesieck 43/? Sojuz-2.1b/Fregat-M Kosmos [Uragan-M]
29 ??:?? Sriharikota PSLV TDS-01
30 18:45 KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Onenui 1A Electron/Curie BlackSky Gen-2 18, 19
?? ??:?? Jiuquan Lijian-1 Zhuhai-1 x 6
?? ??:?? Sriharikota PSLV EOS-06, BhutanSat, Anand
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
-
... indianie leca ... Z powazaniem
Adam Przybyla
Zrodla:
https://twitter.com/r_isro/status/1493138657104265216
-
Trzy indyjskie satelity
14.02. o 00:29:00 z Sriharikota wystrzelona została RN PSLV-XL, która wyniosła w T+17' na orbitę o parametrach: hp=521 km, ha=535 km, i=97,55° satelity RISAT-1A (EOS-4), INSPIREsat-1 i INS-2TD.
http://lk.astronautilus.pl/n220201.htm#06
(https://www.isro.gov.in/sites/default/files/galleries/PSLV-C52%20%20Gallery/imgl4999.jpg)(https://www.isro.gov.in/sites/default/files/galleries/PSLV-C52%20%20Gallery/dks7598.jpg)
PSLV-XL launches EOS-04, INS-2TD and INSPIREsat-1
https://www.youtube.com/watch?v=WnoSoPwKz68
Launch of Indian PSLV Rocket with EOS-04 Satellite
https://www.youtube.com/watch?v=uxKmplIMqGY
https://twitter.com/isro/status/1493025667448852481
https://www.isro.gov.in/launcher/pslv-c52-eos-04-mission
Indian PSLV prepared for first launch in nearly a year
February 11, 2022 Stephen Clark
(https://spaceflightnow.com/wp-content/uploads/2022/02/eos4-encap.jpg)
India’s EOS 4 radar imaging satellite is prepared for encapsulation inside the payload shroud of its Polar Satellite Launch Vehicle. Credit: ISRO
https://spaceflightnow.com/2022/02/11/indian-pslv-prepared-for-first-launch-in-nearly-a-year/
Some statistics on today's flight
54th PSLV mission
23rd launch in PSLV-XL configuration
1st Indian launch of 2022
1st PSLV flight of 2022
80th launch vehicle mission from the Satish Dhawan Space Center
https://spaceflightnow.com/2022/02/13/pslv-c52-mission-status-center/
India orbits three satellites in first space launch since failure
February 14, 2022 Stephen Clark
(https://spaceflightnow.com/wp-content/uploads/2022/02/pslvc52liftoff.jpg)
India’s Polar Satellite Launch Vehicle lifts off with the EOS 4 radar satellite. Credit: ISRO
(...) India’s PSLV flew in its most powerful configuration, called the PSLV XL, with six strap-on solid rocket boosters. The boosters and core stage motor, also burning pre-packed solid propellants, sent the rocket downrange over the Bay of Bengal. (...)
The PSLV deployed the EOS 4 spacecraft nearly 18 minutes after liftoff. About a minute later, the rocket released its two rideshare payloads. On-board cameras showed the satellites flying free of the rocket, and officials from the Indian Space Research Organization confirmed the PSLV reached an on-target orbit.
The mission aimed for a polar orbit 328 miles (529 kilometers) above Earth. ISRO officials also confirmed the main satellite on the launch, named EOS 4, deployed its solar panels to begin generating its own electrical power.
The 3,770-pound (1,710-kilogram) EOS 4 spacecraft, previously known as RISAT 1A, was expected to next deploy its C-band radar antenna. The spacecraft will collect radar images of Earth, gathering data useful in agriculture, soil moisture detection, disaster management, disaster assessment, carbon inventory, and forestry and plantation management.
Radar remote sensing satellites can see Earth’s surface in day and night, and aren’t obscured by cloud over like optical imaging missions. EOS 4 is beginning a 10-year mission.
“This spacecraft is going to be one of the biggest assets for us to serve the country,” said S. Somanath, chairman of ISRO, in remarks from the Satish Dhawan Space Center after the launch.
The INS 2TD satellite, launched as a secondary payload Sunday, carries a thermal imaging camera for Earth observations, serving as a technology demonstrator for a future satellite India is developing in cooperation with Bhutan.
INSPIRESat 1 is a joint project between the University of Colorado’s Laboratory for Atmospheric and Space Physics and the Indian Institute of Space Science and Technology, with additional contributions from institutions in Singapore and Taiwan.
It host a scientific instrument to study the dynamics of Earth’s ionosphere, a layer of the upper atmosphere where the influences of terrestrial weather and space weather come together, impacting satellite operations and radio communications.
Another instrument on INSPIRESat 1 is an X-ray spectrometer funded by NASA to observe solar flares. The INSPIRESat 1 spacecraft was assembled and tested in Colorado and shipped to India to prepare for launch. (...)
https://spaceflightnow.com/2022/02/14/india-orbits-three-satellites-in-first-space-launch-since-failure/
India puts three satellites into orbit in the first launch of 2022
by Park Si-soo — February 14, 2022
(https://spacenews.com/wp-content/uploads/2022/02/india-space-launch-copy-879x485.png)
India’s PSLV-C52 rocket lifts off from Satish Dhawan Space Center, Feb. 14. Captured from YouTube
(...) India’s Prime Minister Narendra Modi congratulated the successful launch. “Congratulations to our space scientists on the successful launch of PSLV-C52 mission. EOS-04 satellite will provide high-resolution images under all weather conditions for agriculture, forestry and plantations, soil moisture and hydrology as well as flood mapping,” he wrote on Twitter.
The EOS-04 Earth observation satellite, also called Radar Imaging Satellite (RISAT), was the primary payload of the launch. ISRO, its developer, said the 1,710-kilogram satellite was designed to provide “high-quality images under all weather conditions for applications such as agriculture, forestry and plantations, soil moisture and hydrology and flood mapping.” (...)
https://spacenews.com/india-puts-three-satellites-into-orbit-in-the-first-launch-of-2022/
https://economictimes.indiatimes.com/news/science/pslv-rocket-lifts-off-with-indias-new-eye-in-the-sky-satellite/articleshow/89554765.cms
https://www.nasaspaceflight.com/2022/02/isro-eos-04-launch/
RISAT 1A (EOS 04) https://space.skyrocket.de/doc_sdat/risat-1.htm
INS 2TD https://space.skyrocket.de/doc_sdat/ins-2td.htm
INSPIREsat 1 https://space.skyrocket.de/doc_sdat/inspiresat-1.htm
-
Progress dla ISS
15.02. o 04:25:40 z Bajkonuru wystartowała RN Sojuz-2.1a, która wyniosła na orbitę transportowy statek kosmiczny Progress MS-19. Połączy się on z ISS 17.02.2022 o 07:08:02.
Połączył się on z ISS 17.02.2022 o 07:03:20.
http://lk.astronautilus.pl/n220201.htm#07
(https://pbs.twimg.com/media/FLnT0NxXwAAfeII?format=jpg&name=large)(https://pbs.twimg.com/media/FLnT2nYWYAICD7g?format=jpg&name=large)
Вывоз РКН "Союз-2.1а" с ТГК "Прогресс МС-19"
https://www.youtube.com/watch?v=HCshRVe7z1Y
Progress MS-19 launch (on-board camera view)
https://www.youtube.com/watch?v=yN590zgN5ts
https://www.youtube.com/watch?v=qgv7nO3Tf1Y&t=85s
Новый «грузовик» стартовал к МКС
15.02.2022 07:36
(https://www.roscosmos.ru/media/gallery/big/34139/6428618108.jpg)
Автономный полет к Международной космической станции пройдет по двухсуточной схеме, а стыковка к модулю «Поиск» российского сегмента запланирована на 17 февраля 2022 года в 10:06 мск (±3 мин). Причаливание планируется проводить в автоматическом режиме под контролем специалистов Центра управления полетами ЦНИИмаш (входит в Роскосмос) и космонавтов Роскосмоса Антона Шкаплерова и Петра Дуброва.
В грузовом отсеке корабля размещено около 1 600 кг оборудования и материалов, в том числе ресурсная аппаратура и средства технического обслуживания бортовых систем, материалы медицинского контроля и санитарно-гигиенического обеспечения, предметы одежды, рационы питания и свежие продукты для членов экипажа 66-й экспедиции, а также комплекс целевых нагрузок по программе российских научно-прикладных исследований и экспериментов:
Укладки «Нейролаб» для проведения медицинских экспериментов «Пилот-Т» по изучению влияния факторов длительного полета на качество профессиональной деятельности космонавтов;
укладки «Воздух» и «Поверхность» для проведения эксперимента «Асептик» по разработке средств обеспечения стерильности при выполнении биоэкспериментов;
укладка «Биопробы» для проведения эксперимента «Биодеградация» по исследованию влияния микрофлоры на конструкционные материалы в условиях космоса и разработки методов биологической безопасности космических аппаратов;
укладка «Биомодуль» для проведения эксперимента «Фотобиореактор» по исследованию возможности получения продуктов питания и кислорода из фотосинтетической микроводоросли спирулина;
укладки «Чашки» и «Пробирки» для проведения эксперимента «Биомаг-М» по изучению влияния факторов космического пространства на свойства биоорганизмов при экранировании магнитного поля Земли;
укладки «БОП», «ПМ» и «ПС» для проведения эксперимента «Каскад» по разработке эффективных методов биотехнологического производства клеточных культур в условиях микрогравитации;
укладки «Пробиовит» для разработки технологии производства фармакологических продуктов с иммуномодулирующими свойствами в условиях микрогравитации.
Кроме того, в грузовом отсеке находятся шесть малых космических аппаратов класса CubeSat «ЮЗГУ-55» №№ 5-10 разработки НИИ космического приборостроения (входит в Роскосмос) и радиоэлектронных систем Юго-западного государственного университета, предназначенных для запуска с борта МКС во время выхода в открытый космос.
https://www.roscosmos.ru/34139/
На Байконуре начались вакуумные испытания грузового корабля «Прогресс МС-19»
15.12.2021 17:11
(https://www.roscosmos.ru/media/gallery/big/33625/2170651260.jpg)
В монтажно-испытательном корпусе площадки № 254 космодрома Байконур продолжается предстартовая подготовка грузового корабля «Прогресс МС-19». Сегодня, 15 декабря 2021 года, на техническом комплексе состоялась транспортировка корабля в вакуумную камеру для проведения испытаний на герметичность.
В течение прошедшей недели специалисты Ракетно-космической корпорации «Энергия» имени С.П. Королева (входит в состав Госкорпорации «Роскосмос») и профильных предприятий Роскосмоса выполнили серию комплексных испытаний корабля для проверки готовности его бортовых систем к операциям выведения на орбиту и стыковки с Международной космической станцией. После завершения плановых мероприятий корабль «Прогресс МС-19» был доставлен в зал 103 и размещен на ложементах вакуумной камеры 17Т523МР. Предстоящий шестисуточный цикл пневмовакуумных испытаний с использованием гелиево-воздушной среды в проверяемых объемах будет проведен с целью качественного контроля герметичности корабля в наземных условиях. (...)
https://www.roscosmos.ru/33625/
Университетские кубсаты на борту МКС
21.02.2022 17:00
(https://www.roscosmos.ru/media/gallery/big/34232/3195965388.jpg)
https://www.roscosmos.ru/34232/
Грузовой корабль «Прогресс МС-19» вывезли на стартовый комплекс
12.02.2022 08:40
(https://www.roscosmos.ru/media/gallery/big/34126/3491164032.jpg)
https://www.roscosmos.ru/34126/
На Байконуре — второй стартовый день
13.02.2022 08:00
https://www.roscosmos.ru/34127/
Резервный день в подготовке «Прогресса МС-19»
14.02.2022 10:00
https://www.roscosmos.ru/34135/
Russian cargo ship launches in pursuit of International Space Station
February 15, 2022 Stephen Clark
(https://spaceflightnow.com/wp-content/uploads/2022/02/progms19launchquick1.jpg)
A Soyuz-2.1a rocket lifts off with the Progress MS-19 supply ship heading for the International Space Station. Credit: Roscosmos
(...) Russian cosmonauts Anton Shkaplerov and Pyotr Dubrov will be standing by inside the station to take manual control of the Progress cargo ship if its autopilot system runs into problems during docking.
The mission that launched Sunday marked the start of the first flight to the space station this year, and the third launch of a Russian Soyuz rocket to begin 2022. (...)
Roscosmos, Russia’s space agency, said the Progress MS-19 spacecraft will deliver around 5,562 pounds (2,523 kilograms) of supplies to the station.
Russian ground teams loaded 3,598 pounds (1,632 kilograms) of dry cargo into the Progress freighter’s pressurized compartment, according to Roscosmos. The space agency said the mission carries 950 pounds (431 kilograms) of propellant to refuel the station’s Zvezda module propulsion system, 926 pounds (420 kilograms) of fresh drinking water, and 88 pounds (40 kilograms) of compressed gas to replenish the space station’s breathing air.
The equipment the Progress mission is ferrying to the space station includes six Russian student-built CubeSats, which will be deployed outside the outpost by Russian cosmonauts on a future spacewalk. The Progress MS-19 supply ship will also deliver kits for an experiment studying how long-duration spaceflight affects the work of cosmonauts, and cargo for research investigations probing the effects of bacteria on spacecraft structures.
There are also items aboard the Progress MS-19 mission for a plant and microbiology experiments, and equipment to support the production of pharmaceuticals in microgravity. (...)
https://spaceflightnow.com/2022/02/15/soyuz-progress-ms-19-launch/
https://www.nasaspaceflight.com/2022/02/roscosmos-progress-ms-19/
Russian Space Freighter Docks to Station After Two Days
Mark Garcia Posted on February 17, 2022
(https://blogs.nasa.gov/spacestation/wp-content/uploads/sites/240/2022/02/Progress-docking_NASA-TV-1.png)
Russia’s Progress 80 resupply ship approaches the station for docking on Feb. 17, 2022. Credit: NASA TV.
An uncrewed Russian Progress 80 spacecraft arrived at the International Space Station’s Poisk module at 2:03 a.m. EST, about two days after launch from the Baikonur Cosmodrome in Kazakhstan. (...)
https://blogs.nasa.gov/spacestation/2022/02/17/russian-space-freighter-docks-to-station-after-two-days/
Expedition 66 Progress 80 Cargo Ship Docks to International Space Station - Feb. 17, 2022
https://www.youtube.com/watch?v=irx_TY8TOL4
AA https://www.forum.kosmonauta.net/index.php?topic=4440.msg174523#msg174523
Progress-MS 19 (№449) https://space.skyrocket.de/doc_sdat/progress-ms.htm
YuZGU-55 5 (RadioSkaf RS-10, Ruzaevka-390) → https://space.skyrocket.de/doc_sdat/yuzgu-55.htm
YuZGU-55 6 (RadioSkaf RS-11) →
YuZGU-55 7 (RadioSkaf RS-12) →
YuZGU-55 8 (RadioSkaf RS-13) →
YuZGU-55 9 (RadioSkaf RS-14) →
YuZGU-55 10 (RadioSkaf RS-15) →
w ISS (2) https://www.forum.kosmonauta.net/index.php?topic=4923.msg174511#msg174511
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
25 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01A
31 23:11:14 Canaveral 40 Falcon-9R CSG-2
LUTY 2022
02 20:27:26 Vandenberg 4E Falcon-9R [NRO L-87]
03 18:13:20 KSC 39A Falcon-9R Starlink x 49
05 07:00:00 Plesieck 43/? Sojuz-2.1a/Fregat Kosmos 2553 [Neitron]
10 18:09:37 Kourou ELS Sojuz-STB/Fregat-MT OneWeb x 34
10 20:00 Canaveral 46 Rocket v3.3 BAMA-1, INCA, QubeSat, R5-S1
14 00:29 Sriharikota PSLV-XL RISAT-1A, INSPIREsat-1, INS-2TD
15 04:25:40 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:40:07 Wallops 0A Antares-230+ Cygnus NG-17
21 14:44:20 Canaveral 40 Falcon-9R Starlink x 46
25 17:12:10 Vandenberg 4E Falcon-9R Starlink x 50
26 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01B
27 03:06 Wenchang 201 CZ-8/720H Hainan-1 01, Hainan-1 02, Wenchang-1 01,
Wenchang-1 02, Taijing-3 01, Taijing-4 01,
Xidian-1, Jilin-1 Mofeng-02A 01, Chaohu-1,
Jilin-1 Gaofen-03D 10 do 18, Tianqi 19,
Chuangxing Leishen, Dayun, Qimingxing-1
__________________________________________________________________________________________
28 20:35 Onenui 1A Electron/Curie StriX-beta
?? ??:?? Xichang 3 CZ-2C Yinhe x 6, Yituhao Xingyuan,
Xuanming Xingyuan
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
MARZEC 2022
01 21:38-23:38 Canaveral 41 Atlas-5/541 GOES-T
03 17:42 KSC 39A Falcon-9R Starlink x 46
04 22:41 Bajkonur 31/6 Sojuz-2.1b/Fregat-M OneWeb x 36
08 ??:?? Canaveral 30 Falcon-9R Starlink x 46
15 ??:?? Wostocznyj 1S Sojuz-2.1a/Fregat Kondor-FKA 1
18 18:55 Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
1? ??:?? Plesieck 43/? Sojuz-2.1b/Fregat-M Kosmos [Uragan-M]
29 ??:?? Sriharikota PSLV TDS-01
30 18:45 KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Onenui 1A Electron/Curie BlackSky Gen-2 18, 19
?? ??:?? Jiuquan Lijian-1 Zhuhai-1 x 6
?? ??:?? Sriharikota PSLV EOS-06, BhutanSat, Anand
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
?? ??:?? KSC 39A Falcon Heavy [USSF-44], TERA-1
-
Start z Jiuquan
26.02. o 23:44 z Jiuquan wystrzelona została RN CZ-4C, która wyniosła na orbitę o parametrach: hp=600 km, ha=600 km, i=98,48° satelitę zwiadu radarowego Ludi Tance-1 01B.
http://lk.astronautilus.pl/n220216.htm#04
Long March-4C launches L-SAR 01B
https://www.youtube.com/watch?v=HsbA0ug2vqQ
China launches new land-observation satellite
Source: Xinhua Editor: huaxia 2022-02-27 09:39:45
JIUQUAN, Feb. 27 (Xinhua) -- China on Sunday morning launched a Long March-4C rocket to place a new land-observation satellite in space.
The rocket blasted off at 7:44 a.m. (Beijing Time) from the Jiuquan Satellite Launch Center in northwest China and soon sent the L-SAR 01B satellite into its preset orbit.
The satellite will be used to monitor Earth's geological environment, landslides and earthquakes.
The mission marked the 408th flight of the Long March carrier rockets, according to the launch center.
China's L-SAR 01 is a satellite group composed of two satellites equipped with L-band synthetic aperture radar (SAR), namely the L-SAR 01A and the L-SAR 01B. The former was sent into space on Jan. 26.
"SAR" refers to a microwave-imaging radar system that emits electromagnetic waves to Earth and receives echoes. It can take high-definition microwave pictures of the land surface.
The two satellites will be tasked with providing data to support land resource, mapping, forestry, and disaster prevention and relief uses. They will significantly strengthen rapid response capabilities in the event of a natural disaster, the China National Space Administration said in a statement.
Both the satellites and the rocket were built by the Shanghai Academy of Spaceflight Technology, a subsidiary of the China Aerospace Science and Technology Corporation.
http://www.xinhuanet.com/english/20220227/e2f59e24ef39486180982f6df2599665/c.html
Earlier on Saturday China launched the L-SAR 01B satellite on a Long March 4C, sending the synthetic aperture radar satellite to operate in formation with the L-SAR 01A satellite launched in January.
The hypergolic rocket lifted off from Jiuquan Satellite Launch Center at 6:44 p.m. Eastern Feb. 26, CASC confirmed.
https://spacenews.com/china-launches-national-record-22-satellites-on-long-march-8-commercial-rideshare/
https://www.nasaspaceflight.com/2022/02/long-march-4c-ludi-tance/
https://space.skyrocket.de/doc_sdat/ludi-tance-1-01.htm
-
Wystartowała nowa wersja rakiety
27.02. o 03:06 z Wenchang wystrzelony został pierwszy egzemplarz RN CZ-8 (wersja 720H, bez rakiet wspomagających), która wyniosła na orbitę o parametrach: hp=500 km, ha=500 km, i=98° 22 satelity: Hainan-1 01, Hainan-1 02, Wenchang-1 01, Wenchang-1 02, Taijing-3 01, Taijing-4 01, Xidian-1, Jilin-1 Mofeng-02A 01, Jilin-1 Gaofen-03D 10, Jilin-1 Gaofen-03D 11, Jilin-1 Gaofen-03D 12, Jilin-1 Gaofen-03D 13, Jilin-1 Gaofen-03D 14, Jilin-1 Gaofen-03D 15 'Shaoguan-1', Jilin-1 Gaofen-03D 16 'Wenchang Chapsuan-2', Jilin-1 Gaofen-03D 17 'Wenchang Chapsuan-3', Jilin-1 Gaofen-03D 18, Tianqi 19, Chaohu-1, Chuangxing Leishen, Dayun (Xingshidai-17) i Qimingxing-1.
http://lk.astronautilus.pl/n220216.htm#05
Long March-8 Y2 launches 22 satellites
https://www.youtube.com/watch?v=h_dwt4jaUUM
China's Long March rocket carries record-breaking 22 satellites
Zhao Lei | Updated: 2022-02-27 11:52
A modified version of China's Long March 8 carrier rocket transported 22 satellites into orbit on Sunday morning in its debut flight, setting a record for the most satellites launched by a single Chinese rocket.
The rocket blasted off at 11:06 am from a coastal launch tower at the Wenchang Space Launch Center in Southern China's Hainan province and flew more than 15 minutes before deploying all of the 22 small satellites, which were built by seven institutes and private companies, according to a statement from the China National Space Administration, the organizer of the launch mission.
Most of the launched satellites are tasked with conducting remote-sensing operations with their optical instruments.
The major user of the rocket is Changguang Satellite Technology, a State-owned enterprise in Northeast China's Jilin province, as it manufactured and will operate 10 satellites.
Before the mission, the domestic record for the most satellites launched by a single rocket was held by the first flight of the Long March 6 model in September 2015, which deployed 20 satellites. The world record is held by SpaceX's Falcon 9, which lifted 143 satellites in January last year.
Like the original Long March 8 model, the latest variant is 50.3 meters long and has a diameter of 3.35 meters. It is propelled by four engines-two on the first stage and two on the second – and has a liftoff weight of nearly 198 metric tons. The rocket is capable of transporting satellites with a combined weight of 3 tons to sun-synchronous orbits, according to China Aerospace Science and Technology Corp, a leading State-owned space contractor that made the rocket.
Long March 8's original model performed its debut mission in December 2020 at the Wenchang center. Sunday's mission was the second flight of the Long March 8 series.
Chen Xiaofei, one of the rocket's head designers from the China Academy of Launch Vehicle Technology in Beijing, said the major difference between the modified variant and the original Long March 8 is that the new model doesn't have side boosters. Its fairing is also shorter than that of the original type, he added.
Earlier on Sunday, a Long March 4C rocket was launched at the Jiuquan Satellite Launch Center in northwestern China's Gobi Desert to deploy an Earth-observation radar satellite.
The Land Surveyor 1-01B satellite soon entered a quasi-sun-synchronous orbit about 607 kilometers above the ground and will team up with its predecessor -- Land Surveyor 1-01A that was launched on Jan 26 – to use their L-band synthetic aperture radars to carry out round-the-clock, all-weather observation of ground areas.
The two-satellite system is tasked with providing data and images to land resources, disaster prevention and relief, mapping, and forestry authorities and will extensively strengthen the rapid response capability for major natural disasters, according to the space administration.
http://www.chinadaily.com.cn/a/202202/27/WS621af57ea310cdd39bc891d3.html
China launches national record 22 satellites on Long March 8 commercial rideshare
by Andrew Jones — February 27, 2022
(https://spacenews.com/wp-content/uploads/2022/02/long-march-8-y2-wenchang-27feb2022-ourspace-879x485.jpg)
The second Long March 8 lifts off from Wenchang at 11:06 a.m. local time, Feb. 27, 2022. Credit: Ourspace/CNSA
(...) The second Long March 8 flew without the pair of side boosters used in the rocket’s first mission back in December 2020. It has a length of 50.3 meters long and a mass at takeoff of 356 tons.
The Long March 8 has been slated for test development of vertical takeoff, vertical landing, during which side boosters would remain attached to the first stage. Saturday’s mission was expendable, launching over the sea from Hainan island.
The Long March 8 combines the 3.35-meter-diameter new-generation Long March 7 kerosene-liquid oxygen first stage with a 3-meter-diameter hydrolox second stage from the older Long March 3A series.
“To put it simply, we have hammered out a ‘carpooling’ solution to launch many small satellites in one successful launch mission,” Xiao Yun, chief commander of the Long March 8 rocket program, told CCTV. (...)
https://spacenews.com/china-launches-national-record-22-satellites-on-long-march-8-commercial-rideshare/
https://novosti-kosmonavtiki.ru/news/82883/
https://www.nasaspaceflight.com/2022/02/cz-8-rideshare/
Jilin-1 Mofang-02A (Xiamen Keji 1) https://space.skyrocket.de/doc_sdat/jilin-1-mofang-02a.htm
Jilin-1 Gaofen-03D-10 (Jilin-1 High Resolution-03D-10) https://space.skyrocket.de/doc_sdat/jilin-1-gaofen-03a.htm
Jilin-1 Gaofen-03D-11 (Jilin-1 High Resolution-03D-11)
Jilin-1 Gaofen-03D-12 (Jilin-1 High Resolution-03D-12)
Jilin-1 Gaofen-03D-13 (Jilin-1 High Resolution-03D-13)
Jilin-1 Gaofen-03D-14 (Jilin-1 High Resolution-03D-14)
Jilin-1 Gaofen-03D-15 (Jilin-1 High Resolution-03D-15, Shaoguan 1)
Jilin-1 Gaofen-03D-16 (Jilin-1 High Resolution-03D-16, Wenchang Chaosuan 2)
Jilin-1 Gaofen-03D-17 (Jilin-1 High Resolution-03D-17, Wenchang Chaosuan 3)
Jilin-1 Gaofen-03D-18 (Jilin-1 High Resolution-03D-18)
Hainan-1 01 https://space.skyrocket.de/doc_sdat/hainan-1-01.htm
Hainan-1 02
Wenchang-1 01 (Weina Xingkong 03)
Wenchang-1 02 (Weina Xingkong 04)
Chaohu 1 (Tianxian batch 1)
Qimingxing 1 (QX 1)
Dayun (Xingshidai 17, Weina Xingkong 05)
Taijing-3 01
Taijing-4 01
Xidian-1 (XD 1)
Weina Xingkong 01
Weina Xingkong 02
-
Starty kosmiczne w 2022
Starty wg miesięcy
I 8 (Chiny 2, SpaceX 4, ULA 1, VO 1)
II 12+1 (20+1) (Chiny 2, SpaceX 4, NG 1, Astra 1, Rocket Lab 1, Rosja 2+1 Kourou, Indie 1)
W skrócie: ilość startów
Chiny 4
USA/Nowa Zelandia (Rocket Lab) 12+1 (SpaceX 8, ULA 1, NG 1, Virgin Orbit 1, Rocket Lab 1, Astra 1, Firelly Aerospace 0)
Rosja 2+1 z Kourou
Europa (bez europejskich Sojuzów) 0
Japonia 0
Indie 1
Iran 0
Korea Południowa 0
__________________________________________________________________________________________
Statystyka wyniesionych satelitów/sond
I 215 (Chiny 2, SpaceX 204, ULA 2, VO 7)
II 218+4 (Chiny 23, SpaceX 146, NG 3, Astra 4, Rocket lab 1, Rosja 8+34 Kourou, Indie 3)
W skrócie: ilość wyniesionych satelitów/sond (w tym CubeSaty i PocketQubety):
Chiny 25
USA 363+4 :
SpaceX 350
ULA 2
NG 3
Virgin Orbit 7
Astra 4
Firelly Aerospace
Nowa Zelandia (Rocket Lab) 1
Rosja 8+34 Kourou
Europa (bez europejskich Sojuzów)
Japonia
Indie 3
Iran
Korea Południowa
Razem 432+ 4
CubeSaty i PocketQubety
I SpaceX 77C + 21P, VO 7C
II Astra 4C, NG 2C, Rosja 6C
https://www.forum.kosmonauta.net/index.php?topic=4133.msg146649#msg146649
-
Meridian wystrzelony z Plesiecka
22.03. o 12:48:22,591 z Plesiecka wystrzelona została RN Sojuz-2.1b/Fregat, która wyniosła w T+ 2h 15' 20" na orbitę o parametrach: hp=998 km, ha=39712 km, i=62,82° wojskowego satelitę komunikacyjnego Meridian-10.
http://lk.astronautilus.pl/n220316.htm#05
The Soyuz 2 1a Z space rocket was launched from the Plesetsk cosmodrome
https://www.youtube.com/watch?v=DOoEnZ_2xYs
Russian military communications satellite launched on Soyuz rocket
March 24, 2022 Stephen Clark
(https://spaceflightnow.com/wp-content/uploads/2022/03/soyuz-meridian-launch-1.jpg)
A Soyuz rocket lifts off Tuesday with a Russian military satellite. Credit: Russian Ministry of Defense
(...) The Meridian spacecraft are manufactured by ISS Reshetnev, a Russian space contractor, as replacements for a previous generation of Molniya communications satellites. The Russian contractor says the Meridian satellites weigh around 2.1 metric tons, or 4,630 pounds, and can operate for at least seven years in space.
Thanks to their elliptical orbits, Meridian satellites can link Russian ground forces, aircraft, ships and command centers in the Arctic, Siberia and the North Sea, outside the reach of stable communications coverage through geostationary satellites over the equator.
In one example of the Meridian fleet’s communications mission, the Russian Defense Ministry said the satellites relay signals between coastal stations and vessels and ice reconnaissance airplanes traveling along the Northern Sea Route in the Arctic Ocean. The Meridian satellites also serve users in northern Siberia and Russia’s Far East, the defense ministry said.
With Tuesday’s mission, Russia has launched 10 Meridian communications satellites since 2006 to begin replacing the Molniya family of data relay platforms. One of the Meridian satellites was lost in a Soyuz launch failure in 2011, and another was released into an off-target orbit in 2009. (...)
https://spaceflightnow.com/2022/03/24/russian-military-communications-satellite-launched-on-soyuz-rocket/
https://www.nasaspaceflight.com/2022/03/meridian-m-20l/
https://novosti-kosmonavtiki.ru/news/83129/
https://space.skyrocket.de/doc_sdat/meridian-m.htm
====
Warunki pogodowe na 80% sprzyjają startowi w oknie startowym 22:38-00:38 CET
https://twitter.com/NOAA/status/1498686956460560395
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
25 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01A
31 23:11:14 Canaveral 40 Falcon-9R CSG-2
LUTY 2022
02 20:27:26 Vandenberg 4E Falcon-9R [NRO L-87]
03 18:13:20 KSC 39A Falcon-9R Starlink x 49
05 07:00:00 Plesieck 43/? Sojuz-2.1a/Fregat Kosmos 2553 [Neitron]
10 18:09:37 Kourou ELS Sojuz-STB/Fregat-MT OneWeb x 34
10 20:00 Canaveral 46 Rocket v3.3 BAMA-1, INCA, QubeSat, R5-S1
14 00:29 Sriharikota PSLV-XL RISAT-1A, INSPIREsat-1, INS-2TD
15 04:25:40 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:40:07 Wallops 0A Antares-230+ Cygnus NG-17
21 14:44:20 Canaveral 40 Falcon-9R Starlink x 46
25 17:12:10 Vandenberg 4E Falcon-9R Starlink x 50
26 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01B
27 03:06 Wenchang 201 CZ-8/720H Hainan-1 01, Hainan-1 02, Wenchang-1 01,
Wenchang-1 02, Taijing-3 01, Taijing-4 01,
Xidian-1, Jilin-1 Mofeng-02A 01, Chaohu-1,
Jilin-1 Gaofen-03D 10 do 18, Tianqi 19,
Chuangxing Leishen, Dayun, Qimingxing-1
28 20:37:25 Onenui 1B Electron/Curie StriX-beta
MARZEC 2022
01 21:38 Canaveral 41 Atlas-5/541 GOES-T
__________________________________________________________________________________________
03 14:42 KSC 39A Falcon-9R Starlink x 46
04 22:41:02 Bajkonur 31/6 Sojuz-2.1b/Fregat-M OneWeb x 36
05 ??:?? Xichang 3 CZ-2C Yinhe x 6, Yituhao Xingyuan,
Xuanming Xingyuan
08 ??:?? Canaveral 40 Falcon-9R Starlink x 46
08-12 16:22-17:22 Kodiak 3B Rocket v3.3 [S4 CROSSOVER]
15 ??:?? Wostocznyj 1S Sojuz-2.1a/Fregat Kondor-FKA 1
15 ??:?? Canaveral 40 Falcon-9R Starlink x 46
18 15:55 Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
1? ??:?? Plesieck 43/? Sojuz-2.1b/Fregat-M Kosmos [Uragan-M]
29 ??:?? Sriharikota PSLV TDS-01
30 18:46 KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Onenui 1A Electron/Curie BlackSky Gen-2 18, 19
?? ??:?? Jiuquan Lijian-1 Zhuhai-1 x 6
?? ??:?? Sriharikota PSLV EOS-06, BhutanSat, Anand
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
-
Kolejny GOES
01.03. o 21:38 z Cape Canaveral wystartowała RN Atlas-5/541. Wyniosła ona na orbitę o parametrach: hp=8876 km,
ha=35278 km, i=9,416° satelitę GOES-T (GOES-18).
http://lk.astronautilus.pl/n220301.htm#01
(https://pbs.twimg.com/media/FMzzMViXoAQcGZD?format=jpg&name=4096x4096)(https://pbs.twimg.com/media/FMzYrwDXEAECQkJ?format=jpg&name=large)
Atlas V launches GOES-T
https://www.youtube.com/watch?v=zH9SJEqQ5Xk
https://twitter.com/ulalaunch/status/1498781715552251909
https://www.ulalaunch.com/missions/next-launch/atlas-v-goes-t
ROCKET: Atlas 5 (AV-095)
MISSION: GOES-T
PAYLOAD: GOES-T weather satellite for NOAA and NASA
LAUNCH SITE: SLC-41, Cape Canaveral Space Force Station, Florida
LAUNCH DATE: March 1, 2022
LAUNCH WINDOW: 4:38-6:38 p.m. EST (2138-2338)
WEATHER FORECAST: 80% chance of acceptable weather; Primary concerns are cumulus clouds and liftoff winds
BOOSTER RECOVERY: None
LAUNCH AZIMUTH: East
TARGET ORBIT: Apogee of 21,925 miles (35,286 kilometers); Perigee of 5,515 miles (8,876 kilometers); Inclination of 9.4 degrees
LAUNCH TIMELINE:
T-00:00:02.7: RD-180 ignition
T+00:00:01.0: Liftoff
T+00:00:05.3: Begin pitch/yaw maneuver
T+00:00:35.3: Mach 1
T+00:00:48.0: Maximum aerodynamic pressure (Max-Q)
T+00:01:50.7: Solid rocket booster jettison
T+00:03:30.2: Payload fairing jettison
T+00:04:22.8: Atlas booster engine cutoff (BECO)
T+00:04:28.8: Atlas/Centaur stage separation
T+00:04:38.7: Centaur first main engine start (MES-1)
T+00:12:05.6: Centaur first main engine cutoff (MECO-1)
T+00:23:39.1: Centaur second main engine start (MES-2)
T+00:28:14.3: Centaur second main engine cutoff (MECO-2)
T+03:28:28.4: Centaur third main engine start (MES-3)
T+03:30:07.3: Centaur third main engine cutoff (MECO-3)
T+03:32:56.3: GOES-T spacecraft separation
MISSION STATS:
674th launch for Atlas program since 1957
375th Atlas launch from Cape Canaveral
263rd mission of a Centaur upper stage
240th use of Centaur by an Atlas rocket
509th production RL10 engine to be launched
39th RL10C-1 engine launched
98th flight of an RD-180 main engine
92nd launch of an Atlas 5 since 2002
22nd NASA use of an Atlas 5
3rd NOAA weather satellite launched on an Atlas 5
10th-13th GEM-63 solid rocket boosters flown
76th launch of an Atlas 5 from Cape Canaveral
2nd Atlas 5 launch of 2022
134th Evolved Expendable Launch Vehicle flight
149th United Launch Alliance flight overall
84th Atlas 5 under United Launch Alliance
107th United Launch Alliance flight from Cape Canaveral
34th 500-series flight of the Atlas 5
8th Atlas 5 to fly in the 541 configuration
103rd launch from Complex 41
76th Atlas 5 to use Complex 41
9th orbital launch overall from Cape Canaveral in 2022
https://spaceflightnow.com/2022/03/01/atlas-5-av-095-goes-t-mission-status-center/
Next GOES weather satellite installed atop Atlas 5 rocket
February 19, 2022 Stephen Clark
(https://spaceflightnow.com/wp-content/uploads/2022/02/goesttransfer.jpg)
NOAA’s GOES-T weather satellite, encapsulated inside its payload shroud, was transferred to ULA’s Vertical Integration Facility on Thursday for lifting atop an Atlas 5 rocket. Credit: United Launch Alliance
(...) NOAA’s Geostationary Operational Environmental Satellites take regularly-updated images of clouds and storm systems, providing real-time views of tropical cyclones and severe weather. The first GOES satellite launched in 1975, and NOAA maintains two operational GOES spacecraft — one covering the Pacific and Western United States, and another over the East Coast, the Caribbean, and the Atlantic Ocean.
NOAA’s weather satellites in polar orbit gather data for medium and long-term forecasts. (...)
https://spaceflightnow.com/2022/02/19/next-goes-weather-satellite-installed-atop-atlas-5-rocket/
Atlas 5 rocket rolls to launch pad with weather satellite
February 28, 2022 Stephen Clark
United Launch Alliance rolled out an Atlas 5 rocket to its launch pad at Cape Canaveral on Monday, moving the launcher into position for liftoff Tuesday afternoon with a NOAA weather satellite destined to cover the Western United States and the Pacific Ocean.
The move began at 10:16 a.m. EST (1516 GMT) with the emergence of the Atlas 5 from its Vertical Integration Facility at Cape Canaveral Space Force Station. (...)
https://spaceflightnow.com/2022/02/28/atlas-5-goes-t-rollout/
NOAA weather satellite ready for launch after repairs to main camera
February 28, 2022 Stephen Clark
(https://spaceflightnow.com/wp-content/uploads/2022/03/51670338358_9ae56a1bf2_o.jpg)
The GOES-T weather satellite undergoes a solar array deployment test. Credit: Lockheed Martin
(...) The GOES-T satellite will launch with modifications to its main imaging camera, changes designed to avoid a minor cooling system problem that afflicted NOAA’s previous geostationary weather monitor sent into space four years ago. (...)
https://spaceflightnow.com/2022/02/28/noaa-weather-satellite-ready-for-launch-after-repairs-to-main-camera/
Atlas 5 launches GOES-T weather satellite
by Jeff Foust — March 1, 2022
(https://spacenews.com/wp-content/uploads/2022/03/atlas5-goest.jpg)
An Atlas 5 541 lifts off March 1 carrying the GOES-T weather satellite. Credit: ULA
(...) The Centaur performed three burns to place the spacecraft in a transfer orbit with a higher perigee, in this case nearly 8,900 kilometers, than a typical geostationary transfer orbit. That is intended to shorten the time and reduce the propellant needed to reach geostationary orbit. (...)
The spacecraft, which the National Oceanic and Atmospheric Administration will rename GOES-18, will initially be checked out at 89.5 degrees west in GEO. The spacecraft will then drift to 136.8 degrees west, the GOES-West slot, by August for final testing. It will take over as the operational GOES-West satellite in early January of 2023, said Candace Carlisle, flight project manager for the GOES-R series of satellites at NASA’s Goddard Space Flight Center, during a Feb. 25 briefing.
GOES-18 will take over for GOES-17, which launched as GOES-S on an Atlas 5 exactly four years ago. (...)
The fourth, GOES-U, is scheduled to launch in 2024 on a SpaceX Falcon Heavy. (...)
https://spacenews.com/atlas-5-launches-goes-t-weather-satellite/
https://spacenews.com/goes-t-nears-launch-as-nasa-plans-studies-of-next-generation-weather-satellite/
ULA’s Mighty Atlas Launches Long-Delayed GOES-T Geostationary Earth-Watcher
by Ben Evans March 1, 2022
(https://www.americaspace.com/wp-content/uploads/2022/02/goestnasa.jpg)
Artist’s concept of GOES-T as it will appear fully deployed in orbit. Image Credit: NASA
(...) Operated by the National Oceanic and Atmospheric Administration’s (NOAA) National Environmental Satellite, Data and Information Service (NESDIS), the multi-spacecraft GOES network is responsible for weather forecasting, storm tracking and meteorological research from geostationary orbit. It became customary for each satellite to be alphabetically identified before launch and renamed with a number after entering service. As such, GOES-T will be redesignated “GOES-18” when it commences operations.(...)
Contracts to fabricate instruments for this latest incarnation of GOES were awarded back in 2006 and Lockheed Martin was selected by NASA in December 2008 to build and integrate an initial pair of spacecraft, each with an option for one additional spacecraft, at an total cost (including exercised options) of $1.09 billion. Those spacecraft—GOES-R and GOES-S—were launched atop ULA Atlas V boosters in November 2016 and March 2018. (...)
https://www.americaspace.com/2022/03/01/ulas-mighty-atlas-launches-long-delayed-goes-t-geostationary-earth-watcher/
GOES-T weather satellite resumes orbit-raising after minor snag
March 10, 2022 Stephen Clark
A new NOAA weather satellite that launched from Cape Canaveral last week has resumed orbit-raising after the spacecraft aborted its first major post-launch maneuver, moving toward its operational geostationary orbit more than 22,000 miles over the equator.
The GOES-T weather satellite’s main engine was supposed to complete the first in a series of orbit-raising burns March 3, but NOAA said the maneuver cut off prematurely. John Leslie, a NOAA spokesperson, said the spacecraft automatically shut down the engine.
A temperature sensor in the satellites liquid apogee engine was set with an incorrect threshold, Leslie said.
GOES-T is the third in a series of four spacecraft in NOAA’s current generation of weather-monitoring satellites in geostationary orbit. NOAA’s fleet of Geostationary Operational Environmental Satellites, or GOES program, tracks hurricanes, severe storms, wildfires, dust storms, and other weather events in real-time, giving forecasters a minute-by-minute glimpse of evolving conditions. (...)
https://spaceflightnow.com/2022/03/10/goes-t-resumes-orbit-raising-after-minor-snag/
https://www.nasa.gov/subject/14118/goest/
https://blogs.nasa.gov/kennedy/2022/03/01/goes-t-separates-from-rocket-continues-on-journey-to-save-lives/
https://spectrumlocalnews.com/nc/triad/weather/2022/02/24/goes-t-weather-satellite-scheduled-for-launch-march-1
https://www.washingtonpost.com/weather/2022/03/01/nasa-noaa-weather-satellite-launch/
https://www.nasaspaceflight.com/2022/03/goes-t-launch/
https://www.nesdis.noaa.gov/current-satellite-missions/goes-18-launch
https://en.wikipedia.org/wiki/GOES-18
https://space.skyrocket.de/doc_sdat/goes-r.htm
EDIT 02.03.23
https://twitter.com/NASA_LSP/status/1630933283046404097
-
OneWeb może a może nie polecieć, wszystko zależne jest od tego, czy rząd UK zagwarantuje, że satelity będą używane tylko do celów cywilnych. Jeśli nie zagwarantuje, to rakieta zejdzie z wyrzutni. Czas mają do chyba północy naszego czasu z 4 na 5 marca.
Edit:
Czas na odpowiedź jest mniej więcej do 19:30 CET 4 marca, czyli na około 3 godziny przed startem. Oznacza to, że będa trwać przygotowania do startu rakiety.
-
Pytanie jak sobie wyobrażają weryfikację i egzekwowanie tej gwarancji 8)
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
25 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01A
31 23:11:14 Canaveral 40 Falcon-9R CSG-2
LUTY 2022
02 20:27:26 Vandenberg 4E Falcon-9R [NRO L-87]
03 18:13:20 KSC 39A Falcon-9R Starlink x 49
05 07:00:00 Plesieck 43/? Sojuz-2.1a/Fregat Kosmos 2553 [Neitron]
10 18:09:37 Kourou ELS Sojuz-STB/Fregat-MT OneWeb x 34
10 20:00 Canaveral 46 Rocket v3.3 BAMA-1, INCA, QubeSat, R5-S1
14 00:29 Sriharikota PSLV-XL RISAT-1A, INSPIREsat-1, INS-2TD
15 04:25:40 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:40:07 Wallops 0A Antares-230+ Cygnus NG-17
21 14:44:20 Canaveral 40 Falcon-9R Starlink x 46
25 17:12:10 Vandenberg 4E Falcon-9R Starlink x 50
26 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01B
2? ??:?? Semnan Zoljanah ? ?
27 03:06 Wenchang 201 CZ-8/720H Hainan-1 01, Hainan-1 02, Wenchang-1 01,
Wenchang-1 02, Taijing-3 01, Taijing-4 01,
Xidian-1, Jilin-1 Mofeng-02A 01, Chaohu-1,
Jilin-1 Gaofen-03D 10 do 18, Tianqi 19,
Chuangxing Leishen, Dayun, Qimingxing-1
28 20:37:25 Onenui 1B Electron/Curie StriX-beta
MARZEC 2022
01 21:38 Canaveral 41 Atlas-5/541 GOES-T
__________________________________________________________________________________________
03 14:25 KSC 39A Falcon-9R Starlink x 46
04 22:41:02 Bajkonur 31/6 Sojuz-2.1b/Fregat-M OneWeb x 36
05 06:07 Xichang 3 CZ-2C Yinhe x 6, Yituhao Xingyuan,
Xuanming Xingyuan
08 ??:?? Canaveral 40 Falcon-9R Starlink x 46
08-12 16:22-17:22 Kodiak 3B Rocket v3.3 [S4 CROSSOVER]
15 ??:?? Wostocznyj 1S Sojuz-2.1a/Fregat Kondor-FKA 1
15 ??:?? Canaveral 40 Falcon-9R Starlink x 46
18 15:55:10 Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
1? ??:?? Plesieck 43/? Sojuz-2.1b/Fregat-M Kosmos [Uragan-M]
29 ??:?? Sriharikota PSLV TDS-01
30 18:46 KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Onenui 1A Electron/Curie BlackSky Gen-2 18, 19
?? ??:?? Jiuquan Lijian-1 Zhuhai-1 x 6
?? ??:?? Sriharikota PSLV EOS-06, BhutanSat, Anand
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
-
01.03. firma Maxar zaprezentowała uzyskane 27.02.2022 zdjęcie, na którym widać ślad po eksplozji na wyrzutni w Semnan, pochodzący prawdopodobnie z nieudanego startu rakiety Zoljanah.
(http://lk.astronautilus.pl/rakiety/zolja22.jpg)
-
Trochę dziwne, że stoją w takim miejscu ciężarówki - czyżby eksplozja nastąpiła kilka dni wcześniej? Dość mało także "gratów" po eksplozji.
Jak uważacie?
-
Trochę dziwne, że stoją w takim miejscu ciężarówki - czyżby eksplozja nastąpiła kilka dni wcześniej? Dość mało także "gratów" po eksplozji.
Jak uważacie?
W króciutkim tekście Maxaru nie ma nic na temat daty eksplozji, znana jest tylko data uzyskania zdjęcia - 27 lutego.
-
Oczywiście, tego można się raczej tylko domyślać na podstawie tego co widać na obrazie.
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
25 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01A
31 23:11:14 Canaveral 40 Falcon-9R CSG-2
LUTY 2022
02 20:27:26 Vandenberg 4E Falcon-9R [NRO L-87]
03 18:13:20 KSC 39A Falcon-9R Starlink x 49
05 07:00:00 Plesieck 43/? Sojuz-2.1a/Fregat Kosmos 2553 [Neitron]
10 18:09:37 Kourou ELS Sojuz-STB/Fregat-MT OneWeb x 34
10 20:00 Canaveral 46 Rocket v3.3 BAMA-1, INCA, QubeSat, R5-S1
14 00:29 Sriharikota PSLV-XL RISAT-1A, INSPIREsat-1, INS-2TD
15 04:25:40 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:40:07 Wallops 0A Antares-230+ Cygnus NG-17
21 14:44:20 Canaveral 40 Falcon-9R Starlink x 46
25 17:12:10 Vandenberg 4E Falcon-9R Starlink x 50
26 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01B
2? ??:?? Semnan Zoljanah ? ?
27 03:06 Wenchang 201 CZ-8/720H Hainan-1 01, Hainan-1 02, Wenchang-1 01,
Wenchang-1 02, Taijing-3 01, Taijing-4 01,
Xidian-1, Jilin-1 Mofeng-02A 01, Chaohu-1,
Jilin-1 Gaofen-03D 10 do 18, Tianqi 19,
Chuangxing Leishen, Dayun, Qimingxing-1
28 20:37:25 Onenui 1B Electron/Curie StriX-beta
MARZEC 2022
01 21:38 Canaveral 41 Atlas-5/541 GOES-T
03 14:25:00 KSC 39A Falcon-9R Starlink x 46
05 06:01 Xichang 3 CZ-2C Yinhe Hangtian-2 01-05,
Xuanming Xingyuan
__________________________________________________________________________________________
08 14:06 Canaveral 40 Falcon-9R Starlink x 46
08-12 16:22-17:22 Kodiak 3B Rocket v3.3 [S4 CROSSOVER]
15 ??:?? Wostocznyj 1S Sojuz-2.1a/Fregat Kondor-FKA 1
15 ??:?? Canaveral 40 Falcon-9R Starlink x 46
18 15:55:10 Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
1? ??:?? Plesieck 43/? Sojuz-2.1b/Fregat-M Kosmos [Uragan-M]
29 ??:?? Sriharikota PSLV TDS-01
30 18:46 KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Onenui 1A Electron/Curie BlackSky Gen-2 18, 19
?? ??:?? Jiuquan Lijian-1 Zhuhai-1 x 6
?? ??:?? Sriharikota PSLV EOS-06, BhutanSat, Anand
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
-
Grupowy start
05.03. o 06:01 z Xichang wystrzelona została RN CZ-2C, która wyniosła na orbitę o parametrach: hp=477 km, ha=500 km, i=63,45° satelity Yinhe Hangtian-2 01 (Nantong-1), Yinhe Hangtian-2 02 (Yituhao Xingyuan), Yinhe Hangtian-2 03, (Xuancheng-1), Yinhe Hangtian-2 04 (Beiyou Yinhe), Yinhe Hangtian-2 05 i Xuanming Xingyuan.
http://lk.astronautilus.pl/n220301.htm#04
Long March-2C launches seven satellites
https://www.youtube.com/watch?v=5GCn4pvEiKM
China launches seven new satellites
Source: XinhuaEditor: huaxia2022-03-05 18:32:00
XICHANG, March 5 (Xinhua) -- China has successfully sent seven satellites into space from the Xichang Satellite Launch Center in southwest China's Sichuan Province Saturday.
Six satellites produced by Beijing-based GalaxySpace and a commercial remote sensing satellite were launched by a Long March-2C carrier rocket at 2:01 p.m. (Beijing Time) and have entered their planned orbit.
The satellites will verify the networking technology and service capability of the low-orbit internet constellation. They will also verify remote sensing technology.
The launch marked the 410th mission of the Long March series carrier rockets.
The flight mission will start the verification and application of communication and remote-sensing integrated technologies for low-orbit satellites.
Remote sensing and communication integration, combined with intelligent ground-data processing systems, effectively accelerate emergency responses.
The ground data processing system was developed independently by Four Squares Technology, a satellite data analysis company.
https://english.news.cn/20220305/423a07a728384c4d92b6110088567506/c.html
China launches test satellites for broadband constellation
by Andrew Jones — March 7, 2022
(https://spacenews.com/wp-content/uploads/2022/03/galaxyspace-GS2-satellites-march2022-galaxyspace-CZ2C-cnsa-ourspace-879x485.jpg)
Liftoff of a Long March 2C rocket from Xichang on March 5, 2022, carrying seven satellites. Credit: Ourspace/CNSA
(...)The six satellites for private startup Galaxy Space are designated GS-2, GS-AP01, 02 and 03 and GS-2BP01 and 02, while also bearing secondary names through sponsorship. The experimental satellite network has been nicknamed “Mini-spider Constellation.”
Each satellite has a mass of 190 kilograms and are capable of data speeds of 40Gbps according to the firm, and are smaller and more capable than the Yinhe-1 satellite launched in 2020.
Notably the satellite could play an important part in the development of China’s plan to establish a national low Earth orbit broadband megaconstellation, overseen by a state-owned enterprise but apparently involving players from the country’s nascent commercial sector.
“These six satellites will form an experimental network integrating communication and remote sensing,” Chang Ming of Galaxy Space told CCTV. (...)
https://spacenews.com/china-launches-test-satellites-for-broadband-constellation/
Long March rocket deploys six Chinese internet satellites
March 8, 2022 Stephen Clark
(https://spaceflightnow.com/wp-content/uploads/2022/03/lm2c_yinhe2.jpg)
A Long March 2C rocket lifts off with seven satellites on March 5. Credit: Galaxy Space
(...) Galaxy Space launched its first satellite, named Yinhe 1, in January 2020 on a small-class Kuaizhou 1A rocket. The company was founded in 2016.
The new Yinhe 2 satellites launched together on a mounting structure inside the Long March 2C rocket’s payload fairing, a wider shroud that China first used on a Long March 2C mission last year. Each Yinhe 2 spacecraft has a communications capacity greater than 40 Gbps, with an average mass of around 419 pounds (190 kilograms), according to Galaxy Space.
(https://spaceflightnow.com/wp-content/uploads/2022/03/yinhe2_stack.jpg)
Six Yinhe internet satellites inside the payload fairing of a Chinese Long March 2C rocket. Credit: Galaxy Space
The six new satellites will work together with the Yinhe 1 satellite in a constellation. Ground teams will run tests on the network, verifying the performance of satellite and ground systems before China deploys a larger satellite internet constellation.
The Yinhe 2 satellites also carry cameras to take photos and videos of Earth’s surface, Galaxy Space said.
China is planning to launch a constellation of up to 13,000 satellites to provide global internet connectivity, according to regulatory filings with the International Telecommunication Union. Technologies proven out by companies like Galaxy Space could make their way into the Chinese mega-constellation, which is analogous to commercial networks like Starlink and OneWeb already well into deployment. (...)
https://spaceflightnow.com/2022/03/08/long-march-rocket-deploys-six-chinese-internet-satellites/
https://www.nasaspaceflight.com/2022/03/internet-cz-2c/
Yinhe 2-01 (Nantong 1) https://space.skyrocket.de/doc_sdat/yinhe-1.htm
Yinhe 2-02 (Yituhao Xingyuan)
Yinhe 2-03(Xuancheng 1)
Yinhe 2-04 (Beiyou Yinhe)
Yinhe 2-05
Yinhe 2-06
Xingyuan 2 (Xuanming Xingyuan)
-
Przypominam, że jutro znów leci Falcon, ze Starlinkami! :)
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
25 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01A
31 23:11:14 Canaveral 40 Falcon-9R CSG-2
LUTY 2022
02 20:27:26 Vandenberg 4E Falcon-9R [NRO L-87]
03 18:13:20 KSC 39A Falcon-9R Starlink x 49
05 07:00:00 Plesieck 43/? Sojuz-2.1a/Fregat Kosmos 2553 [Neitron]
10 18:09:37 Kourou ELS Sojuz-STB/Fregat-MT OneWeb x 34
10 20:00 Canaveral 46 Rocket v3.3 BAMA-1, INCA, QubeSat, R5-S1
14 00:29 Sriharikota PSLV-XL RISAT-1A, INSPIREsat-1, INS-2TD
15 04:25:40 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:40:07 Wallops 0A Antares-230+ Cygnus NG-17
21 14:44:20 Canaveral 40 Falcon-9R Starlink x 46
25 17:12:10 Vandenberg 4E Falcon-9R Starlink x 50
26 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01B
2? ??:?? Semnan Zoljanah ? ?
27 03:06 Wenchang 201 CZ-8/720H Hainan-1 01, Hainan-1 02, Wenchang-1 01,
Wenchang-1 02, Taijing-3 01, Taijing-4 01,
Xidian-1, Jilin-1 Mofeng-02A 01, Chaohu-1,
Jilin-1 Gaofen-03D 10 do 18, Tianqi 19,
Chuangxing Leishen, Dayun, Qimingxing-1
28 20:37:25 Onenui 1B Electron/Curie StriX-beta
MARZEC 2022
01 21:38 Canaveral 41 Atlas-5/541 GOES-T
03 14:25:00 KSC 39A Falcon-9R Starlink x 46
05 06:01 Xichang 3 CZ-2C Yinhe Hangtian-2 01-05,
Xuanming Xingyuan
__________________________________________________________________________________________
09 13:45:00 Canaveral 40 Falcon-9R Starlink x 48
13 15:22-16:22 Kodiak 3B Rocket v3.3 [S4 CROSSOVER]
15 ??:?? Wostocznyj 1S Sojuz-2.1a/Fregat Kondor-FKA 1
15 ??:?? Canaveral 40 Falcon-9R Starlink x 48
18 15:55:19 Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
1? ??:?? Plesieck 43/? Sojuz-2.1b/Fregat-M Kosmos [Uragan-M]
29 ??:?? Sriharikota PSLV TDS-01
30 18:36 KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Onenui 1A Electron/Curie BlackSky Gen-2 18, 19
?? ??:?? Jiuquan Lijian-1 Zhuhai-1 x 6
?? ??:?? Sriharikota PSLV EOS-06, BhutanSat, Anand
?? ??:?? Vandenberg 2W Firefly Alpha ALS mission 1, Carbonite 4
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Xingshidai-12
-
Chodzą plotki, że tym razem Iranowi udało się wysłać coś małego na orbitę około 500 km.
-
Źródło: https://en.irna.ir/news/84675749/IRGC-launches-Noor-2-military-satellite.
-
Chyba nikt nie wspominał, że jest duże prawdopodobieństwo, iż SpaceX zrezygnuje z "południowej" trasy, bo pogoda się poprawia na Atlantyku (wiosna idzie!). A skoro Falcon9 nie będzie się musiał zachowywać jak kierowany pocisk balistyczny podczas manewru unikowego to nośność mu wzrośnie ;).
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
25 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01A
31 23:11:14 Canaveral 40 Falcon-9R CSG-2
LUTY 2022
02 20:27:26 Vandenberg 4E Falcon-9R [NRO L-87]
03 18:13:20 KSC 39A Falcon-9R Starlink x 49
05 07:00:00 Plesieck 43/? Sojuz-2.1a/Fregat Kosmos 2553 [Neitron]
10 18:09:37 Kourou ELS Sojuz-STB/Fregat-MT OneWeb x 34
10 20:00 Canaveral 46 Rocket v3.3 BAMA-1, INCA, QubeSat, R5-S1
14 00:29 Sriharikota PSLV-XL RISAT-1A, INSPIREsat-1, INS-2TD
15 04:25:40 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:40:07 Wallops 0A Antares-230+ Cygnus NG-17
21 14:44:20 Canaveral 40 Falcon-9R Starlink x 46
25 17:12:10 Vandenberg 4E Falcon-9R Starlink x 50
26 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01B
2? ??:?? Semnan Zoljanah ? ?
27 03:06 Wenchang 201 CZ-8/720H Hainan-1 01, Hainan-1 02, Wenchang-1 01,
Wenchang-1 02, Taijing-3 01, Taijing-4 01,
Xidian-1, Jilin-1 Mofeng-02A 01, Chaohu-1,
Jilin-1 Gaofen-03D 10 do 18, Tianqi 19,
Chuangxing Leishen, Dayun, Qimingxing-1
28 20:37:25 Onenui 1B Electron/Curie StriX-beta
MARZEC 2022
01 21:38 Canaveral 41 Atlas-5/541 GOES-T
03 14:25:00 KSC 39A Falcon-9R Starlink x 46
05 06:01 Xichang 3 CZ-2C Yinhe Hangtian-2 01-05,
Xuanming Xingyuan
08 05:06 Shahroud Qased Noor-2
09 13:45:10 Canaveral 40 Falcon-9R Starlink x 48
__________________________________________________________________________________________
15 16:22-16:51 Kodiak 3B Rocket v3.3 OreSat0, ?, ?
17 07:08 Jiuquan 43/95 CZ-4B Haiyang 2E
18 15:55:19 Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
19 01:30 Canaveral 40 Falcon-9R Starlink x 48
25-30 02:00-06:00 Jiuquan CZ-2C/YZ-1S Yaogan 32-03
29 ??:?? Sriharikota PSLV TDS-01
30 18:36 KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Plesieck 43/? Sojuz-2.1b/Fregat-M Kosmos [Uragan-M]
?? ??:?? Wostocznyj 1S Sojuz-2.1a/Fregat Kondor-FKA 1
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Taijing-1 02
?? ??:?? Onenui 1A Electron/Curie BlackSky Gen-2 18, 19
?? ??:?? Taiyuan CZ-6A ?
?? ??:?? Jiuquan Lijian-1 Zhuhai-1 x 6
?? ??:?? Sriharikota S PSLV EOS-06, BhutanSat, Anand
?? ??:?? Mojave B-747/LauncherOne ? x ?
?? ??:?? Canaveral 40 Falcon-9R O3bmPower 1, 2, 3
?? ??:?? Jiuquan 43/95 Zhuque-2 ?
?? ??:?? Sohae Unha-3 Kwangmyongsong-5
-
Tak jak Astropl zauważył w tabelce, dziś próba lotu Astry. Pewnie o tutaj będzie można to zobaczyć:
https://www.youtube.com/watch?v=zYNXoC1qTLo
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
25 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01A
31 23:11:14 Canaveral 40 Falcon-9R CSG-2
LUTY 2022
02 20:27:26 Vandenberg 4E Falcon-9R [NRO L-87]
03 18:13:20 KSC 39A Falcon-9R Starlink x 49
05 07:00:00 Plesieck 43/? Sojuz-2.1a/Fregat Kosmos 2553 [Neitron]
10 18:09:37 Kourou ELS Sojuz-STB/Fregat-MT OneWeb x 34
10 20:00 Canaveral 46 Rocket v3.3 BAMA-1, INCA, QubeSat, R5-S1
14 00:29 Sriharikota PSLV-XL RISAT-1A, INSPIREsat-1, INS-2TD
15 04:25:40 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:40:07 Wallops 0A Antares-230+ Cygnus NG-17
21 14:44:20 Canaveral 40 Falcon-9R Starlink x 46
25 17:12:10 Vandenberg 4E Falcon-9R Starlink x 50
26 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01B
2? ??:?? Semnan Zoljanah ? ?
27 03:06 Wenchang 201 CZ-8/720H Hainan-1 01, Hainan-1 02, Wenchang-1 01,
Wenchang-1 02, Taijing-3 01, Taijing-4 01,
Xidian-1, Jilin-1 Mofeng-02A 01, Chaohu-1,
Jilin-1 Gaofen-03D 10 do 18, Tianqi 19,
Chuangxing Leishen, Dayun, Qimingxing-1
28 20:37:25 Onenui 1B Electron/Curie StriX-beta
MARZEC 2022
01 21:38 Canaveral 41 Atlas-5/541 GOES-T
03 14:25:00 KSC 39A Falcon-9R Starlink x 46
05 06:01 Xichang 3 CZ-2C Yinhe Hangtian-2 01-05,
Xuanming Xingyuan
08 05:06 Shahroud Qased Noor-2
09 13:45:10 Canaveral 40 Falcon-9R Starlink x 48
15 16:22 Kodiak 3B Rocket v3.3 OreSat0, ?, ?
__________________________________________________________________________________________
17 07:08 Jiuquan 43/95 CZ-4B Haiyang 2E
18 15:55:19 Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
19 03:24:40 Canaveral 40 Falcon-9R Starlink x 48
22 ??:?? Plesieck 43/? Sojuz-2.1b/Fregat-M Kosmos
25-30 02:00-06:00 Jiuquan CZ-2C/YZ-1S Yaogan 32-03
29 ??:?? Sriharikota F PSLV TDS-01
30 18:36 KSC 39A Falcon-9R Crew Dragon Axiom-1
?? ??:?? Plesieck 43/? Sojuz-2.1b/Fregat-M Kosmos [Uragan-M]
?? ??:?? Wostocznyj 1S Sojuz-2.1a/Fregat Kondor-FKA 1
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Taijing-1 02
?? ??:?? Onenui 1A Electron/Curie BlackSky Gen-2 18, 19
?? ??:?? Taiyuan CZ-6A ?
?? ??:?? Jiuquan Lijian-1 Zhuhai-1 x 6
?? ??:?? Sriharikota S PSLV EOS-06, BhutanSat, Anand
?? ??:?? Mojave B-747/LauncherOne ? x ?
?? ??:?? Canaveral 40 Falcon-9R O3bmPower 1, 2, 3
?? ??:?? Jiuquan 43/95 Zhuque-2 ?
?? ??:?? Sohae Unha-3 Kwangmyongsong-5
-
No to Astrze się udało!
https://www.youtube.com/watch?v=CXWUKb77Di8
Potwiedzenie:
https://twitter.com/Cosmic_Penguin/status/1503784781254782976
-
No to Astrze się udało!
Tak, udało się, tylko dlaczego utajnili dwa komercyjne cubesaty?
EDIT: Już wiadomo, co to - dwadzieścia SpaceBEE (0,25U).
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
25 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01A
31 23:11:14 Canaveral 40 Falcon-9R CSG-2
LUTY 2022
02 20:27:26 Vandenberg 4E Falcon-9R [NRO L-87]
03 18:13:20 KSC 39A Falcon-9R Starlink x 49
05 07:00:00 Plesieck 43/? Sojuz-2.1a/Fregat Kosmos 2553 [Neitron]
10 18:09:37 Kourou ELS Sojuz-STB/Fregat-MT OneWeb x 34
10 20:00 Canaveral 46 Rocket v3.3 BAMA-1, INCA, QubeSat, R5-S1
14 00:29 Sriharikota PSLV-XL RISAT-1A, INSPIREsat-1, INS-2TD
15 04:25:40 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:40:07 Wallops 0A Antares-230+ Cygnus NG-17
21 14:44:20 Canaveral 40 Falcon-9R Starlink x 46
25 17:12:10 Vandenberg 4E Falcon-9R Starlink x 50
26 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01B
2? ??:?? Semnan Zoljanah ? ?
27 03:06 Wenchang 201 CZ-8/720H Hainan-1 01, Hainan-1 02, Wenchang-1 01,
Wenchang-1 02, Taijing-3 01, Taijing-4 01,
Xidian-1, Jilin-1 Mofeng-02A 01, Chaohu-1,
Jilin-1 Gaofen-03D 10 do 18, Tianqi 19,
Chuangxing Leishen, Dayun, Qimingxing-1
28 20:37:25 Onenui 1B Electron/Curie StriX-beta
MARZEC 2022
01 21:38 Canaveral 41 Atlas-5/541 GOES-T
03 14:25:00 KSC 39A Falcon-9R Starlink x 46
05 06:01 Xichang 3 CZ-2C Yinhe Hangtian-2 01-05,
Xuanming Xingyuan
08 05:06 Shahroud Qased Noor-2
09 13:45:10 Canaveral 40 Falcon-9R Starlink x 48
15 16:22 Kodiak 3B Rocket v3.3 OreSat0, SpaceBEE x 20
17 06:07 Jiuquan 43/95 CZ-4C Yaogan-34 02
18 15:55:18 Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
__________________________________________________________________________________________
19 03:24:40 Canaveral 40 Falcon-9R Starlink x 48
22 ??:?? Plesieck 43/? Sojuz-2.1b/Fregat-M Kosmos
25-30 02:00-06:00 Jiuquan CZ-2C/YZ-1S Yaogan 32-03
29 ??:?? Sriharikota F PSLV TDS-01
?? ??:?? Plesieck 43/? Sojuz-2.1b/Fregat-M Kosmos [Uragan-M]
?? ??:?? Wostocznyj 1S Sojuz-2.1a/Fregat Kondor-FKA 1
?? ??:?? Jiuquan 43/95 Gushenxing-1 Taijing-1 01, Taijing-1 02
?? ??:?? Onenui 1A Electron/Curie BlackSky Gen-2 18, 19
?? ??:?? Taiyuan CZ-6A ?
?? ??:?? Jiuquan Lijian-1 Zhuhai-1 x 6
?? ??:?? Sriharikota S PSLV EOS-06, BhutanSat, Anand
?? ??:?? Mojave B-747/LauncherOne ? x ?
?? ??:?? Canaveral 40 Falcon-9R O3bmPower 1, 2, 3
?? ??:?? Jiuquan 43/95 Zhuque-2 ?
?? ??:?? Sohae Unha-3 Kwangmyongsong-5
-
Kolejny Yaogan
17.03. o 06:07 z Jiuquan wystrzelona została RN CZ-4C, która umieściła na orbicie o parametrach: hp=1100 km, ha=1100 km, i=63,4° satelitę Yaogan-34 02.
http://lk.astronautilus.pl/n220316.htm#02
Long March-4C launches Yaogan-34-02
https://www.youtube.com/watch?v=jYwP85msMLc
Remote sensing satellite lifted successfully into orbit
By ZHAO LEI | chinadaily.com.cn | Updated: 2022-03-17 16:21
China launched a remote sensing satellite from the Jiuquan Satellite Launch Center in the northwestern Gobi Desert on Thursday afternoon, according to the China Aerospace Science and Technology Corp.
The State-owned space contractor said that the Yaogan 34-02 satellite was placed in a preset orbit aboard a Long March 4C rocket that lifted off at 3:09 pm.
The satellite will team up with its predecessor, the Yaogan 34-01, which has been in operation for nearly 11 months, as well as with subsequent Yaogan 34-series satellites to be deployed in the future, as part of a space-based network for purposes such as land mapping, urban infrastructure planning, agricultural yield forecasting and disaster relief, the company said in a statement.
With a liftoff weight of 250 metric tons, the Long March 4C is mainly used to send satellites into sun-synchronous orbit. It is capable of transporting satellites weighing up to 3 metric tons into orbit at an altitude of 700 kilometers.
In addition to the satellite, the final stage of the rocket carried a demonstration device to test new technologies, the company noted.
Both the satellite and the rocket were built by the Shanghai Academy of Spaceflight Technology, a research and manufacturing complex that is part of the CASC. The launch marked the 411th flight of a Long March rocket and China's sixth space mission this year.
http://www.chinadaily.com.cn/a/202203/17/WS6232ef92a310fd2b29e518f5_1.html
China launches second Yaogan-34 reconnaissance satellite
by Andrew Jones — March 17, 2022
(https://spacenews.com/wp-content/uploads/2022/03/Yaogan-3402-CZ4C-JSLC-0709utc-17march2022-CASC-1-879x485.jpg)
Liftoff of a Long March 4C rocket from Jiuquan at 03:109a.m. Eastern (1509 local), March 17, 2022. Credit: CASC
(...) The classified nature of the Yaogan (meaning “remote sensing”) missions and their respective orbits lead Western analysts to believe the series is military in nature, providing a range of reconnaissance capabilities. (...)
https://spacenews.com/china-launches-second-yaogan-34-reconnaissance-satellite/
China launches military spy satellite
March 23, 2022 Stephen Clark
China launched a classified military remote sensing satellite March 17 on a Long March 4C rocket. The three-stage rocket placed the Yaogan 34-02 satellite into an orbit at an altitude of 680 miles (1,100 kilometers).
The Long March 4C lifted off from the Jiuquan space center in the Gobi Desert of northwestern China at 0709 GMT (3:09 a.m. EDT) on March 17. The launch occurred at 3:09 p.m. Beijing time, according to the China Aerospace Science and Technology Corp., the country’s largest state-owned space industry contractor.
The liquid-fueled rocket placed the Yaogan 34-02 satellite into an orbit 680 miles above Earth, with an inclination of 63.4 degrees to the equator, according to publicly-available U.S. military tracking data.
CASC said the new satellite will operate in a network with the Yaogan 34-01 remote sensing satellite launched last year. China’s state media said the satellite “will be used for the survey of land resources, urban planning, crop yield estimation, and disaster prevention and reduction.”
Yaogan 34-02 will also be able to rapidly revisit regions on Earth, providing regularly-updated imagery of the same location.
China uses the Yaogan name as a cover for military spy satellites. Chinese officials didn’t mention any military use for the Yaogan 34-02 satellite., but CASC last year said Yaogan 34-01 will support “national defense” efforts.
The launch March 17 marked the 27th mission worldwide this year to successfully reach orbit, and the sixth Chinese space launch since Jan. 1.
https://spaceflightnow.com/2022/03/23/china-launches-military-spy-satellite/
https://www.nasaspaceflight.com/2022/03/yaogan-34-02/
https://space24.pl/satelity/obserwacja-ziemi/chiny-drugi-satelita-zwiadu-yaogan-34-na-orbicie
Yaogan 34-02 https://space.skyrocket.de/doc_sdat/yaogan-34.htm
?
-
STYCZEŃ 2022
06 21:49:10 KSC 39A Falcon-9R Starlink x 49
13 15:25:39 Canaveral 40 Falcon-9R Alba Cluster 3 (Delfi-PQ, EASAT-2,
GRIZU-263a, Hades, Sattla-2A,
Sattla-2B, UNICORN 1, UNICORN 2A,
UNICORN 2D), Alba Cluster 4 (MDQUBESAT-1,
PION-BR1, UNICORN-2E, UNICORN-2TA1),
BRO-5, Challenger, DEWA-SAT 1, ETV-A1,
FOSSASAT-2E1, FOSSASAT-2E2, FOSSASAT-2E3,
FOSSASAT-2E4, FOSSASAT-2E5, FOSSASAT-2E6,
Gossamer Piccolomini, HYPSO-1, ICEYE (x2),
ION-SCV 004 Elysian Eleonora [LabSat,
STORK-1, STORK-2, SW1FT, VZLUSAT-2],
IRIS-A, Kepler-16, Kepler-17, Kepler-18,
Kepler-19, LEMUR-2, LEMUR-2 DJIRANG,
LEMUR-2 MIRIWARI, LAIKA, MDASat-1a,
MDASat-1b, MDASat-1c, NuX-1, Ororatech,
PILOT-1, SANOSAT-1, Sherpa FX3, Sicz 2-30,
SuperDove (x44), Tevel-1, Tevel-2, Tevel-3,
Tevel-4, Tevel-5, Tevel-6, Tevel-7, Tevel-8,
UMBRA-02, WISESAT-2, ELaNa 40: TechEdSat-15,
cubesat
13 22:51:39 Mojave 12/30 B-747/LauncherOne PAN A, PAN-B, TechEdSat-13, GEARRS-3,
STORK-3, SteamSat-2, ADLER 1
17 02:35 Taiyuan 9 CZ-2D Shiyan-13
19 02:02:40 KSC 39A Falcon-9R Starlink x 49
21 19:00:00 Canaveral 41 Atlas-5/511 GSSAP 5, GSSAP 6
25 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01A
31 23:11:14 Canaveral 40 Falcon-9R CSG-2
LUTY 2022
02 20:27:26 Vandenberg 4E Falcon-9R [NRO L-87]
03 18:13:20 KSC 39A Falcon-9R Starlink x 49
05 07:00:00 Plesieck 43/? Sojuz-2.1a/Fregat Kosmos 2553 [Neitron]
10 18:09:37 Kourou ELS Sojuz-STB/Fregat-MT OneWeb x 34
10 20:00 Canaveral 46 Rocket v3.3 BAMA-1, INCA, QubeSat, R5-S1
14 00:29 Sriharikota PSLV-XL RISAT-1A, INSPIREsat-1, INS-2TD
15 04:25:40 Bajkonur 31/6 Sojuz-2.1a Progress MS-19
19 17:40:07 Wallops 0A Antares-230+ Cygnus NG-17
21 14:44:20 Canaveral 40 Falcon-9R Starlink x 46
25 17:12:10 Vandenberg 4E Falcon-9R Starlink x 50
26 23:44 Jiuquan 43/94 CZ-4C Ludi Tance-1 01B
2? ??:?? Semnan Zoljanah ? ?
27 03:06 Wenchang 201 CZ-8/720H Hainan-1 01, Hainan-1 02, Wenchang-1 01,
Wenchang-1 02, Taijing-3 01, Taijing-4 01,
Xidian-1, Jilin-1 Mofeng-02A 01, Chaohu-1,
Jilin-1 Gaofen-03D 10 do 18, Tianqi 19,
Chuangxing Leishen, Dayun, Qimingxing-1
28 20:37:25 Onenui 1B Electron/Curie StriX-beta
MARZEC 2022
01 21:38 Canaveral 41 Atlas-5/541 GOES-T
03 14:25:00 KSC 39A Falcon-9R Starlink x 46
05 06:01 Xichang 3 CZ-2C Yinhe Hangtian-2 01-05,
Xuanming Xingyuan
08 05:06 Shahroud Qased Noor-2
09 13:45:10 Canaveral 40 Falcon-9R Starlink x 48
15 16:22 Kodiak 3B Rocket v3.3 OreSat0, SpaceBEE x 20
17 06:07 Jiuquan 43/95 CZ-4C Yaogan-34 02
18 15:55:18 Bajkonur 31/6 Sojuz-2.1a Sojuz MS-21
19 04:43:30 Canaveral 40 Falcon-9R Starlink x 53
22 12:48:23 Plesieck 43/? Sojuz-2.1b/Fregat-M Meridian-10
29 09:50 Taiyuan CZ-6A Tiankun-2, Pujiang-2
30 02:29 Jiuquan 43/95 CZ-11 Tianping-2 A, B, C
__________________________________________________________________________________________
-
Starty kosmiczne w 2022
Starty wg miesięcy
I 8 (Chiny 2, SpaceX 4, ULA 1, VO 1)
II 12+1 (20+1) (Chiny 2, SpaceX 4, NG 1, Astra 1, Rocket Lab 1, Rosja 2+1 Kourou, Indie 1)
III 12 (32+1) (Chiny 4, SpaceX 3, ULA 1, Astra 1, Rosja 2, Iran 1)
W skrócie: ilość startów
Chiny 8
USA/Nowa Zelandia (Rocket Lab) 17+1 (SpaceX 11, ULA 2, NG 1, Virgin Orbit 1, Rocket Lab 1, Astra 1+1, Firelly Aerospace 0)
Rosja 4+1 z Kourou
Europa (bez europejskich Sojuzów) 0
Japonia 0
Indie 1
Iran 1
Korea Południowa 0
__________________________________________________________________________________________
Statystyka wyniesionych satelitów/sond
I 215 (Chiny 2, SpaceX 204, ULA 2, VO 7)
II 218+4 (Chiny 23, SpaceX 146, NG 3, Astra 4, Rocket lab 1, Rosja 8+34 Kourou, Indie 3)
III 186+4 (Chiny 13, SpaceX 148, ULA 1, Astra 21, Rosja 2, Iran 1)
W skrócie: ilość wyniesionych satelitów/sond (w tym CubeSaty i PocketQubety):
Chiny 38
USA 533+4 :
SpaceX 498
ULA 3
NG 3
Virgin Orbit 7
Astra 21+4
Firelly Aerospace
Nowa Zelandia (Rocket Lab) 1
Rosja 10+34 Kourou
Europa (bez europejskich Sojuzów)
Japonia
Indie 3
Iran 1
Korea Południowa
Razem 619+ 4
CubeSaty i PocketQubety
I SpaceX 77C + 21P, VO 7C
II Astra 4C, NG 2C, Rosja 6C
III Astra 21, Iran 1
https://www.forum.kosmonauta.net/index.php?topic=4133.msg146649#msg146649