Subj : SpaceX to set new booster reuse record on Starlink mission
To   : All
From : NasaSpaceFlight
Date : Sat Mar 19 2022 01:00:04

SpaceX to set new booster reuse record on Starlink mission

Date:
Sat, 19 Mar 2022 00:47:06 +0000

Description:
SpaceX is ready for the launch of the Starlink Group 4-12 mission, with a 
Falcon The post SpaceX to set new booster reuse record on Starlink mission 
appeared first on NASASpaceFlight.com .

FULL STORY
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SpaceX is ready for the launch of the Starlink Group 4-12 mission, with a 
Falcon 9 rocket due to loft another 53 satellites into Low Earth Orbit. 
Liftoff is currently targeted for 11:23 PM EDT Friday (03:23 UTC on Saturday) 
from Space Launch Complex 40 (SLC-40) at the Cape Canaveral Space Force 
Station in Florida. 

Fridays mission will mark the first time a Falcon 9 booster has flown for the 
twelfth time and will bring the total number of Starlink satellites launched 
to over 2,300. 

 

Fridays launch marks a return to the northeasterly trajectory that SpaceX 
used for the initial Starlink Shell 4 launches. Since Starlink Group 4-5 in 
January , SpaceX had instead been using a southeasterly trajectory with a 
dogleg around the Bahamas. This was implemented to avoid unfavorable recovery 
weather in the North Atlantic Ocean during the winter months. With spring 
coming, SpaceX is now returning to launching Starlink missions to the 
northeast. 

Weather is currently 70% go on both the primary and backup launch 
opportunities, as published by the Space Launch Delta 45 Space Weather 
Squadron on their latest launch weather forecast. The main concern for both 
primary and backup days is cumulus clouds. Booster recovery weather could 
also be of concern should the launch be delayed to the backup date, with a 
booster recovery weather risk criteria cited as low to moderate. 

In preparation for Fridays launch, Falcon 9 was rolled out to SLC-40 in the 
early morning hours before being raised to the vertical position. With the 
rocket vertical, launch pad teams began the task of getting everything ready 
for countdown operations, with pad evacuation expected to occur as late as 
T-4 hours. The launch will be controlled from SpaceXs Launch and Landing 
Control Center at CCSFS. 

 

System checkouts, weather monitoring, and low-pressure helium loading will 
proceed until T-40 minutes when a telematic go/no-go poll is conducted to 
proceed with the fueling of the rocket. The launch director will announce the 
result of the poll a few minutes later. At T-35 minutes, the automated launch 
countdown sequence will begin and the loading of RP-1 highly refined kerosene 
propellant on both stages will commence. At the same time, the loading of 
supercooled liquid oxygen (LOX) will begin on the first stage of the rocket. 
See Also Starlink 4-12 Updates SpaceX Missions Section L2 SpaceX Section 
Click here to Join L2 

At T-20 minutes the second stage RP-1 load will be completed and the 
umbilical lines connecting to the stage to the strongback the white tower 
structure that moves the rocket to vertical position  will be purged ahead of 
LOX load on the second stage which will begin at T-16 minutes. 

Engine chill on the 9 Merlin-1D engines of the first stage will come up at 
T-7 minutes with a small amount of liquid oxygen flowing into the pumps. This 
is done to avoid LOX being rapidly vaporized as it enters the pumps at engine 
ignition. At T-5 minutes, with the first stage RP-1 load complete, the tanks 
will start pressurizing ahead of strongback retraction which will occur one 
minute later. 

At T-1 minute the rocket enters startup, when the onboard computers take over 
control of the countdown sequence. Seconds later the launch director gives a 
final Go for launch and the rockets tanks will be pressurized to flight 
levels. Falcon 9 at SLC-40 on a previous Starlink mission (Credit: Stephen 
Marr for NSF) 

The ignition sequence for Falcons nine Merlin-1D first-stage engines will 
begin at T-4 seconds, with the engines reaching full thrust just 2.5 seconds 
later. After a quick hold down on the pad for half a second to check engine 
health, the ground system hold-downs will release the rocket and liftoff will 
occur. 

Falcon 9 will perform its usual pitch, yaw, and roll maneuver to align itself 
with the desired trajectory for Fridays north-easterly ascent. About 40 
seconds into flight the main engines will throttle down in preparation for 
Max-Q, the point of maximum aerodynamic pressure. About one minute into the 
flight the rocket will reach Mach 1, the speed of sound, followed closely by 
Max-Q. 

Once past the Max-Q point, the main engines will throttle up and the rocket 
will continue arching towards the north-east over the Atlantic Ocean. At 
around T+1 minute and 45 seconds, the second stages Merlin Vacuum (MVac) 
engine will enter its chilldown procedure ahead of its own startup. 

The first stage engines will shut down at around 2 minutes and 35 seconds 
into the flight, with three pneumatic actuators on the perimeter of the 
interstage and a central pusher engaging to separate the two stages of the 
rocket. MVac ignition will occur at around 2 minutes and 45 seconds into the 
flight, and the payload fairing will separate about 20 seconds later. Falcon 
9 booster 1051 on a previous mission (Credit: Thomas Burghardt for NSF) 

Falcon 9s payload fairing is reusable, and after separating the two fairing 
halves from Fridays mission will re-enter and parachute down to the Atlantic 
Ocean. They will be recovered by SpaceX multi-purpose recovery vessel Doug 
for reuse on a later mission. 

After stage separation, the booster will also execute its now-usual reentry 
and landing burns approximately six and eight minutes into the launch 
respectively. The booster is set to land on SpaceXs Autonomous Spaceport 
Drone Ship (ASDS) Just Read The Instructions which will be located about 
640km northeast of the launch site in the Atlantic. 

At eight minutes and 20 seconds mission elapsed time, the second stage will 
shut down its engine and the mission will enter a coast phase. This will last 
about fifty minutes before the MVac engine ignites for a short second burn to 
circularize the orbit. For Fridays mission, the target orbit is 304 by 317 
kilometers, with an inclination of at 53.22 degrees. 

With the circularization burn complete, the second stage will initiate an 
end-over-end rotation maneuver ahead of deployment of the 53 Starlink 
satellites. That deployment will occur about 1 hour and 3 minutes after 
liftoff. The second stage will end its mission by executing a deorbit burn, 
placing it on track to burn up as it re-enters the atmosphere over the Indian 
Ocean. Rendering of Starlink satellites deploying from the second stage. 
(Credit: Mack Crawford for NSF) 

Following separation from the Falcon 9, the Starlink satellites will execute 
a series of orbit-raising maneuvers and checkouts before being raised into 
their operational orbit and entering service. SpaceX performs this screening 
process at lower altitudes to allow atmospheric drag to bring down any failed 
satellites within a few months. 

Another Falcon 9 from SLC-40 is expected to come right on the heels of 
Fridays mission, as SpaceX plans to launch the Transporter-4 mission on April 
1st. SpaceX is also getting ready for their next Crew Dragon launch , 
currently targeted for launch on April 3rd with Crew Dragon Endeavour to 
carry four astronauts on a one-week mission to the ISS and back. 

 B1051 reaches twelfth flight milestone 

Fridays mission will mark the first time SpaceX uses the same Falcon 9 
booster for a twelfth flight. Booster B1051 first flew on the Crew Dragon 
Demo-1 mission in March 2019, and since then it has performed another 10 
missions including the Radarsat Constellation Mission (RCM), SXM-7, and eight 
Starlink missions. Flight No. Launch Date (UTC) Launch Pad Mission Landed on 
Turnaround time 1 2019-03-02, 07:49 LC-39A Demo-1 OCISLY  2 2019-06-12, 14:17 
SLC-4E RCM LZ-4 102d 6h 28min 3 2020-01-29, 14:06 SLC-40 Starlink v1.0 L3 
OCISLY 230d 23h 49min 4 2020-04-22, 19:30 LC-39A Starlink v1.0 L6 OCISLY 84d 
5h 24min 5 2020-08-07, 05:12 LC-39A Starlink v1.0 L9 OCISLY 106d 9h 42min 6 
2020-10-18, 12:25 LC-39A Starlink v1.0 L13 OCISLY 72d 7h 13min 7 2020-12-13, 
17:30 SLC-40 SXM-7 JRTI 56d 5h 5min 8 2021-01-20, 13:02 LC-39A Starlink v1.0 
L16 JRTI 37d 19h 32min 9 2021-03-14, 10:01 LC-39A Starlink v1.0 L21 OCISLY 
52d 20h 59min 10 2021-05-09, 06:42 SLC-40 Starlink v1.0 L27 JRTI 55d 20h 
41min 11 2021-12-18, 12:41 SLC-4E Starlink Group 4-4 OCISLY 223d 5h 59min 

The current fleet of operational Falcon 9 boosters has twelve active 
boosters, although B1049, B1053, B1069, and B1071 are being reserved for 
future flights and arent currently in the regular rotation of flights. 

B1051 became SpaceXs Falcon fleet life leader after passing B1049 with its 
eighth flight back in January 2021. Although newer boosters like B1058 and 
B1060 have since taken the lead in the fastest time to get to their tenth and 
eleventh flights, B1051 will be remembered as the first to push the envelope 
in reaching these milestones. Graph showing the flight history of the current 
active Block 5 boosters 

B1049 is expected to be expended on its next flight with recent sightings of 
the booster showing that all of its recovery equipment has been removed. This 
booster is expected to be used for the second O3b mPOWER mission, currently 
scheduled for launch in the summer. Expending the booster will allow Falcon 9 
rocket to put the customers satellites closer to their final orbit, allowing 
them to enter operations faster and with the use of less of their own 
propellant. 

B1053 is being refurbished for flight as a Falcon Heavy side booster and is 
slated to fly as the port-side booster on the Viasat-3 Americas mission, 
currently scheduled for launch in the late summer. 

 B1069 made its first flight in December but was damaged during its return to 
port after a successful landing aboard the drone ship. It is understood to be 
undergoing refurbishment that will allow it to be re-used on future missions 
beginning in the summer. 

B1071 is currently at the SpaceX facility on the West Coast at Vandenberg 
Space Force Base, where it is being readied for launch with the NROL-85 
mission for the National Reconnaissance Office, currently expected to lift 
off no earlier than April 15. 

While Elon Musk had previously indicated that Falcon 9 boosters would need to 
undergo major refurbishment following ten flights, so far the turnarounds for 
boosters that have passed this milestone have not indicated that they have 
been taken out of service for this work. Instead, boosters with high numbers 
of flights have often faster turnaround times than newer boosters. Graph 
showing days taken to turn around Block 5 boosters between launches 

One of the many reasons why this is the case is because boosters with a 
higher number of flights fly on SpaceXs own internal missions which have a 
higher cadence and can allow some extra risk to be involved. On the other 
hand, boosters on a lower number of flights are often reserved for customer 
missions which may result in more time waiting in the hangar while otherwise 
ready to fly. 

Newer boosters are coming up for the fleet as SpaceX plans to launch up to 
five Falcon Heavy rockets this year while also introducing new Falcon 9 
boosters to renew the fleet with fresh new hardware. SpaceX has already 
produced, tested, and shipped three Falcon Heavy center cores: B1066, B1068, 
and B1070; and has built and tested four new side boosters: B1064, B1065, 
B1072, and B1073. The latter is currently vertical at SpaceXs McGregor 
testing facility undergoing the standard post-production testing before being 
transported to the launch site. 

 Starlink constellation adds 53 more satellites, passing 2,300 launched into 
orbit 

The Starlink Group 4-12 launch will put 53 more Starlink satellites into 
orbit, bringing the total launched by SpaceX up to 2,335. Of these, 223 are 
no longer in service, having either failed after deployment, been deorbited 
before reaching their operational orbit, or disposed of some time after 
reaching operational status. 

Of the 2,112 satellites remaining in orbit, only 1,579 Starlink spacecraft 
are currently in their operational orbits, most of them being in shell number 
1 while the satellites being launched on Fridays mission are part of shell 
number 4. 

 The constellation will consist of five shells , with different orbital 
planes containing differing numbers of satellites. Shell #1 Shell #2 Shell #3 
Shell #4 Shell #5 Orbit 550km at 53.0 570km at 70.0 560km at 97.6 540km at 
53.2 560km at 97.6 Planes 72 36 6 72 4 Satellites per plane 22 20 58 22 43 
Satellites launched 1665 51 0 544 0 Satellites operational 1467 22 0 90 0 
Total satellites 1584 720 348 1584 172 

(Active satellite data from Jonathan McDowell ) 

Satellites bound for the first shell were launched between May 2019 and June 
2021 and, except for the very first one which was called Starlink v0.9, they 
were all named as Starlink v1.0 with a launch number per official 
documentation by the US Space Force, Coast Guard, and the Federal Aviation 
Administration (FAA). These satellites relied only on ground stations to 
relay signals between spacecraft. 

Beginning with Starlink Group 2-1 in September 2021, all Starlink launches 
have featured satellites with inter-satellite laser communication links. The 
laser links allow the satellites to transmit signals directly between each 
other through optical laser communications instead of having to rely on 
ground stations. These satellites have informally been referred to by Elon as 
Starlink v1.5 satellites since they are more advanced than the original 
satellites launched to shell 1. 

Beginning with this mission, SpaceX also changed the launch nomenclature to 
include the shell number and the number of the launch within that shell. 
Starlink 4-12 is the twelfth mission dedicated to deploying satellites into 
shell number 4. 

 SpaceX has plans for a second-generation Starlink constellation, Gen2, which 
will be launched on Starship and will have almost 30,000 satellites. The 
Federal Communications Commission (FCC) has not yet approved this plan. The 
company also has permission to launch and deploy over 7,000 satellites with 
V-band capability, however, no steps have yet been seen in this direction and 
it is likely that SpaceX has abandoned these plans altogether. 

 (Lead image: Falcon 9 at SLC-40 ahead of a previous Starlink mission  
credit: Stephen Marr for NSF) 

The post SpaceX to set new booster reuse record on Starlink mission appeared 
first on NASASpaceFlight.com .



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Link to news story:
https://www.nasaspaceflight.com/2022/03/spacex-booster-reuse-record-starlink/


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