SpaceX CRS-29

SpaceX CRS-29
	CRS-29 firing its thrusters as it approaches the ISS
Names	SpX-30
Mission type	ISS resupply
Operator	SpaceX
COSPAR ID	2023-173A
SATCAT no.	58255
Mission duration	42 days, 16 hours, 5 minutes
Spacecraft properties
Spacecraft	Cargo Dragon C211
Spacecraft type	Cargo Dragon
Manufacturer	SpaceX
Dry mass	9,525 kg (20,999 lb)
Start of mission
Launch date	10 November 2023, 01:28 UTC (9 November, 8:28 pm EST)
Rocket	Falcon 9 Block 5 (B1081.2)
Launch site	Kennedy, LC‑39A
End of mission
Recovered by	MV Shannon
Landing date	22 December 2023, 17:33 UTC (12:33 pm EST)
Landing site	Gulf of Mexico, near Tallahassee, Florida
Orbital parameters
Reference system	Geocentric orbit
Regime	Low Earth orbit
Inclination	51.66°
Docking with ISS
Docking port	Harmony forward
Docking date	11 November 2023, 10:07 UTC
Undocking date	21 December 2023, 22:05 UTC
Time docked	40 days, 11 hours, 58 minutes
Cargo
Mass	2,950 kg (6,500 lb)
Pressurised	2,381 kg (5,249 lb)
Unpressurised	569 kg (1,254 lb)
	; Mission patch Commercial Resupply Services ← SpaceX CRS-28 NG-20 → Cargo Dragon flights ← SpaceX CRS-28 SpaceX CRS-30 →

SpaceX CRS-29, also known as SpX-29, is a Commercial Resupply Service mission to the International Space Station (ISS) launched on 10 November 2023.^[2] The mission was contracted by NASA and flown by SpaceX using Cargo Dragon C211. It was the ninth flight for SpaceX under NASA's CRS Phase 2.^[3]

Cargo Dragon

SpaceX plans to reuse the Cargo Dragons up to five times. The Cargo Dragon will launch without SuperDraco abort engines, without seats, cockpit controls and the life support system required to sustain astronauts in space.^[4]^[5] Dragon 2 improves on Dragon 1 in several ways, including lessened refurbishment time, leading to shorter periods between flights.^[6]

The new Cargo Dragon capsules under the NASA CRS Phase 2 contract will land east of Florida in the Atlantic Ocean.^[4]^[6]

Launch

NASA and SpaceX originally targeted a window no earlier than 03:01 UTC on Sunday, November 6, 2024, for the launch of the company's 29th commercial resupply services mission to the International Space Station. The date shift takes into account required time for teams to complete pad readiness after the agency's Psyche launch on SpaceX's Falcon Heavy rocket, which lifted off on October 13 from Launch Complex 39A at NASA's Kennedy Space Center.^[7] Falcon 9 and the Cargo Dragon spacecraft lifted off on 10 November 2023 at 01:28:14 UTC from Launch Complex 39A. The first stage separated at T+2:21, and Falcon 9 landed at Landing Zone 1 (LZ-1) at T+7:36. The second stage shut down at T+8:33, and the Dragon spacecraft separated from the second stage at T+11:46.

Manifest

The Cargo Dragon spacecraft was loaded with a total of 2,950 kilograms (6,500 lb) of cargo and supplies before its launch, including 2,381 kilograms (5,249 lb) of pressurized and 561 kilograms (1,237 lb) of unpressurized cargo.

The cargo manifest is broken down as follows:^[1]

Crew supplies: 681 kg (1,501 lb)
Science investigations: 1,012 kg (2,231 lb)
Spacewalk equipment: 48 kg (106 lb)
Vehicle hardware: 491 kg (1,082 lb)
Computer resources: 46 kg (101 lb)

Research

Various experiments were transported to the orbiting laboratory, providing valuable insights for researchers.

The research includes work to understand interactions between weather on Earth and space, and laser communications. NASA's Atmospheric Waves Experiment (AWE) will study atmospheric gravity waves –powerful waves formed by weather disturbances on Earth such as strong thunderstorms or brewing hurricanes – to understand the flow of energy through Earth's upper atmosphere and space. Another experiment – Integrated Laser Communications Relay Demonstration Low-Earth-Orbit User Modem and Amplifier Terminal – (ILLUMA-T) aims to test high data rate laser communications from the space station to Earth. This will complete NASA's first two-way, end-to-end laser relay system by sending high-resolution data to the agency's Laser Communications Relay Demonstration, which launched in December 2021.^[8]^[9] It will be tested for six months on ISS, before being placed into operational use.^[10]

Other investigations that will launch with the resupply mission include ESA's (European Space Agency) Aquamembrane-3, which will test water filtration using proteins found in nature for water recycling and recovery, and Plant Habitat-06, which will evaluate the effects of spaceflight on plant defense responses using multiple genotypes of tomato.^[8]

Redwire will be launching microgravity research payloads focused on pharmaceutical drug development and regenerative medicine, including an experiment in bioprinting cardiac tissue.^[11]

Gallery

SpaceX CRS-29

CRS-29 on the pad
Launch of CRS-29
Cargo Dragon approaching the ISS

References

^ ^a ^b "NASA's SpaceX CRS-29 Mission Overview". NASA. Retrieved 14 August 2024.
^ Garcia, Mark (6 March 2023). "Expanded Station Crew Works Together Before Quartet Departure". NASA. Retrieved 7 March 2023.
^ Reckart, Timothy (15 June 2022). "Microgravity Research Flights". NASA. Retrieved 24 July 2022.
^ ^a ^b Office of Inspector General (26 April 2018). Audit of Commercial Resupply Services to the International Space Center (PDF) (Report). Vol. IG-18-016. NASA. pp. 24, 28–30. Retrieved 4 April 2021. This article incorporates text from this source, which is in the public domain.
^ "Dragon 2 modifications to Carry Cargo for CRS-2 missions". Teslarati. Retrieved 4 April 2021.
^ ^a ^b Clark, Stephen (2 August 2019). "SpaceX to begin flights under new cargo resupply contract next year". Spaceflight Now. Retrieved 4 April 2021.
^ Garcia, Mark (17 October 2023). "Research, Robotics, and Spacesuits Top Schedule as Spacewalk Times Adjusted". blogs.nasa.gov. Retrieved 18 October 2023.
^ ^a ^b "NASA Invites Media to Upcoming SpaceX Resupply Launch to Space Station - NASA". Retrieved 17 October 2023.
^ Patrascu, Daniel (30 August 2023). "NASA to Fit Lasers on the Space Station, They're Not for Fighting Aliens". autoevolution. Retrieved 17 October 2023.
^ Vigliarolo, Brandon. "NASA readying hardware for gigabit upgrade to ISS internet". www.theregister.com. Retrieved 17 October 2023.
^ "Redwire BioFabrication Facility Successfully Prints First Human Knee Meniscus on ISS, Paving the Way for Advanced In-Space Bioprinting Capabilities to Benefit Human Health". Yahoo Finance. 7 September 2023. Retrieved 17 October 2023.

[Mission_Overview-1] "NASA's SpaceX CRS-29 Mission Overview". NASA. Retrieved 14 August 2024.

[nasa-20230306-2] Garcia, Mark (6 March 2023). "Expanded Station Crew Works Together Before Quartet Departure". NASA. Retrieved 7 March 2023.

[3] Reckart, Timothy (15 June 2022). "Microgravity Research Flights". NASA. Retrieved 24 July 2022.

[nasa-oig-18016-4] Office of Inspector General (26 April 2018). Audit of Commercial Resupply Services to the International Space Center (PDF) (Report). Vol. IG-18-016. NASA. pp. 24, 28–30. Retrieved 4 April 2021. This article incorporates text from this source, which is in the public domain.

[spacex-dragon2-5] "Dragon 2 modifications to Carry Cargo for CRS-2 missions". Teslarati. Retrieved 4 April 2021.

[sfn20190802-6] Clark, Stephen (2 August 2019). "SpaceX to begin flights under new cargo resupply contract next year". Spaceflight Now. Retrieved 4 April 2021.

[Garcia_2023-7] Garcia, Mark (17 October 2023). "Research, Robotics, and Spacesuits Top Schedule as Spacewalk Times Adjusted". blogs.nasa.gov. Retrieved 18 October 2023.

[NASA_Invite-8] "NASA Invites Media to Upcoming SpaceX Resupply Launch to Space Station - NASA". Retrieved 17 October 2023.

[9] Patrascu, Daniel (30 August 2023). "NASA to Fit Lasers on the Space Station, They're Not for Fighting Aliens". autoevolution. Retrieved 17 October 2023.

[10] Vigliarolo, Brandon. "NASA readying hardware for gigabit upgrade to ISS internet". www.theregister.com. Retrieved 17 October 2023.

[11] "Redwire BioFabrication Facility Successfully Prints First Human Knee Meniscus on ISS, Paving the Way for Advanced In-Space Bioprinting Capabilities to Benefit Human Health". Yahoo Finance. 7 September 2023. Retrieved 17 October 2023.

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v t e Uncrewed spaceflights to the International Space Station
See also: {{Crewed ISS flights}} {{ISS expeditions}}
2000–2004	2000 2R / Zvezda 1P 2P 3P 2001 4P 5P SO1 / Pirs 6P 2002 7P 8P 9P 2003 10P 11P 12P 2004 13P 14P 15P 16P
2005–2009	2005 17P 18P 19P 20P 2006 21P 22P 23P 2007 24P 25P 26P 27P 2008 28P ATV-1 29P 30P 31P 2009 32P 33P 34P HTV-1 35P MIM2 / Poisk
2010–2014	2010 36P 37P 38P 39P 40P 2011 HTV-2 41P ATV-2 42P 43P 44P† 45P 2012 46P ATV-3 47P SpX-D HTV-3 48P SpX-1 49P 2013 50P SpX-2 51P ATV-4 52P HTV-4 Orb-D1 53P 2014 Orb-1 54P 55P SpX-3 Orb-2 56P ATV-5 SpX-4 Orb-3† 57P
2015–2019	2015 SpX-5 58P SpX-6 59P† SpX-7† 60P HTV-5 61P OA-4 62P 2016 OA-6 63P SpX-8 64P SpX-9 OA-5 65P† HTV-6 2017 SpX-10 66P OA-7 SpX-11 67P SpX-12 68P OA-8E SpX-13 2018 69P SpX-14 OA-9E SpX-15 70P HTV-7 71P NG-10 SpX-16 2019 SpX-DM1 72P NG-11 SpX-17 SpX-18 73P 60S HTV-8 NG-12 SpX-19 74P Boe-OFT†
2020–2024	2020 NG-13 SpX-20 75P HTV-9 76P NG-14 SpX-21 2021 77P NG-15 SpX-22 78P Nauka NG-16 SpX-23 79P M-UM / Prichal SpX-24 2022 80P NG-17 Boe-OFT 2 81P SpX-25 82P NG-18 SpX-26 2023 83P SpX-27 84P SpX-28 NG-19 85P SpX-29 86P 2024 NG-20 87P SpX-30 88P NG-21
Future	2024 89P SpX-31 90P 2025 SpX-32 NG-22 SNC Demo-1 HTV-X1 SNC-1 2030 ISS Deorbit Vehicle
Spacecraft	Roscosmos Progress ESA ATV (past) JAXA HTV NASA CRS SpaceX Dragon 1 (past) SpaceX Dragon 2 Northrop Grumman Cygnus Sierra Nevada Dream Chaser (future) ISS Deorbit Vehicle
Ongoing spaceflights in underline Future spaceflights in italics † - mission failed to reach ISS

v t e ← 2022 Orbital launches in 2023 2024 →
January	ION SCV-007 & 008 (Astrocast × 4), Orbiter SN1† (Unicorn-2G†, Unicorn-2H†), Vigoride-5, ICEYE × 3, Lynk Tower 03, Lynk Tower 04, ÑuSat × 4, Flock 4y × 36, KSF3 × 4, Gama Alpha, Lemur-2 × 6, Milspace-2 1, MilSpace-2 2, Platform 2, SpaceBEE × 12, Shijian 23 AMAN†, CIRCE 1†, CIRCE 2†, ForgeStar-0†, Prometheus 2A†, Prometheus 2B†, STORK-6† OneWeb L16 (40 satellites) Apstar 6E Yaogan 37, Shiyan 22A, Shiyan 22B Jilin-1 Gaofen-03D 34, Jilin-1 Hongwai-01A × 2, Jilin-1 Mofang-02A × 3 LDPE-3A, USA-342 / CBAS-2 USA-343 / GPS III-06 Starlink G2-4 (51 satellites) Hawk × 3 IGS-Radar 7 Starlink G5-2 (56 satellites) Starlink G2-6 (49 satellites), ION SCV-009
February	Starlink G5-3 (53 satellites) Elektro-L №4 Amazonas Nexus Progress MS-22 Starlink G5-4 (55 satellites) Starlink G2-5 (51 satellites) Inmarsat-6 F2 ChinaSat 26 Soyuz MS-23 Starlink G6-1 (21 satellites)
March	SpaceX Crew-6 Starlink G2-7 (51 satellites) Nahid-1† ALOS-3† OneWeb L17 (40 satellites) Olymp-K №2 / Luch-5X SpaceX CRS-27 Shiyan 19 Capella 9, Capella 10 Gaofen 13-02 Starlink G2-8 (52 satellites) SES-18, SES-19 Kosmos 2567 / Bars-M 4L BlackSky 18, BlackSky 19 Starlink G5-5 (56 satellites) OneWeb L18 (36 satellites) Ofeq-13 Kosmos 2568 / EO MKA №4 Starlink G5-10 (56 satellites) PIESAT-1A 01, PIESAT-1B × 3 Yaogan 34-04
April	SDA Transport Layer Tranche 0 × 8, SDA Tracking Layer Tranche 0 × 2 Intelsat 40e / TEMPO JUICE ION SCV-010 (Kepler-20, Kepler-21), Vigoride-6, Hawk × 3, İMECE, ÑuSat × 4, Brokkr-1, DEWA SAT-2, LacunaSat-2F, Lemur-2 × 3, Sateliot_0 / Platform 3, TAIFA-1 Fengyun 3G Starlink G6-2 (21 satellites) Starlink G3-5 (46 satellites) O3b mPOWER 3, O3b mPOWER 4
May	ViaSat-3.1 Starlink G5-6 (56 satellites) TROPICS 05, TROPICS 06 Tianzhou 6 Starlink G2-9 (51 satellites) BeiDou-3 G4 Starlink G6-3 (22 satellites) Iridium 9 (5 satellites), OneWeb L19 (15 satellites), JoeySat Axiom Mission 2 Progress MS-23 TROPICS 03, TROPICS 07 Kondor-FKA №1 Arabsat 7B (BADR-8) NVS-01 Shenzhou 16 Malligyong-1† Starlink G2-10 (52 satellites)
June	Starlink G6-4 (22 satellites) SpaceX CRS-28 (Maya-5, Maya-6) Shiyan 24A, Shiyan 24B Starlink G5-11 (52 satellites) ION SCV-011 (Unicorn-2I), Orbiter SN3, Blackjack Aces × 4, ICEYE × 4, ÑuSat × 4, GEISAT, Lemur-2 × 3, MISR-A, MISR-B, SpaceBEE × 12, Tiger-4, XVI Jilin-1 Gaofen-03D × 8, Jilin-1 Gaofen-06A × 30, Jilin-1 Pingtai-02A × 2 SATRIA Shiyan 25 Starlink G5-7 (47 satellites) USA-345 / Orion 11 Starlink G5-12 (56 satellites) Meteor-M №2-3
July	Euclid Syracuse 4B Starlink G5-13 (48 satellites) Starlink G6-5 (22 satellites) Chandrayaan-3 (Vikram, Pragyan) Starlink G5-15 (54 satellites) Lemur-2 × 2 Starlink G6-15 (15 satellites) Starlink G6-6 (22 satellites) Yaogan 36-05 (3 satellites) Starlink G6-7 (22 satellites) Jupiter-3 / EchoStar-24
August	Cygnus NG-19 Fengyun 3F Galaxy-37 Starlink G6-8 (22 satellites) Kosmos 2569 / GLONASS-K2 13L Starlink G6-20 (15 satellites) S-SAR 02 / Huanjing-2F Luna 25 Starlink G6-9 (22 satellites) Starlink G6-10 (22 satellites) Gaofen 12-04 Starlink G7-1 (21 satellites) Progress MS-24 Malligyong-1 F2† Acadia 1 Jilin-1 Kuanfu-02A SpaceX Crew-7 Starlink G6-11 (22 satellites) Yaogan 39-01 (3 satellites)
September	Starlink G6-13 (22 satellites) Aditya-L1 SDA Transport Layer Tranche 0 × 11, SDA Tracking Layer Tranche 0 × 2 Starlink G6-12 (21 satellites) Yaogan 33-03 XRISM, SLIM (LEV-1, LEV-2) Starlink G6-14 (22 satellites) Yaogan 40 (3 satellites) USA-346 / Silentbarker 1, USA-347 / Silentbarker 2, USA-348 / Silentbarker 3 Starlink G7-2 (21 satellites) Soyuz MS-24 Starlink G6-16 (22 satellites) Yaogan 39-02 (3 satellites) Acadia 2† Starlink G6-17 (22 satellites) Jilin-1 Gaofen-04B† Starlink G6-18 (22 satellites) Starlink G7-3 (21 satellites) Yaogan 33-04 Starlink G6-19 (22 satellites)
October	Yaogan 39-03 (3 satellites) Starlink G6-21 (22 satellites) KuiperSat-1, KuiperSat-2 THEOS-2, MACSAT Starlink G7-4 (21 satellites) Psyche Starlink G6-22 (22 satellites) Starlink G6-23 (22 satellites) Starlink G7-5 (21 satellites) Starlink G6-24 (23 satellites) Yaogan 39-04 (3 satellites) Shenzhou 17 Kosmos 2570 / Lotos-S1 №7 (Kosmos 2571) Starlink G7-6 (22 satellites) Starlink G6-25 (23 satellites)
November	TJS-10 Starlink G6-26 (23 satellites) Starlink G6-27 (23 satellites) ChinaSat 6E SpaceX CRS-29 ION SCV-015 (Lemur-2 NANAZ, OSW Cazorla, Unicorn-2J, Unicorn-2K), Aether-1, Aether-2, FalconSAT-X, ICEYE × 4, Pelican-1, B1B2 Barry, Flock-4q × 36, Lemur-2 × 10, PEARL-1C, PEARL-1H, Platform 5, STORK-7 / Aman-1 O3b mPOWER 5, O3b mPOWER 6 Haiyang-3A Starlink G6-28 (23 satellites) Starlink G7-7 (22 satellites) Malligyong-1 F3 Starlink G6-29 (23 satellites) Kosmos 2572 / Razdan 1 Starlink G6-30 (23 satellites)
December	Progress MS-25 ION SCV-012 (Unicorn × 3), EIRSAT-1, Hayasat-1 Starlink G6-31 (23 satellites) Starlink G6-33 (23 satellites) Starlink G7-8 (22 satellites) Yaogan 39-05 (3 satellites) Reusable Experimental Spacecraft Yaogan 41 Starlink G6-34 (23 satellites) Kosmos 2573 / Bars-M 5L Starlink G6-32 (23 satellites) SARah-2, SARah-3 Shiyan 24C-01, Shiyan 24C-02, Shiyan 24C-03 BeiDou-3 M25, BeiDou-3 M26 Kosmos 2574 / Razbeg No.1 USA-349 / X-37B OTV-7 Starlink G6-36 (23 satellites)
Launches are separated by dots ( • ), payloads by commas ( , ), multiple names for the same satellite by slashes ( / ). Crewed flights are underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).