SpaceX, NASA to launch CRS-23 mission to ISS early Saturday morning
Date:
Fri, 27 Aug 2021 23:16:28 +0000
Description:
SpaceX and NASA are gearing up for the launch of the CRS-23 (Commercial Resupply Services The post SpaceX, NASA to launch CRS-23 mission to ISS early Saturday morning appeared first on NASASpaceFlight.com .
FULL STORY ======================================================================
SpaceX and NASA are gearing up for the launch of the CRS-23 (Commercial Resupply Services 23) mission to the International Space Station on a Falcon
9 rocket from the Kennedy Space Center.
Liftoff is scheduled for 03:37:22 EDT (07:37:22 UTC) on Saturday, August 28, 2021, from LC-39A. A backup launch opportunity is available on Sunday, August 29, 2021, at 03:14:48 EDT (07:14:48 UTC).
CRS-23 marks the third SpaceX CRS mission under the CRS2 contract, and the third time a Cargo Dragon 2 spacecraft will be used for a CRS mission.
The 45th Weather Squadron at Space Launch Delta 45 currently predicts a 40% chance of favorable weather for Saturday mornings launch. Primary weather concerns are the cumulus cloud rule and flight through precipitation.
CRS-23 will use the C208-2 Cargo Dragon 2 spacecraft from SpaceX. C208-2 was the first Cargo Dragon 2 to dock to the ISS on the CRS-21 mission in 2020. A second Cargo Dragon 2 spacecraft, C209-2, is currently undergoing refurbishment following its first mission, CRS-22, in June 2021 .
A third Cargo Dragon 2 is under construction.
The Falcon 9 booster for this mission is B1061-4, making its fourth flight. B1061-4s prior missions include: NASA/ SpaceX Crew-1 in November 2020, NASA/SpaceX Crew-2 in April 2021 , and SXM-8 in June 2021 . CRS-23 will mark B1061-4s second-fastest turnaround between flights at 83 days. Its fastest turnaround was 44 days from Crew-2 to SXM-8.
CRS-23 will also be the first launch from Florida since June 30 when SpaceXs Transporter-2 mission launched on a Falcon 9 from SLC-40. In 2021, the Cape has seen 21 launches before CRS-23, 20 of those being Falcon 9s with 13 of those 20 being Starlink missions .
The hiatus since June is largely due to SpaceX switching their Starlink satellites to V1.5, including new features and improvements such as laser interlinks. Additionally, many customer payloads that would be launched on non-Starlink missions are currently not ready.
Falcon 9 and Dragon rolled out horizontally at LC-39A on August 24 and were raised vertical on the pad a few hours later. A static fire was completed on August 25 ahead of the launch.
The Crew Access Arm was then extended toward Dragon C208-2s side hatch to allow easy access to the capsule for loading time-sensitive science experiments and perishable food items in the final hours leading to launch.
Liftoff
At T-38 minutes in the countdown, the SpaceX Launch Director will verify
that Falcon 9 is go for propellant loading. RP-1 kerosene and densified
liquid oxygen will begin flowing into the first stage while RP-1 kerosene flows into the second stage starting at T-35 minutes. Loaded with science and supplies for the folks living on ISS, Cargo Dragon is ready to deliver!
One experiment I think is rad is one by the @girlscouts to see how ants might build tunnels in space. An ant farm. In space!
7:37am UTC 40% GO B1061-4 C208-2 pic.twitter.com/bph5pouY5w
Stephen Marr (@spacecoast_stve) August 27, 2021
RP-1 kerosene load to the second stage will end at T-22 minutes, followed by the standard T-20 minute purge/vent from the Transporter Erector. At T-16 minutes, densified liquid oxygen will begin flowing into the second stage.
At T-45 seconds, the SpaceX Launch Director will verify that CRS-23 is go
for launch. Falcon 9 will ignite all nine first-stage Merlin engines at T-3 seconds with Falcon 9 lifting off at T0 .
The launch window is instantaneous. Therefore, there is no opportunity to hold should an issue arise.
Approximately 1 minute 15 seconds into the flight, Falcon 9 and Dragon will experience maximum aerodynamic pressure (Max Q), when the aerodynamic loads
on the vehicle are at their greatest during ascent.
At T+2 minutes 27 seconds, main engine cutoff (MECO) on the first stage will occur, and the Falcon 9 will separate its two stages three seconds later. The second stage vacuum engine, M-Vac, will ignite at T+2 minutes 38 seconds. Falcon 9 booster B1061-4 stands tall on Just Read The Instructions after launching the SXM-8 mission via Julia Bergeron for NSF.
Following stage separation, first stage B1061-4 will begin recovery operations by performing a partial boostback burn to help reduce the stress
on itself during reentry. This has the added effect of allowing the booster
to land closer to the launch site, permitting faster recovery.
See Also CRS-23 Updates SpaceX Missions Section L2 SpaceX Section Click here to Join L2
After completing the boostback and entry burns, B1061-4 will aim to land on SpaceXs new autonomous spaceport drone ship (ASDS) A Shortfall of Gravitas at T+7 minutes 38 seconds.
The landing will be the first for the new drone ship, which arrived at the Cape on July 15 .
While enough propellant will remain for a partial boostback burn, there will not be enough margin for a Return To Launch Site landing.
As soon as B1061-4 touches down on A Shortfall of Gravitas, it will receive the designation B1061-5.
A Shortfall of Gravitas sports new design features and improvements from
ASDS vessels Of Course I Still Love You and Just Read The Instructions, such as being fully automated.
While the first stage is performing landing operations, the second stage
will continue on to orbit. Following orbit insertion at T+8 minutes 34 seconds, Dragon will separate at T+11 minutes 45 seconds to continue its journey to the ISS.
Over the following 31.5 hours in orbit, Dragon will slowly phase its way up to the ISS. Once near the station, Dragon will perform several required approach maneuvers, culminating with docking at the IDA-2 forward-facing docking port on the Harmony module on Sunday, August 29, 2021, at 11:00 EDT (15:00 UTC).
Expedition 65 and Crew-2 astronauts Thomas Pesquet and Megan McArthur will monitor docking operations.
Once docked, Dragon C208-2 will stay at the station for approximately one month, with splashdown currently expected in late September or early October. Upon its return, the capsule will bring back several experiments for further testing, analysis, and use on Earth.
What is Dragon carrying?
In addition to crew supplies and station equipment, CRS-23 is carrying a multitude of engineering and scientific experiments to the ISS.
Some of the experiments include: GITAI S1 Robotic Arm Tech Demo
Ultra-Compact Spectral Imager ExoLab-9 Faraday Research Facility experiments Making Space For Girls Challenge, three experiments Remote Controlled Nanochannel Implant for Tunable Drug Delivery Space Durability of 3D Printed Frontal Polymerization Nanocomposites Student Spaceflights Experiments
Program Mission 15 READI FP MISSE-15 NASA APEX-08 Retinal Diagnostics
The GITAI S1 Robotic Arm Tech Demo will test GITAI Japan Inc.s microgravity robot by placing the arm inside the newly added Bishop Airlock, which was carried to the station by Dragon C208-2 during the CRS-21 mission last year. Once inside the airlock, the arm will perform numerous tests to demonstrate its versatility and dexterity.
The Ultra-Compact Spectral Imager is expected to validate the calibration of an ultra-compact spectral imager in space to obtain hyperspectral imaging of Earth in the visible spectrum.
The ExoLab-9 experiment will study how the stress of spaceflight affects the symbiotic relationship of red clover and nitrogen-fixing Rhizobia bacteria while the Faraday Research Facility will assist several experiments that utilize the ISS EXPRESS Racks and will demonstrate ways of providing an autonomous research facility in low Earth orbit. #Research heading to the @Space_Station has potential for #telemedicine on Earth, where it could help patients who lack easy access to medical clinics, and for future astronauts
on long-term space exploration missions. Check out all the details here:
https://t.co/Z9BEfLY7qY pic.twitter.com/stpAOPRHNx
ISS National Lab (@ISS_CASIS) August 27, 2021
The Remote Controlled Nanochannel Implant for Tunable Drug Delivery project will test a drug delivery implant that will remotely release specific amounts of medication into the body. This project, which cannot be tested on the ground, will help develop a nanochannel implant for drug delivery that could greatly improve medical treatment on Earth.
The Student Spaceflights Experiments Program Mission 15 features six separate experiments developed by students in the United States. Four of the experiments will evaluate germination techniques in space, one will focus on tardigrade adaptation to spaceflight, and the final one on aluminum corrosion in space.
Meanwhile, the Making Space for Girls challenge provides young American
women the opportunity to send their research to the ISS.
The READI FP experiment will evaluate the growth of bone tissue in microgravity and what effects microgravity and radiation have on its growth. The experiment will also test whether bioactive metabolites will protect
bones during spaceflight.
Lastly, the Retinal Diagnostics experiment will test whether a small instrument can capture images of an astronauts retinas. Images from this instrument will help document the progression of vision problems,
particularly Space-Associated Neuro-Ocular Syndrome (SANS), while in space.
(Lead image: Falcon 9 B1061-4 stands atop LC-39A with Cargo Dragon C208-2 ahead of launch. Credit: Stephen Marr)
The post SpaceX, NASA to launch CRS-23 mission to ISS early Saturday morning appeared first on NASASpaceFlight.com .
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Link to news story:
https://www.nasaspaceflight.com/2021/08/crs-23-launch/
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