SpaceX is set to launch yet another batch of Starlink satellites to low-Earth orbit on its Starlink Group 4-35 mission. Launching from Space Launch Complex 40 (SLC-40), at the Cape Canaveral Space Force Station, in Florida, the Falcon 9 is scheduled to lift off at 7:32 PM EDT (23:32 UTC) on Sept. 24. This mission will mark SpaceX’s 43rd mission of 2022 and 15th mission in the year’s second half – a mission every 6.2 days and 5.7 days, respectively.
In the event of a delay, there is a backup launch opportunity just under 24 hours later on Sept. 25.
Citing concerns about the cumulus cloud rule and liftoff winds, the Space Launch Delta 45 issued a launch mission execution forecast on Sept. 23 giving the weather a 20% chance of violating launch weather constraints. Additionally, SLD 45 marks upper-level wind shear, booster recovery weather, and solar activity as low risk.
Starlink Group 4-35 will utilize the newest active booster in SpaceX’s Falcon 9 fleet: B1073. Having launched only three previous times, B1073 last flew on the Starlink Group 4-26 mission 46 days ago. The booster debuted on the Starlink Group 4-15 mission in May this year, then flew the SES-22 payload to Geostationary Transfer Orbit (GTO).
Following stage separation, B1073 will attempt to land on SpaceX’s autonomous spaceport drone ship (ASDS) A Shortfall Of Gravitas (ASOG), which was towed 645 km downrange by SpaceX’s combined tug boat, ASDS support ship, and fairing recovery vehicle Bob. Once the ASDS is in position, Bob will head to the fairing recovery site and recover both fairing halves ~45 minutes after launch.
Assuming a successful landing, this will mark SpaceX’s 69th consecutive landing, 143rd total booster landing, and 22nd landing on ASOG.
Inside Falcon 9’s 5.2-meter diameter payload fairing are 52 Starlink v1.5 satellites – two fewer satellites than have been on the last two dedicated Starlink missions from the East coast. The satellites will be deployed from the second stage just over 15 minutes after launch at 23:47:43.500 into a 337 x 232 km low-Earth orbit at 53.22 degrees. The satellites will then spend the coming months raising their orbits to their operational 540 km circular orbit at 53.2 degrees, which is the fourth shell of Starlink v1.
Starlink Group 4-35 will boost the total number of Starlink satellites launched to 3,399. Of the current satellites in orbit, 3,029 are working and 2,497 are operational (via Jonathan McDowell).
Each Starlink satellite has a compact flat-panel design allowing for Falcon 9’s maximum performance to be taken advantage of; each satellite masses ~305 kg, resulting in a total payload mass of ~16,000 kg for the Starlink Group 4-35 mission. Each Starlink satellite is equipped with an inter-satellite laser communication system, which allows SpaceX to provide coverage to areas where ground stations are not available, such as Antarctica. Additionally, SpaceX has been testing Starlink service on aircraft, where they have demonstrated 100 Mb/s speeds during flight. SpaceX CEO Elon Musk noted on Twitter that with additional improvements they expect these speeds to increase to 300 Mb/s.
NSF-supported USAP scientists in #Antarctica are over the moon! Starlink is testing polar service with a newly deployed user terminal at McMurdo Station, increasing bandwidth and connectivity for science support. pic.twitter.com/c3kLGk8XBV
— National Science Foundation (@NSF) September 14, 2022
Falcon 9’s now-routine launch sequence starts at T-38 minutes when the launch director will verify that all teams are “go” for propellant loading. Assuming all systems are ready to support the launch, the launch director will give his go, allowing for fueling to start at T-35 minutes. At this time, the ground service equipment (GSE) will begin loading RP-1 onto both the first and second stages and super chilled liquid oxygen (LOX) onto the first stage.
The second stage will be fully fueled with sub-chilled RP-1 at T-20 minutes when the Transporter/Erector (T/E) will be purged for four minutes to prepare the second stage for LOX filling, resulting in the iconic T-20 minute vent from the T/E.
At T-seven minutes, the first stage will flow a small amount of LOX through the turbo pump of the first stage Merlin 1D engines. This cools the engines down ahead of full propellant flow at engine ignition – a process that is extremely important, as a warm engine could flash liquid oxygen into a gas at ignition, which would lead to cavitation of the turbine, significantly weakening, if not breaking, the metal.
Three seconds before liftoff, the Falcon 9 will command ignition of all nine first stage engines. These engines will ignite in pairs ~100 ms apart to reduce transients on the vehicle. This is done using TEA-TEB, a pyrophoric mixture (igniting when it comes in contact with oxygen) which results in the classic green flash at Falcon 9 ignition. By T-0.2 seconds, all nine engines will be at full power. The vehicle will then check the health of all nine engines and systems; if the vehicle is healthy, it will command for the ground hold-down clamps to be released at T0.
The first stage will then burn for approximately two and a half minutes before shutting down. Similar to ignition, engine shutdown is done in pairs to reduce stresses on the vehicle. The stages will then separate, allowing for the second stage’s single MVacD engine to ignite. Also at this time, the first stage will perform a flip, preparing for reentry.
The first stage will then complete an entry burn and a landing burn, aiming to softly land on ASOG. During this time, the second stage will fire for just under six minutes.
At this point, the second stage will begin rotating end-over-end before deploying the Starlink tension rods at T+15 minutes and 33.5 seconds. This will allow the Starlink satellites to slowly float away, spreading out due to small differences in linear velocity. The second stage will then perform a deorbit burn.
SpaceX is expected to launch one more mission in September: Starlink Group 4-36. In October, SpaceX will launch the Crew-5 mission to the International Space Station, as well as several planned customer payload missions.
(Lead image: Falcon 9 B1073 at SLC-40 before the launch of SES-22 in June 2022. Credit: Stephen Marr for NSF)
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