A virgin SpaceX Falcon 9 rocket carrying the Japanese JCSAT-16 telecom satellite roared to life past midnight last Sunday, Aug. 14, at 1:26 a.m. EDT and streaked to orbit from Space Launch Complex 40 on Cape Canaveral Air Force Station in Florida.
After the first stage firing was completed, it separated from the second stage, turned around 180 degrees, relit three of its Merlin 1D engines and began descending back to Earth towards the waiting drone ship barge.
Scarcely nine minutes later the 15 story tall first stage completed a pinpoint and upright soft landing on a prepositioned ocean going platform some 400 miles (650 km) off shore of of Florida’s east coast in the Atlantic Ocean., after successfully delivering the Japanese communications satellite to its intended geostationary orbit.
It was towed back into port on Wedenesday, Aug. 16 atop the diminutive ocean landing platform measuring only about 170 ft × 300 ft (52 m × 91 m). SpaceX formally dubs it an ‘Autonomous Spaceport Drone Ship’ or ASDS.
The JCSAT-16 satellite was successfully deployed from the second stage about 32 minutes after liftoff from Cape Canaveral – as the primary objective of this flight.
The secondary experimental objective was to try and recover the first stage booster via a propulsive landing on the ocean-going platform named “Of Course I Still Love You” or OCISLY.
The ocean-going barge is named “Of Course I Still Love You” after a starship from a novel written by Iain M. Banks.
OCISLY and the vertical booster arrived back into Port Canaveral three days later on Wednesday morning, Aug. 17,floating past unsuspecting tourists and pleasure craft.
A heavy duty crane lifted the spent 156-foot-tall (47-meter) booster off the OCISLY barge and onto a restraining cradle within hours of arrival.
Watch this exquisitely detailed video from USLaunchReport showing workers capping the first stage and preparing the booster for craning off the barge on Aug. 17, 2016.
Video Caption: SpaceX – JCSAT-16 – In Port – YouTube 4K – 08-17-2016. Credit: USLaunchReport
One by one, workers then removed all four landing legs over the next two days.
It will be tilted and lowered horizontally and then be placed onto a multi-wheeled transport for shipment back to SpaceX launch processing facilities and hangars at Cape Canaveral for refurbishment, exhaustive engine and structural testing. It will also be washed, stored and evaluated for reuse.
This 6th successful Falcon upright first stage landing – two by land and four by sea – is part of a continuing series of technological marvels/miracles rocking the space industry to its core.
The sextet of intact and upright touchdowns of the recovered 156-foot-tall (47-meter) booster count as stunning successes towards SpaceX founder and CEO Elon Musk’s vision of rocket reusability and radically slashing the cost of sending rockets to space by recovering the boosters and eventually reflying them with new payloads from paying customers.
To date SpaceX had successfully recovered first stages three times in a row at sea earlier this year on the ocean going drone ship barge using the company’s OCISLY Autonomous Spaceport Drone Ship (ASDS) on April 8, May 6 and May 27.
Two land landings back at Cape Canaveral Landing Zone-1 were accomplished on Dec. 21, 2015 and July 18, 2016.
The JCSAT-16 communications satellite was built by Space Systems Loral for Tokyo-based SKY Perfect JSAT Corp. It is equipped Ku-band and Ka-band communications services for customers of SKY Perfect JSAT Corp.
The satellite was launched using the upgraded version of the 229 foot tall Falcon 9 rocket.
Relive the launch via this pair of videos from remote video cameras set at the SpaceX launch pad 40 facility:
Video caption: SpaceX Falcon 9 launch of JCSAT-16 on Aug. 14, 2016 from Space Launch Complex 40 at Cape Canaveral Air Force Station, Fl. Credit: Ken Kremer/kenkremer.com
Video Caption: Launch of the JCSAT-16 communications satellite on a SpaceX Falcon 9 rocket on 8/14/2016 from Pad 40 of CCAFS. Credit: Jeff Seibert
SKY Perfect JSAT Corp. is a leading satellite operator in the Asia – Pacific region. JCSAT-16 will be positioned 22,300 miles (35,800 kilometers) above the equator.
The Aug. 14 launch was the second this year for SKY Perfect JSAT. The JCSAT-14 satellite was already successfully launched earlier this year atop a SpaceX Falcon 9 on May 6.
JCSAT-16 will primarily serve as an on orbit back up spare for the company’s existing services, a company spokeswomen told Universe Today at the media launch viewing site.
Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.
KENNEDY SPACE CENTER, FL – Scarcely three weeks after the mesmerizing midnight launch and landing of a SpaceX Falcon 9 rocket that delivered over two tons of science and critical hardware to the space station for NASA, the innovative firm is set to repeat the back to back space feats – with a few big twists – during a post midnight launch this Sunday, Aug.14 of a Japanese telecom satellite.
In less than 24 hours, a freshly built SpaceX Falcon 9 is set to transform night into day and launch the JCSAT-16 communications satellite from Space Launch Complex 40 on Cape Canaveral Air Force Station in Florida.
And some nine minutes later, the 15 story Falcon 9 first stage is scheduled to make a pinpoint soft landing on a tiny, prepositioned drone ship at sea in the vast Atlantic Ocean.
To date SpaceX has successfully soft landed 5 first stage boosters over the past eight months – two by land and three by sea.
Nighttime liftoffs are always a viewing favorite among the general public – whether visiting from near or far. And this one is virtually certain to offer some spectacular summer fireworks since the weather looks rather promising – if all goes well.
Sunday’s launch window opens at 1:26 a.m. EDT and extends two hours long for the 229 foot tall Falcon 9 rocket. The window closes at 3:26 a.m. EDT.
The commercial mission involves lofting the JCSAT-16 Japanese communications satellite to a Geostationary Transfer Orbit (GTO) for SKY Perfect JSAT – a leading satellite operator in the Asia – Pacific region. JCSAT-16 will be positioned 22,300 miles (35,800 kilometers) above the equator.
Sunday’s launch is the second this year for SKY Perfect JSAT. The JCSAT-14 satellite was already launched earlier this year on May 6.
You can watch the launch live via a special live webcast from SpaceX.
The SpaceX webcast will be available starting at about 20 minutes before liftoff, at approximately 1:06 a.m. EDT at SpaceX.com/webcast
The weather currently looks very good. Air Force meteorologists are predicting an 80 percent chance of favorable weather conditions at launch time in the wee hours early Sunday morning.
The primate concerns are for violations of the Cumulus Cloud and Think Cloud rules.
The U.S. Air Force’s 45th Space Wing will support SpaceX’s Falcon 9 launch of JCSAT-16.
In cases of any delays for technical or weather issues, a backup launch opportunity exists 24 hours later on Monday morning with a 70 percent chance of favorable weather.
The rocket has already been rolled out to the launch pad on the transporter and raised to its vertical position.
The path to launch was cleared following the successful Aug. 10 hold down static fire test of the Falcon 9 first stage Merlin 1-D engines. SpaceX routinely performs the hot fire test to ensure the rocket is ready.
Watch this crystal clear video of the Static Fire Test from USLaunchReport:
Video Caption: SpaceX – JCSAT-16 – Static Fire Test 08-10-2016. On a humid, windless evening at 11 PM, JCSAT-16 gave one good vapor show. Credit: USLaunchReport
Via a fleet of 15 satellites, Tokyo, Japan based SKY Perfect JSAT provides high quality satellite communications to its customers.
The JCSAT-16 communications satellite was designed and manufactured by Space Systems/Loral for SKY Perfect JSAT Corporation.
JCSAT-16 satellite will separate from the second stage and will be deployed about 32 minutes after liftoff from Cape Canaveral. The staging events are usually broadcast live by SpaceX via stunning imagery from onboard video cameras.
A secondary objective is to try and recover the first stage booster via a propulsive landing on an ocean-going platform.
This booster is again equipped with 4 landing legs and 4 grid fins.
Following stage separation, SpaceX will try to soft land the first stage on the “Of Course I Still Love You” drone ship positioned about 400 miles (650 km) off shore of Florida’s east coast in the Atlantic Ocean.
But SpaceX officials say landings from GTO mission destinations are extremely challenging because the first stage will be subject to extreme velocities and re-entry heating.
If all goes well with the supersonic retropropulsion landing on the barge, the booster will arrive back into Port Canaveral a few days later.
To date SpaceX has successfully recovered first stages three times in a row at sea this year on the an ocean going drone ship barge using the company’s OCISLY Autonomous Spaceport Drone Ship (ASDS) on April 8, May 6 and May 27.
Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.
Learn more about SpaceX missions, Juno at Jupiter, SpaceX CRS-9 rocket launch, ISS, ULA Atlas and Delta rockets, Orbital ATK Cygnus, Boeing, Space Taxis, Mars rovers, Orion, SLS, Antares, NASA missions and more at Ken’s upcoming outreach events:
Aug 12-14: “SpaceX missions/launches to ISS on CRS-9, Juno at Jupiter, ULA Delta 4 Heavy spy satellite, SLS, Orion, Commercial crew, Curiosity explores Mars, Pluto and more,” Kennedy Space Center Quality Inn, Titusville, FL, evenings
KENNEDY SPACE CENTER, FL – SpaceX founder Elon Musk’s daring dream of rocket recycling and reusability is getting closer and closer to reality with each passing day. After a breathtaking series of experimental flight tests aimed at safely landing the firms spent Falcon 9 first stages on land and at sea over the past half year the bold effort achieved another major milestone by just completing the first full duration test firing of one of those landed boosters.
On Thursday, July 28, SpaceX engineers successful conducted a full duration static engine test firing of the 156-foot-tall (47-meter) recovered Falcon 9 first stage booster while held down on a test stand at the company’s rocket development test facility in McGregor, Texas. The engines fired up for about two and a half minutes.
The SpaceX team has been perfecting the landing techniques by adopting lessons learned after each landing campaign attempt.
What are the lessons learned so far from the first stage landings and especially the hard landings? Are there any changes being made to the booster structure? How well did the landing burn scenario perform?
During SpaceX’s recent CRS-9 launch campaign media briefings at NASA’s Kennedy Space Center on July 18, I asked SpaceX VP Hans Koenigsmann for some insight.
“We learned a lot … from the landings,” Hans Koenigsmann, SpaceX vice president of Flight Reliability, told Universe Today during the recent media briefings for the SpaceX CRS-9 space station cargo resupply launch on July 18.
“There are no structural changes first of all.”
“The key thing is to protect the engines,” Koenigsmann elaborated, while they are in flight and “during reentry”.
The SpaceX Falcon 9 first stage is outfitted with four landing legs at the base and four grid fins at the top to conduct the landing attempts.
“In general I think the landing concept with the legs, and the number of burns and the way we perform those seems to work OK,” Koenigsmann told Universe Today.
After separating from the second stage at hypersonic speeds of up to some 4000 mph, the first stage engines are reignited to reverse course and do a boost backburn back to the landing site and slow the rocket down for a soft landing, via supersonic retropulsion.
Proper engine performance is critical to enabling a successful touchdown.
“The key thing is to protect the engines – and make sure that they start up well [in space during reentry],” Koenigsmann explained. “And in particular the hot trajectory, so to speak, like the ones that comes in after a fast payload, like the geo-transfer payload basically.”
“Those engines need to be protected so that they start up in the proper way. That’s something that we learned.”
Elon Musk’s goal is to radically slash the cost of launching rockets and access to space via rocket reuse – in a way that will one day lead to his vision of a ‘City on Mars.’
SpaceX hopes to refly a once flown booster later this year, sometime in the Fall, using the ocean landed Falcon from NASA’s CRS-8 space station mission launched in April, says Koenigsmann.
But the company first has to prove that the used vehicle can survive the extreme and unforgiving stresses of the violent spaceflight environment before they can relaunch it.
The July 28 test firing is part of that long life endurance testing and involved igniting all nine used first stage Merlin 1D engines housed at the base of a used landed rocket.
The Falcon 9 first stage generates over 1.71 million pounds of thrust when all nine Merlin engines fire up on the test stand for a duration of up to three minutes – the same as for an actual launch.
Watch the engine test in this SpaceX video:
Video Caption: Falcon 9 first stage from May 2016 JCSAT mission was test fired, full duration, at SpaceX’s McGregor, Texas rocket development facility on July 28, 2016. Credit: SpaceX
Just 10 minutes after launching the JCSAT-14 telecom satellite to a Geostationary Transfer Orbit (GTO), the used first stage relit a first stage Merlin 1D engine.
It conducted a series of three recovery burns to maneuver the rocket to a designated landing spot at sea or on land and rapidly decelerate it from supersonic speeds for a propulsive soft landing, intact and upright using a quartet of landing legs that deploy in the final moments before a slow speed touchdown.
However, although the landing was upright and intact, this particular landing was also classed as a ‘hard landing’ because the booster landed at a higher velocity and Merlin 1D first stage engines did sustain heavy damage as seen in up close photos and acknowledged by Musk.
“Most recent rocket took max damage, due to v high entry velocity. Will be our life leader for ground tests to confirm others are good,” Musk tweeted at the time.
Nevertheless it all worked out spectacularly and this was the first one to be recovered from the much more demanding, high velocity trajectory delivering a satellite to GTO.
Indeed prior to liftoff, Musk had openly doubted a successful landing outcome, since this first stage was flying faster and at a higher altitude at the time of separation from the second stage and thus was much more difficult to slow down and maneuver back to the ocean based platform compared to ISS missions, for example.
So although this one cannot be reflown, it still serves another great purpose for engineers seeking to determining the longevity of the booster and its various components – as now audaciously demonstrated by the July 28 engine test stand firing.
“We learned a lot even on the missions where things go wrong with the landing, everything goes well on the main mission of course,” said Koenigsmann.
Altogether SpaceX has successfully soft landed and recovered five of their first stage Falcon 9 boosters intact and upright since the history making first ever land landing took place just seven months ago in December 2015 at Cape Canaveral Air Force Station in Florida.
See the stupendous events unfold in up close photos and videos herein.
Following each Falcon 9 launch and landing attempt, SpaceX engineers assess the voluminous and priceless data gathered, analyze the outcome and adopt the lessons learned.
CRS-9 marks only the second time SpaceX has attempted a land landing of the 15 story tall first stage booster back at Cape Canaveral Air Force Station – at the location called Landing Zone 1 (LZ 1).
Watch this exquisitely detailed up close video showing the CRS-9 first stage landing at LZ 1, as shot by space colleague Jeff Seibert from the ITL causeway at CCAFS- which dramatically concluded with multiple shockingly loud sonic booms rocketing across the Space Coast and far beyond and waking hordes of sleepers:
Video caption: This was the second terrestrial landing of a SpaceX Falcon 9 booster on July 18, 2016. It had just launched the CRS9 Dragon mission towards the ISS. The landing took place at LZ1, formerly known as Pad 13, located on CCAFS and caused a triple sonic boom heard 50 miles away. Credit: Jeff Seibert
The history making first ever ground landing successfully took place at Landing Zone 1 (LZ 1) on Dec. 22, 2015 as part of the ORBCOMM-2 mission. Landing Zone 1 is built on the former site of Space Launch Complex 13, a U.S. Air Force rocket and missile testing range.
SpaceX also successfully recovered first stages three times in a row at sea this year on an ocean going drone ship barge using the company’s OCISLY Autonomous Spaceport Drone Ship (ASDS) on April 8, May 6 and May 27.
OCISLY is generally stationed approximately 400 miles (650 kilometers) off shore and east of Cape Canaveral, Florida in the Atlantic Ocean. The barge arrives back in port at Port Canaveral several days after the landing, depending on many factors like weather, port permission and the state of the rocket.
The rocket apparently ran out of liquid oxygen fuel in the final moments before touchdown, hit hard, tipped over and pancaked onto the deck.
“Looks like early liquid oxygen depletion caused engine shutdown just above the deck,” Musk explained via twitter at the time.
“Looks like thrust was low on 1 of 3 landing engines. High g landings v sensitive to all engines operating at max.”
“We learned a lot even on the mission where things go wrong with the landing,” Koenigsmann explained. “Everything goes well on the main mission of course.”
“That’s actually something where you have successful deploy and the landing doesn’t quite work- and yet its the landing that gets all the attention.”
“But even on those landings we learned a lot. In particular on the last landing [from Eutelsat launch] we learned a lot.”
“We believe we found a way to operationally protect these engines and to make it safer for them to start up – and to come up to full thrust and stay at full thrust.”
What exactly does “protecting the engines” mean “in flight?”
“Yes I mean protecting the engines during reentry,” Koenigsmann told me.
“That’s when the engines get hot. We enter with the engines facing the flow. So its basically the engines directly exposed to the hot flow. And that’s when you need to protect the engines and the gases and liquids that are in the engines. To make sure that nothing boils off and does funny things.”
“So all in all these series of drone ship landings has been extremely successful, even when we didn’t recover all the first stages [fully intact].”
Watch for Ken’s continuing SpaceX and CRS-9 mission coverage where he reported onsite direct from the Kennedy Space Center and Cape Canaveral Air Force Station, Florida.
Stay tuned here for Ken’s continuing Earth and Planetary science and human spaceflight news.
Video caption: SpaceX Falcon 9 lifts off with Dragon CRS-9 resupply ship bound for the International Space Station on July 18, 2016 at 12:45 a.m. EDT from Space Launch Complex 40 at Cape Canaveral Air Force Station, Fl, as seen in this up close video from Mobius remote camera positioned at pad. Credit: Ken Kremer/kenkremer.com
Watch this CRS-9 launch and landing video compilation from space colleague Mike Wagner:
Video caption: SpaceX CRS-9 Launch and Landing compilation on 7/18/2016. Local papers reported 911 calls for a loud explosion up to 75 miles away. This sonic boom seemed louder than the first landing at the Cape in Dec. 2015. Credit: USLaunchReport
The residue of the Falcon sailed into home port at Port Canaveral, Fl under cover of darkness and covered by a big blue tarp late Saturday night, June 18, at around 9 p.m. EDT.
It arrived atop SpaceX’s ASDS drone ship landing platform known as “Of Course I Still Love You” or “OCISLY” – that had already been dispatched several days prior to the June 15 morning launch from the Florida space coast.
And check out this exquisite hi res aerial video of the tarp ‘Blowing in the Wind’ – showing an even more revealing view of the remains of the Falcon 9 after much of the tarp was blown away by whipping sunshine state winds.
Video Caption: SpaceX booster remains from Eutelsat-ABS launch seen in Port Canaveral on 06-19-2016 the day after arrival. The wind blew off part of the tarps covering what is left of Eutelsat-ABS booster. Credit: USLaunchReport
Recovering and eventually reusing the 156 foot tall Falcon 9 first stage to loft new payloads for new paying customers lies at the heart of the visionary SpaceX CEO Elon Musk’s strategy of radically slashing future launch costs and enabling a space faring civilization.
The latest attempt to launch and propulsively land the Falcon booster on a platform a sea took place on Wednesday, June 15 after the on time liftoff at 10:29 a.m. EDT (2:29 UTC) from Space Launch Complex 40 on Cape Canaveral Air Force Station in Florida.
The 229 foot-tall (70 meter) Falcon 9 successfully accomplished its primary goal of delivering a pair of roughly 5000 pound commercial telecommunications satellites to a Geostationary Transfer Orbit (GTO) for Eutelsat based in Paris and Asia Broadcast Satellite of Bermuda and Hong Kong.
The Falcon 9 delivered the Boeing-built EUTELSAT 117 West B and ABS-2A telecommunications satellites to orbits for Latin American and Asian customers.
“Ascent phase & satellites look good,” SpaceX CEO and founder Elon Musk tweeted.
After first stage separation, SpaceX engineers attempted the secondary and experimental goal of soft landing the 15 story tall first stage booster nine minutes after liftoff, on an ocean going ‘droneship’ platform for later reuse.
OCISLY was stationed approximately 420 miles (680 kilometers) off shore and east of Cape Canaveral, Florida in the Atlantic Ocean.
However, for the first time in four tries SpaceX was not successful in safely landing and recovering the booster intact and upright.
The booster basically crashed on the drone ship because it descended too quickly due to insufficient thrust from the descent engines.
The rocket apparently ran out of fuel in the final moments before droneship touchdown.
“Looks like early liquid oxygen depletion caused engine shutdown just above the deck,” Musk explained via a twitter post.
The first stage is fueled by liquid oxygen and RP-1 propellant.
A SpaceX video shows a huge cloud of black smoke enveloping the booster in the final moments before the planned touchdown – perhaps soot from the burning RP-1 propellant.
In the final moments the booster is seen tipping over and crashing with unrestrained force onto the droneship deck – crushing and flattening the boosters long round core and probably the nine Merlin 1D first stage engines as well.
“But booster rocket had a RUD on droneship,” Musk noted. RUD stands for rapid unscheduled disassembly which usually means it was destroyed on impact. Although in this case it may be more a case of being crushed by the fall instead of a fuel related explosion.
“Looks like thrust was low on 1 of 3 landing engines. High g landings v sensitive to all engines operating at max,” Musk elaborated.
Yet this outcome was also not unexpected due to the high energy of the rocket required to deliver the primary payload to the GTO orbit.
“As mentioned at the beginning of the year, I’m expecting ~70% success rate on landings for the year,” Musk explains.
And keep in mind that the rocket recovery and recycling effort is truly a science experiment on a grand scale financed by SpaceX – and its aiming for huge dividends down the road.
“2016 is the year of experimentation.”
It’s a road that Musk hopes will one day lead to a human “City on Mars.”
Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.
Watch these incredible launch videos showing many different vantage points:
Video caption: SpaceX Falcon 9 launch video compilation – Eutelsat and ABS satellites launched on 06/15/2016 from Pad 40 CCAFS. Credit: Jeff Seibert
Video caption: SpaceX Falcon 9 lifts off with Eutelsat 117W/ABS-2A electric propulsion comsats on June 15, 2016 at 10:29 p.m. EDT from Space Launch Complex 40 at Cape Canaveral Air Force Station, Fl, as seen in this up close video from Mobius remote camera positioned at pad. Credit: Ken Kremer/kenkremer.com
PORT CANAVERAL, FL – The spent SpaceXFalcon 9 first stage booster that sped to space and back and landed safely at sea, ‘lifted off’ for a second time so to speak after CEO Elon Musk’s “Baby Made it Home” to her home port around lunchtime on June 2 – as I witnessed and reported here for Universe Today.
Photos above and below from myself and colleagues capture Falcon’s 2nd ‘lift off’ – this time at dusk on June 2, via crane power as workers hoisted it off its ocean landing platform – with an American flag flying proudly below – onto a ground based work platform to carry out initial processing.
The booster triumphantly entered the waterway into Port Canaveral, Fl by way of the ocean mouth at Jetty Park pier at about 11: 45 a.m. on June 2 under clear blue skies.
It continued sailing serenely along the Port Canaveral channel – towed behind the Elsbeth III tugboat – making a picture perfect tour for lucky spectators for another 30 minutes or so until docking at the SpaceX ground processing facility.
All in all it was quite appropriately an ‘otherworldly’ scene reminiscent of a great scifi movie.
Watch this video from my photojournalist colleague Jeff Seibert.
Video caption: The SpaceX F9 booster from the Thaicom-8 launch returns to Cape Canaveral on June 2, 2016 after completing an at sea landing on the OCISLY drone ship 6 days earlier. A hard landing caused a leg to activate a crush structure and it is tilting about 4 degrees. That is half the booster tilt angle that Elon Musk expected should be recoverable. Credit: Jeff Seibert
The beaming 156-foot-tall Falcon 9 booster had propulsively landed six days earlier atop the specially designed SpaceX ‘droneship’ named “Of Course I Still Love You” or “OCISLY” less than 9 minutes after the spectacular May 27 blastoff.
The Falcon 9 was leaning some 5 degrees or so on the droneship upon which it had landed on May 27 while it was stationed approximately 420 miles (680 kilometers) off shore and east of Cape Canaveral, Florida, surrounded by the vastness of the Atlantic Ocean.
After docking, SpaceX workers then spent the next few hours carefully maneuvering and attaching a pyramidal shaped metal hoisting cap by crane to the top of the 15 story tall first stage – as it was firmly secured to the deck of the droneship via multiple tie downs.
It was a delicately choreographed and cautiously carried out operation, complicated by the fact that this used, returned booster was tilted. The prior two sea landed Falcon 9 boosters landed perfectly upright in April and May.
Indeed a pair of technicians had to ride a cherry picker lift to the very top to help fasten the cap securely in place as it was slowly lowered in the late afternoon.
Workers then spent several more hours undoing and removing the tiedowns to the droneship deck, one by one.
Finally and with no fanfare the ‘GO’ command was suddenly given.
At dusk, Falcons 2nd ‘ascent’ began at around 8 p.m. The small group of us patiently watching and waiting all day from across the channel had no warning or advance notice. My guestimate is Falcon rose perhaps 30 to 40 feet.
It was craned over to the right and lowered onto the waiting ground based retention work platform. Altogether the whole movement took some 10 minutes.
The SpaceX Falcon 9 began its rapid journey to space and back roaring to life at 5:39 p.m. EDT last Friday, May 27, from Space Launch Complex-40 at Cape Canaveral Air Force Station, FL, ascending into sky blue sunshine state skies.
The Falcon 9 was carrying the Thaicom-8 telecommunications satellite to orbit as its primary goal for the commercial launch from a paying customer.
It roared to life with 1.5 million pounds of thrust from the first stage Merlin 1 D engines and successfully propelled the 7000 pound (3,100 kilograms) commercial Thai communications satellite to a Geostationary Transfer Orbit (GTO).
Landing on the droneship was a secondary goal of SpaceX’s visionary CEO and founder Elon Musk.
It was leaning due to the high speed reentry and a touchdown landing speed near the maximum sustainable by the design.
“Rocket landing speed was close to design max & used up contingency crush core, hence back & forth motion,” tweeted SpaceX CEO Elon Musk.
“Prob ok, but some risk of tipping.”
That tilting added significant extra technical efforts by the SpaceX workers to stabilize it at sea and bring it back safely and not tip over calamitously during the six day long sea voyage back to home port.
““Rocket back at port after careful ocean transit. Leaning back due to crush core being used up in landing legs,” SpaceX explained.
What is the crush core?
“Crush core is aluminum honeycomb for energy absorption in the telescoping actuator. Easy to replace (if Falcon makes it back to port),” Musk tweeted during the voyage home.
The landing leg design follows up and improves upon on what was used and learned from NASA’s Apollo lunar landers in the 1960s and 1970s.
“Falcon’s landing leg crush core absorbs energy from impact on touchdown. Here’s what it looked like on Apollo lander,” noted SpaceX
Check out this graphic tweeted by SpaceX.
Technicians started removing the quartet of landing legs on Friday. I observed the first one being detached late Friday, June 3.
The booster was rotated horizontally after all the legs were removed and transported back to the SpaceX processing hangar at the Kennedy Space Center at Launch Complex 39A.
The three prior landed boosters were all moved to 39 A for thorough inspection, analysis and engine testing. One will be refurbished and recycled for reuse.
Video caption: Thaicom 8 booster is lifted from autounomous drone ship to dry land for transport on 2 June 2016. Time Lapse. Credit: USLaunchReport
Later this year, SpaceX hopes to relaunch one of the recovered first stage boosters.
The SpaceX rockets and recovery technology are all being developed so they will one day lead to establishing a ‘City on Mars’ – according to the SpaceX’s visionary CEO and founder Elon Musk.
Musk aims to radically slash the cost of launching future rockets by recycling them and using them to launch new payloads for new paying customers.
Musk hopes to launch humans to Mars by the mid-2020s.
Watch for Ken’s continuing on site reports direct from Cape Canaveral and the SpaceX launch pad.
Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.
Learn more about SpaceX Falcon 9 rocket, ULA Atlas rocket, Orbital ATK Cygnus, ISS, Boeing, Space Taxis, Mars rovers, Orion, SLS, Antares, NASA missions and more at Ken’s upcoming outreach events:
June 8/9: “SpaceX, ULA, SLS, Orion, Commercial crew, Curiosity explores Mars, Pluto and more,” Kennedy Space Center Quality Inn, Titusville, FL, evenings
Port Canaveral, FL- The first ever daylight arrival afforded endless eye-popping views of what can only be described as a truly radiant SpaceX Falcon 9recovered first stage booster sailing victoriously into Port Canaveral, Florida, at lunchtime today, Thursday, June 2.
The beaming 156 foot tall booster was traveling triumphantly atop the specially designed SpaceX ‘droneship’ aptly named “Of Course I Still Love You” or “OCISLY.”
Because unlike all three prior perfectly erect upright landings, this booster came to rest noticeably titled, perhaps by about 5 degrees.
It was leaning due to the high speed reentry and a touchdown landing speed near the maximum sustainable by the design.
“Rocket landing speed was close to design max,” tweeted SpaceX CEO Elon Musk.
That tilt gave it a distinctive character – compared to the other three – as well as significant extra technical work by the SpaceX workers to stabilize it at sea and bring it back safely and not tip over calamitously during the six day long sea voyage back to home port.
“Leaning back due to crush core being used up in landing legs,” Musk explained.
And since Port Canaveral and the Atlantic Ocean are public waterways, the day was filled with incredible scenes on numerous pleasure boats passing by on the seas throughout the day. Since this was the first daytime ocean arrival, there’s never been a scene quite like this.
The booster landed on “OCISLY” on May 27 while it was stationed approximately 420 miles (680 kilometers) off shore and east of Cape Canaveral, Florida, surrounded by the vastness of the Atlantic Ocean.
It was soon towed back by the Elsbeth III tug. By Tuesday evening it had arrived some 14 miles or so offshore Cocoa Beach, Fl., in the Atlantic.
After stationkeeping for some 36 hours, the journey began anew and the the booster arrived at the mouth of Port Canaveral at about 11: 45 a.m., with a picture perfect entrance via Jetty Park pier.
It continued along the Port Canaveral channel for another 30 minutes or so until docking at the SpaceX ground facility.
So my day was filled with endless eye candy consisting of observing ground breaking rockets and technology that will one day lead to establishing a ‘City on Mars’ – according to the SpaceX’s visionary CEO and founder Elon Musk.
This Falcon 9 began its rapid journey to space and back roaring to life at 5:39 p.m. EDT last Friday, May 27, from Space Launch Complex-40 at Cape Canaveral Air Force Station, FL, ascending into sky blue sunshine state skies.
The Falcon 9 was carrying the Thaicom-8 telecommunications satellite to orbit.
Despite long odds due to a high speed orbital delivery launch on May 27 as its primary goal, the spent Falcon 9 first stage managed to successfully carry out a rapid propulsive descent and soft landing at seas on a tiny ocean going platform.
The May 27 landing was the third straight successful landing for SpaceX at sea and the second straight landing after delivering a commercial payload to a Geostationary Transfer Orbit (GTO).
With a total of 4 recovered boosters, SpaceX is laying the path to rocket reusability and Musk’s dream of slashing launch costs – by 30% initially and much much more down the road.
Thaicom-8 was built by aerospace competitor Orbital ATK, based in Dulles, VA. It will support Thailand’s growing broadcast industry and will provide broadcast and data services to customers in South Asia, Southeast Asia and Africa.
Thaicom-8 is the fifth operational satellite for Thaicom.
It now enters a 30-day testing phase, says Orbital ATK.
The Falcon 9 launch is the 5th this year for SpaceX.
Watch for more photos/videos of today’s arrival in port in Part 2 soon.
Watch for Ken’s continuing on site reports direct from Cape Canaveral and the SpaceX launch pad.
Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.
Learn more about SpaceX Falcon 9 rocket, ULA Atlas rocket, Orbital ATK Cygnus, ISS, Boeing, Space Taxis, Mars rovers, Orion, SLS, Antares, NASA missions and more at Ken’s upcoming outreach events:
June 2/3/8/9: “SpaceX, ULA, SLS, Orion, Commercial crew, Curiosity explores Mars, Pluto and more,” Kennedy Space Center Quality Inn, Titusville, FL, evenings
CAPE CANAVERAL AIR FORCE STATION, FL – Spectacular imagery showcasing SpaceX’s Thaicom blastoff on May 27 keeps rolling in as the firms newest sea landed booster sails merrily along back to its home port atop a ‘droneship’ landing platform.
Formally known as an Autonomous Spaceport Drone Ship (ASDS) the small flat platform is eclectically named “Of Course I Still Love You” or “OCISLY” by SpaceX Founder and CEO Elon Musk and is expected back at Port Canaveral this week.
Check out this expanding launch gallery of up close photos and videos captured by local space photojournalist colleagues and myself of Friday afternoons stunning SpaceX Falcon 9 liftoff.
The recently upgraded Falcon 9 launched into sky blue sunshine state skies at 5:39 p.m. EDT from Space Launch Complex-40 at Cape Canaveral Air Force Station, FL, accelerating to orbital velocity and arcing eastward over the Atlantic Ocean towards the African continent and beyond.
Relive the launch via these exciting videos recorded around the pad 40 perimeter affording a “You Are There” perspective!
They show up close and wide angle views and audio recording the building crescendo of the nine mighty Merlin 1 D engines.
Video caption: Compilation of videos of SpaceX Falcon 9 launch of Thaicom 8 on 5/27/2016 from Pad 40 on CCAFS, FL as seen from multiple cameras ringing pad and media viewing site on AF base. Credit: Jeff Seibert
Watch from the ground level weeds and a zoomed in view of the umbilicals breaking away at the moment of liftoff.
Video caption: SpaceX Falcon 9 lifts off with Thaicom-8 communications satellite on May 27, 2016 at 5:39 p.m. EDT from Space Launch Complex 40 at Cape Canaveral Air Force Station, Fl, as seen in this up close video from Mobius remote camera positioned at pad. Credit: Ken Kremer/kenkremer.com
After the first and second stages separated as planned at about 2 minutes and 39 seconds after liftoff, the nosecone was deployed, separating into two halves at about T plus 3 minutes and 37 seconds.
Finally a pair of second stage firings delivered Thaicom-8 to orbit.
Onboard cameras captured all the exciting space action in real time.
When the Thai satellite was successfully deployed at T plus 31 minutes and 56 seconds exhuberant cheers instantly erupted from SpaceX mission control – as seen worldwide on the live webcast.
“Satellite deployed to 91,000 km apogee,” tweeted SpaceX CEO and founder Elon Musk.
Video caption: SpaceX – “Falcon In” “Falcon Out” – 05-27-2016 – Thaicom 8. The brand new SpaceX Falcon 9 for next launch comes thru main gate Cape Canaveral, just a few hours before Thaicom 8 launched and landed. Awesome ! Credit: USLaunchReport
Both stages of the 229-foot-tall (70-meter) Falcon 9 are fueled by liquid oxygen and RP-1 kerosene which burn in the Merlin engines.
Less than nine minutes after the crackling thunder and billowing plume of smoke and fire sent the Falcon 9 and Thaicom 8 telecommunications satellite skyward, the first stage booster successfully soft landed on a platform at sea.
Having survived the utterly harsh and unforgiving rigors of demanding launch environments and a daring high velocity reentry, SpaceX engineers meticulously targeted the tiny ocean going ASDS vessel.
The diminutive ocean landing platform measures only about 170 ft × 300 ft (52 m × 91 m).
“Of Course I Still Love You” is named after a starship from a novel written by Iain M. Banks.
OCISLY was stationed approximately 420 miles (680 kilometers) off shore and east of Cape Canaveral, Florida surrounded by the vastness of the Atlantic Ocean.
Because the launch was target Thaicom-8 to GTO, the first stage was traveling at some 6000 kph at the time of separation from the second stage.
Thus the booster was subject to extreme velocities and re-entry heating and a successful landing would be extremely difficult – but not impossible.
Just 3 weeks ago SpaceX accomplished the same sea landing feat from the same type trajectory following the launch of the Japanese JCSAT-14 on May 6.
The May 6 landing was the first fully successful sea landing from a GTO launch, brilliantly accomplished by SpaceX engineers.
With a total of 4 recovered boosters, SpaceX is laying the path to rocket reusability and Musk’s dream of slashing launch costs – by 30% initially and much much more down the road.
Thaicom-8 was built by aerospace competitor Orbital ATK, based in Dulles, VA. It will support Thailand’s growing broadcast industry and will provide broadcast and data services to customers in South Asia, Southeast Asia and Africa.
Thaicom-8 is the fifth operational satellite for Thaicom.
It now enters a 30-day testing phase, says Orbital ATK.
The Falcon 9 launch is the 5th this year for SpaceX.
Watch for Ken’s continuing on site reports direct from Cape Canaveral and the SpaceX launch pad.
Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.
CAPE CANAVERAL AIR FORCE STATION, Fla. – Just three weeks after SpaceX’s last launch from their Florida launch base, the growing and influential aerospace firm is deep into commencing their next space spectacular – targeting this Thursday, May 26, for launch of a Thai comsat followed moments later by a sea landing attempt of the booster on a tough trajectory.
SpaceX is slated to launch the Thaicom-8 telecommunications satellite atop an upgraded version of the SpaceX Falcon 9 on Thursday at 5:40 p.m. EDT from Space Launch Complex-40 at Cape Canaveral Air Force Station in Florida.
SpaceX is rapidly picking up the pace of rocket launches for their wide ranging base of commercial, government and military customers that is continuously expanding and reaping contracts and profits for the Hawthorne, Calif. based company.
This commercial mission involves lofting Thaicom-8 to a Geostationary Transfer Orbit (GTO) for Thaicom PLC, a leading satellite operator in Asia.
This also counts as the second straight GTO launch and the second straight attempt to land a rocket on a sea based platform from the highly demanding GTO launch trajectory.
Will this mission make for 3 successful Falcon 9 1st stage booster landings in a row? Tune in and find out !!
Engineers have a two-hour window to launch the Falcon 9 and deliver Thaicom to orbit.
Thaicom-8 was built by aerospace competitor Orbital ATK, based in Dulles, VA. It will support Thailand’s growing broadcast industry and will provide broadcast and data services to customers in South Asia, Southeast Asia and Africa.
The Falcon 9 launch is the 5th this year for SpaceX.
You can watch the launch live via a special live webcast from SpaceX.
The SpaceX webcast will be available starting at about 20 minutes before liftoff, at approximately 5:20 a.m. EDT at SpaceX.com/webcast
The two stage Falcon 9 rocket has a two-hour launch window that extends until Thursday, May 26 at 7:40 p.m. EDT.
The path to liftoff was cleared late last night the company completed the customary pre-launch static fire test of the rocket’s first stage upgraded Merlin 1D engines for several seconds at pad 40.
The nine engines on the 229 foot tall Falcon 9 rocket generate approximately 1.5 million pounds of thrust.
Engineers monitored the test and after analyzing results declared the Falcon 9 was fit to launch Thursday afternoon.
The weather currently looks very good. Air Force meteorologists are predicting a 90 percent chance of favorable weather conditions at launch time Thursday morning with a minor concern for ground winds.
The backup launch opportunity is Friday, May 27. The weather outlooks is somewhat less promising at a 70 percent chance of favorable conditions.
After the Falcon 9 rocket delivers the satellite into its targeted geosynchronous transfer orbit it will enter a 30-day testing phase, says Orbital ATK.
Following in-orbit activation and after reaching its final orbital slot, Orbital ATK will then turn over control of the satellite to Thaicom to begin normal operations.
THAICOM 8’s orbital location will be positioned at 78.5 degrees east longitude and the satellite is designed to operate for more than 15 years.
Thaicom-8 is a Ku-band satellite that offers 24 active transponders that will deliver broadcast and data services to customers in Thailand, Southeast Asia, India and Africa.
Thaicom-8 has a mass of approximately 6,800 pounds (3,100 kilograms). It is based on Orbital ATK’s flight-proven GEOStar-2TM platform.
“We built and delivered this high-quality communications satellite for Thaicom PLC two months ahead of schedule, demonstrating our ability to manufacture reliable, affordable and innovative products that exceed expectations for our customer,” said Amer Khouri, Vice President of the Commercial Satellite Business at Orbital ATK.
“As one of Asia’s leading satellite operators, we are grateful for Thaicom’s continued confidence and look forward to more successful partnerships in the future.”
Thaicom-8 will join Thaicom-6 already in orbit. It was also designed, manufactured, integrated and tested by Orbital ATK. at the firm’s state-of-the-art satellite manufacturing facility in Dulles, Virginia.
Thaicom PLC commissioned Thaicom-8 in 2014, shortly after SpaceX launched the THAICOM 6 satellite into orbit in January 2014.
The secondary test objective of SpaceX is to land the Falcon 9 rockets first stage on an ocean going barge several hundred miles offshore in the Atlantic Ocean.
The Autonomous Spaceport Drone Ship (ASDS) barge is named “Of Course I Still Love You.”
However with this mission’s GTO destination, the first stage will be subject to extreme velocities and re-entry heating and a successful landing will be difficult.
Having said that and despite those hurdles, the last GTO mission landing attempt did succeed brilliantly following the May 6 JCSAT-14 launch.
Tune in to the SpaceX webcast Thursday afternoon to catch all the exciting action !!
Watch for Ken’s on site reports direct from Cape Canaveral and the SpaceX launch pad.
Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.
Learn more about SpaceX Falcon 9 rocket, ULA Atlas rocket, Orbital ATK Cygnus, ISS, Boeing, Space Taxis, Mars rovers, Orion, SLS, Antares, NASA missions and more at Ken’s upcoming outreach events:
May 25/26: “SpaceX, ULA, SLS, Orion, Commercial crew, Curiosity explores Mars, Pluto and more,” Kennedy Space Center Quality Inn, Titusville, FL, evenings
Jun 2 to 5: “ULA, NRO, SpaceX, SLS, Orion, Commercial crew, Curiosity explores Mars, Pluto and more,” Kennedy Space Center Quality Inn, Titusville, FL, evenings
The exquisite up close time-lapse sequence shows technicians carefully hoisting the 15-story-tall spent booster from the drone ship barge onto a work pedestal on land some 12 hours after arriving back in port.
The time-lapse imagery (below) of the booster’s removal from the drone ship was captured by my space photographer friend Jeff Seibert on Tuesday, May 10.
Video Caption: 20X time-lapse of the first stage booster from the SpaceX JCSAT-14 launch being transferred on May 10, 2016 from the autonomous drone ship “Of Course I Still Love You” (OCISLY) to a work pedestal on land 12 hours after arriving at the dock. Credit: Jeff Seibert
Towards the end of the video there is a rather humorous view of the technicians climbing in unison to the bottom of the hoisted Falcon.
“I particularly like the choreographed ascent by the crew to the base of the Falcon 9 near the end of the move video,” Seibert told Universe Today.
The move took place from 11:55 AM until 12:05 PM, Seibert said.
The booster was towed into the space coast port around 11 p.m. Monday night, as seen in further up close images captured by my space photographer friend Julian Leek.
Leek also managed to capture a stunningly unique view of the rocket floating atop the barge when it was still out at sea and some 5 miles off shore waiting to enter the port at a safe time after most of the cruise ships had departed – as I reported earlier here.
The 156 foot tall booster safely soft landed on the drone ship named “Of Course I Still Love You” or “OCISLY” barely nine minutes after liftoff of the SpaceX Falcon 9 last week on a mission to deliver the Japanese JCSAT-14 telecom satellite to a Geostationary Transfer Orbit (GTO).
The upgraded SpaceX Falcon 9 soared to orbit on May 6, roaring to life with 1.5 million pounds of thrust on a mission carrying the JCSAT-14 commercial communications satellite, following an on time liftoff at 1:21 a.m. EDT from Space Launch Complex 40 at Cape Canaveral Air Force Station, Fl.
The first stage then carried out a propulsive soft landing on the ocean going platform located some 400 miles off the east coast of Florida.
To date SpaceX has recovered 3 Falcon 9 first stages. But this was the first one to be recovered from the much more demanding, high velocity trajectory delivering a satellite to GTO.
The first rocket was flying faster and at a higher altitude at the time of seperatoin from the second stage and thus was much more difficult to slow down and maneuver back to the ocean based platform.
Thus SpaceX officials and CEO Elon Musk had been openly doubtful of a successful outcome for this landing attempt.
“First landed booster from a GTO-class mission (final spacecraft altitude will be about 36,000 km),” tweeted SpaceX CEO and founder Elon Musk.
The commercial SpaceX launch lofted the JCSAT-14 Japanese communications satellite to a Geostationary Transfer Orbit (GTO) for SKY Perfect JSAT – a leading satellite operator in the Asia – Pacific region.
The landing counts as another stunning success for Elon Musk’s vision of radically slashing the cost of sending rocket to space by recovering the boosters and eventually reusing them.
The next step is to defuel the booster and remove the landing legs. Thereafter it will be tilted and lowered horizontally and then be placed onto a multi-wheeled transport for shipment back to SpaceX launch facilities at Cape Canaveral for refurbishment, exhaustive engine and structural testing.
The newly recovered first stage will join a fleet of two others recovered last December and in April.
“May need to increase size of rocket storage hangar,” tweeted Musk.
If all goes well the recovered booster will eventually be reflown.
The next SpaceX commercial launch is tentatively slated for the late May/early June timeframe.
Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.
Video caption: SpaceX Falcon 9 launch of JCSAT-14 on May 6, 2016 from Space Launch Complex 40 at Cape Canaveral Air Force Station, Fl. Credit: Ken Kremer/kenkremer.com
The SpaceX Falcon 9 that triumphantly accomplished history’s first upright landing of the spent first stage of a rocket on a barge at sea – after launching a critical cargo payload to orbit for NASA – sailed back into port at Cape Canaveral overnight in the wee hours of this morning, April 12, standing tall.
The recovered 15 story tall Falcon 9 booster arrived back into Port Canaveral, Florida at about 130 a.m. early today, towed atop the ocean going platform that SpaceX dubs an ‘Autonomous Spaceport Drone Ship’ or ASDS.
The ship is named “Of Course I Still Love You” after a starship from a novel written by Iain M. Banks. The landing platform measures only about 170 ft × 300 ft (52 m × 91 m).
A small crowd of excited onlookers and space photographers savored and cheered the incredible moment that is surely changing the face and future of space exploration and travel.
The two stage SpaceX Falcon 9 rocket boasting over 1.5 million pounds of thrust originally launched on Friday, April 8 at 4:43 p.m. EDT from Space Launch Complex 40 at Cape Canaveral Air Force Station in Florida.
The primary goal of the Falcon 9 launch was carrying the SpaceX Dragon CRS-8 cargo freighter to low Earth orbit on a commercial resupply delivery mission for NASA to the International Space Station (ISS).
Before the launch, SpaceX managers rated the chances of a successful landing recovery rather high.
Three previous attempts by SpaceX to land on a barge at sea were partially successful, as the stage made a pinpoint flyback to the tiny ship but either hit too hard or tipped over in the final moments when a landing leg failed to fully deploy or lock in place.
“We were very optimistic of the chances of a successful landing on this mission,” Hans Koenigsmann told Universe Today in an exclusive post landing interview at the NorthEast Astronomy and Space Forum (NEAF) held in Suffern, NY.
Coincidentally, today marks two major anniversaries in the history of space flight; the 55th anniversary of the launch of Russia’s Yuri Gagarin, the first man in space on Vostok-1 on April 12, 1961; and the 35th anniversary of the launch of shuttle Columbia on America’s first space shuttle mission (STS-1) on April 12, 1981 with John Young and Bob Crippen.
The vision of SpaceX’s billionaire founder and CEO Elon Musk is to dramatically slash the cost of access to space by recovering the firms rockets and recycling them for reuse – so that launching rockets will one day be nearly as routine and cost effective as flying on an airplane.
The stage will now be painstakingly inspected, tested and refurbished.
The essential next step after recovery is recycling. Musk said he hopes to re-launch the booster this year.
At liftoff, Dragon was loaded with over 3.5 tons of research experiments and essential supplies for the six man crew living aboard the orbiting science complex.
Watch this launch video from my video camera placed at the pad:
Video Caption: Spectacular blastoff of SpaceX Falcon 9 rocket carrying Dragon CRS-8 cargo freighter bound for the International Space Station (ISS) from Space Launch Complex 40 on Cape Canaveral Air Force Station, FL at 4:43 p.m. EST on April 8, 2016. Up close movie captured by Mobius remote video camera placed at launch pad. Credit: Ken Kremer/kenkremer.com
The Dragon CRS-8 cargo ship successfully arrived at the station on Sunday, April 10 and was joined to the million pound station at the Earth-facing port of the Harmony module.
The secondary objective was to try and land the Falcon 9 first stage on the ASDS done ship located some 200 miles off shore in the Atlantic Ocean.
The action-packed and propulsive landing took place some 10 minutes after liftoff.
In the final moments of the descent to the drone ship, one of the first stage Merlin 1D engines was reignited to slow the boosters descent speed as the quartet of side-mounted landing legs at the boosters base were unfurled, deployed and locked into place.
The entire launch and landing sequence was webcast live on NASA TV and by SpaceX.
The recovered booster atop the “Of Course I Still Love You” barge was towed back to port by the Elsbeth III tug.
“Home sweet home”, said my friend and veteran space photographer Julian Leek, who witnessed the boosters arrival back in port overnight.
“It was really a sight to see. Pilots and tugs did a well coordinated job to bring her in.”
After daylight dawned, a crane lifted the recovered booster into a storage cradle where it will remain upright for a few days. Then it will be lowered and placed horizontally for transport a few miles north to a SpaceX processing hanger back at pad 39A at the Kennedy Space Center.
The booster will be cleaned and defueled, SpaceX spokesman John Taylor told the media.
SpaceX engineers will conduct a series of 12 test firings to ensure all is well operationally and that the booster can be re-launched.
Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.
Learn more about SpaceX, NASA Mars rovers, Orion, SLS, ISS, Orbital ATK, ULA, Boeing, Space Taxis, NASA missions and more at Ken’s upcoming outreach events:
Apr 12: Hosting Dr. Jim Green, NASA, Director Planetary Science, for a Planetary sciences talk about “Ceres, Pluto and Planet X” at Princeton University; 7:30 PM, Amateur Astronomers Assoc of Princeton, Peyton Hall, Princeton, NJ – http://www.princetonastronomy.org/
Apr 17: “NASA and the Road to Mars Human Spaceflight programs”- 1:30 PM at Washington Crossing State Park, Nature Center, Titusville, NJ – http://www.state.nj.us/dep/parksandforests/parks/washcros.html