SpaceX - Hotbird 13F

  SpaceX Falcon 9 Block 5 - Hotbird 13F - Launching October 15, 2022

Screenshot from SpaceX Webcast of the launch of Hotbird 13F

Mission Rundown: SpaceX Falcon 9 B5 - Hotbird 13F

Written: October 12, 2022

Lift Off Time	October 15, 2022 - 05:22:00 UTC - 01:22:00 EDT
Mission Name	Hotbird 13F
Launch Provider	SpaceX
Customer	Eutelsat, Airbus Space and Defense
Rocket	Falcon 9 Block 5 serial number B1069-3
Launch Location	Space Launch Complex 40 - SLC-40 Cape Canaveral Space Force Station, Florida
Payload	Eurostar Neo communication satellite
Payload mass	4 500 kg ~ 9 900 pounds
Where did the satellite go?	Geostationary Transfer Orbit 397 km - 56 040 km x 26,87°
Will they be attempting to recover the first stage?	JRTI were towed east by Doug
Where will the first stage land?	Just Read The Instructions waits 663 km downrange
Will they be attempting to recover the fairings?	Yes - Recovery ship Doug is 781 km downrange
Are these fairings new?	Yes - New pair Type 3.2 with 4x2 venting ports, thermal steel tip, lowered protrusion and acoustic tiles
This will be the:	– 181st flight of all Falcon 9 rockets – 119th re-flight of all Falcon 9 boosters – 125th flight of Falcon 9 Block 5 rocket – 105th re-flight of Falcon 9 Block 5 booster – 99th SpaceX launch from SLC-40 – 146th booster landing overall – 47th mission for SpaceX in 2022
Where to watch Where to read more	SpaceX YouTube link Want to know more link ask Tim Dodd

Launch debriefing (This is what happens) Horizontal velocity by 1st stage is usually 7000 km/t after MECO 2nd stage went into a 400 km parking orbit Jumps in telemetry is acquisition/loss of signal from the rocket It can also mean that signal is lost or frozen as demonstrated by 1st stage after entry burn

T-00:11:08 Host: T 00:00:00 T+00:01:13 T+00:02:34 T+00:02:43 T+00:03:28 T+00:04:30 T+00:06:31 T+00:08:11 T+00:08:21 T+00:28:38 T+00:29:14 - T+00:36:15 T+00:36:40

SpaceX live feed at 03:47 Kate Tice all alone in Hawthorne Mezzanine Studio Liftoff at 14:55 - 05:22:00 UTC on the dot MaxQ at 16:08 MECO 17:29, stage separation 17:33 SES-1 at 17:39 - Green TEA-TAB ignition Fairing separation at 18:23 - Acoustic tiles visible 1st stage apogee at 19:25 - 7 302 km/h at 123 km Reentry burn 21:27 by 3 Merlin 1D# for 30 seconds SECO at 23:07 and coasting in a elliptical orbit Landing burn 23:16 by 1 Merlin 1D# - for 26 seconds SpaceX resumes live feed at 43:34 SES-2 and SECO-2 in 60 seconds at 44:09 gave a velocity boost from 26 096 km/h to 35 244 km/h Hotbird 13F deployment shown at 51:10 Wrap up from SpaceX at 51:35

Starlink 4-35	Crew-5	Starlink 4-29	Galaxy 33-34	Hotbird 13F
Starlink 4-36	Starlink 4-31	FH4 USSF-44	Hotbird 13G	Galaxy 31-32

Dancing in the Moonlight

SpaceX will be launching the Hotbird 13F satellite on their 47th mission of the year. The 4,500 kg (99,000 lb) satellite will launch atop a Falcon 9 rocket from Space Launch Complex 40 (SLC-40), Cape Canaveral Space Force Station in Florida, USA.

Hotbird 13F was built by Airbus Defense and Space for joint operation by the European Space Agency and Eutelsat.

Hotbird 13F will launch at the very end of the launch window on Saturday, October 15, 2022 at 01:22:00 EDT, from SLC-40. Hotbird 13F first stage booster B1069-3 will land on ‘JRTI’ - Just Read The Instructions almost nine minutes after liftoff.

After boosting the second stage along with its payload towards orbit, the first stage will freefall in a parabolic curve before it performs a 30 second re-entry burn meant to slow the vehicle down before the atmospheric reentry. The booster will then perform a 27 second landing burn and softly land aboard SpaceX’s autonomous spaceport drone ship.

SpaceX will also recover both fairing halves in the Atlantic Ocean with the recovery vessel Doug, named after Demo-2 Astronaut Doug Hurley.

B1069-3 will have made its third flight after launching the following mission:

CRS-24	December 21, 2021	Hotbird 13F	October 14, 2022
Starlink Grp 4-23	April 29, 2022

B1069-3 didn’t perform a static fire test after refurbishment while waiting for a west coast launch out of Vandenberg. SpaceX has since Starlink L08 omitted this safety precaution many times so far. It isn’t required to perform a static fire test on inhouse missions like Starlink as to save time.

SpaceX is the first entity ever that recovers and reflies its fairings. After being jettisoned, the two fairing halves will use cold gas thrusters to orientate themselves as they descend through the atmosphere. Once at a lower altitude, they will deploy drogue chutes and later a parafoil to help them glide down to a soft landing for recovery.

Falcon fairings halfs have been recovered and reused since 2019. Improved design changes and overall refurbishment procedures have decreased the effects of water landings and led to an increased recovery rate of fairings.

The fairings are an old pair both flying on their fourth mission with no known joint mission. Both fairings are expected to survive the landing. Active fairings are equipped with four pushrods to separate the two fairing halfs.

Fairings have evenly spaced venting ports that have been redesigned a number of times by having first ten, then eight and now having their venting ports built as close pairs along the fairing edge. This prevents saltwater from the ocean from flooding and sinking the fairing, and makes refurbishment toward the next flight easier.

The Payload

Eutelsat Hotbird 13F – is one of an identical pair developed by satellite manufacturer Airbus for satellite operator Eutelsat in an ESA Partnership Project designed to foster innovation and competitiveness in the European space industry. The other Eutelsat Hotbird 13G is scheduled to be launched no later than November 2022.

Once launched into geostationary orbit some 36 000 km above Earth, the twin satellites will reinforce and enhance the broadcast of more than a thousand television channels into homes across Europe, Northern Africa and the Middle East, replacing three older satellites.

Eutelsat Hotbird 13F is equipped with two solar panels generating 22 kW of power to enable efficient use of 80 Ku band transponders. That totals 160 Ku band transponders between both satellites in the same position.

The satellite has an estimated lifetime of 15 years and will be replacing the Hotbird 8, 9, 10 satellites (later renamed to Hotbird 13 B, C, and D respectively) which have been in service for about 14 years.

The increased Ku band capacity on the newly updated Hotbird 13F and 13G satellites will only require two satellites to be at Eutelsat’s East position in Geostationary orbit instead of the prior three, who will be deferred to a graveyard orbit further out.

Authors: Trevor Sesnic link Florian Kordina link

Coauthor/Text Retriever Johnny Nielsen link to launch list - ElonX stats link