Recovered SpaceX Falcon 9 Booster Moves Back to KSC for Eventual Reflight

Up close view of base of recovered SpaceX Falcon 9 first stage rocket powered by 9 Merlin 1 D engines being transported horizontally back to SpaceX processing hanger at the Kennedy Space Center from Port Canaveral, Florida storage and processing facility on April 19, 2016. Credit: Julian Leek
Up close view of base of recovered SpaceX Falcon 9 first stage rocket powered by 9 Merlin 1 D engines being transported horizontally back to SpaceX processing hanger at the Kennedy Space Center from Port Canaveral, Florida storage and processing facility on April 19, 2016. Credit: Julian Leek
Up close view of base of recovered SpaceX Falcon 9 first stage rocket powered by 9 Merlin 1 D engines being transported horizontally back to SpaceX processing hanger at the Kennedy Space Center from Port Canaveral, Florida storage and processing facility on April 19, 2016. Note: landing legs were removed. Credit: Julian Leek

The recovered SpaceX Falcon 9 first stage booster that successfully carried out history’s first upright touchdown from a just flown rocket onto a droneship at sea, has just been moved back to the firms processing hanger at the Kennedy Space Center (KSC) for testing and eventual reflight.

Space photographers and some lucky tourists coincidentally touring through Cape Canaveral Air Force Station in the right place at the right time on a tour bus, managed to capture exquisite up close images and videos (shown above and below) of the rockets ground transport on Tuesday, April 19, along the route from its initial staging point at Port Canaveral to a secure area on KSC.

It was quite a sight to the delight of all who experienced this remarkable moment in space history – that could one day revolutionize space flight by radically slashing launch costs via recycled rockets.

The boosters nine first stage Merlin 1 D engines were wrapped in a protective sheath during the move as seen in the up close imagery.

Recovered SpaceX Falcon 9 first stage rocket was transported horizontally back to SpaceX processing hanger at the Kennedy Space Center from Port Canaveral, Florida storage and processing facility on April 19, 2016. Credit: Julian Leek
Recovered SpaceX Falcon 9 first stage rocket was transported horizontally back to SpaceX processing hanger at the Kennedy Space Center from Port Canaveral, Florida storage and processing facility on April 19, 2016. Credit: Julian Leek

The SpaceX Falcon 9 had successfully conducted a dramatic propulsive descent and soft landing on a barge some 200 miles offshore in the Atlantic Ocean on April 8, about 9 minutes after blasting off from Cape Canaveral Air Force Station at 4:43 p.m. EDT on the Dragon CRS-8 cargo mission for NASA to the International Space Station (ISS).

The used Falcon 9 booster then arrived back into Port Canaveral, Florida four days later, overnight April 12, after being towed atop the ocean going platform that SpaceX dubs an ‘Autonomous Spaceport Drone Ship’ or ASDS.

The spent 15 story tall Falcon 9 booster was transported to KSC by Beyel Bros. Crane and Rigging, starting around 9:30 a.m.

Recovered SpaceX Falcon 9 first stage rocket was transported horizontally back to SpaceX processing hanger at the Kennedy Space Center from Port Canaveral, Florida storage and processing facility on April 19, 2016. Credit: Julian Leek
Recovered SpaceX Falcon 9 first stage rocket was transported horizontally back to SpaceX processing hanger at the Kennedy Space Center from Port Canaveral, Florida storage and processing facility on April 19, 2016. Credit: Julian Leek

After initial cleaning and clearing of hazards and processing to remove its four landing legs at the Port facility, the booster was carefully lowered by crane horizontally into a retention cradle on a multiwheel combination Goldhofer/KMAG vehicle and hauled by Beyel to KSC with a Peterbilt Prime Mover truck.

The Falcon 9 was moved to historic Launch Complex 39A at KSC for processing inside SpaceX’s newly built humongous hanger located at the pad perimeter.

Indeed this Falcon 9 first stage is now residing inside the pad 39A hanger side by side with the only other flown rocket to be recovered; the Falcon 9 first stage that accomplished a land landing back at the Cape in December 2015 – as shown in this image from SpaceX CEO Elon Musk titled “By land and sea”.

Side by side SpaceX Falcon 9 first stages recovered ‘by land and sea’ in Dec 2015 and Apr 2016. Credit: SpaceX/Elon Musk
Side by side SpaceX Falcon 9 first stages recovered ‘by land and sea’ in Dec 2015 and Apr 2016. Credit: SpaceX/Elon Musk

Watch this video of the move taken from a tour bus:

SpaceX engineers plan to conduct a series of some 12 test firings of the first stage Merlin 1 D engines to ensure all is well operationally in order to validate that the booster can be re-launched.

It may be moved back to Space Launch Complex-40 for the series of painstakingly inspections, tests and refurbishment.

The nine Merlin 1 D engines that power SpaceX Falcon 9 are positioned in an octoweb arrangement, as shown in this up close view of the base of recovered first stage during transport to Kennedy Space Center pad 39 A from Port Canaveral, Florida on April 19, 2016. Credit: Julian Leek
The nine Merlin 1 D engines that power SpaceX Falcon 9 are positioned in an octoweb arrangement, as shown in this up close view of the base of recovered first stage during transport to Kennedy Space Center pad 39 A from Port Canaveral, Florida on April 19, 2016. Credit: Julian Leek

SpaceX hopes to refly the recovered booster in a few months, perhaps as early as this summer.

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 essential next step after recovery is recycling. Musk said he hopes to re-launch the booster this year.

Whenever it happens, it will count as the first relaunch of a used rocket in history.

SpaceX has leased Pad 39A from NASA and is renovating the facilities for future launches of the existing upgraded Falcon 9 as well as the Falcon Heavy currently under development.

SpaceX Crew Dragon will blast off atop a Falcon 9 rocket from Launch Pad 39A at NASA's Kennedy Space Center in Florida  for missions to the International Space Station. Pad 39A is  undergoing modifications by SpaceX to adapt it to the needs of the company's Falcon 9 and Falcon Heavy rockets, which are slated to lift off from the historic pad in the near future. A horizontal integration facility (right) has been constructed near the perimeter of the pad where rockets will be processed for launch prior of rolling out to the top of the pad structure for liftoff. Credit: Ken Kremer/Kenkremer.com
SpaceX Crew Dragon will blast off atop a Falcon 9 rocket from Launch Pad 39A at NASA’s Kennedy Space Center in Florida for missions to the International Space Station. Pad 39A is undergoing modifications by SpaceX to adapt it to the needs of the company’s Falcon 9 and Falcon Heavy rockets, which are slated to lift off from the historic pad in the near future. A horizontal integration facility (right) has been constructed near the perimeter of the pad where rockets will be processed for launch prior of rolling out to the top of the pad structure for liftoff. Credit: Ken Kremer/Kenkremer.com

Landing on the barge was a secondary goal of SpaceX and not part of the primary mission sending science experiments and cargo to the ISS crew under a resupply contract with for NASA.

Watch this SpaceX Falcon 9/Dragon CRS-8 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

Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.

Ken Kremer

Space Station Gets Experimental New Room with Installation of BEAM Expandable Habitat

Robotic arm attaches BEAM inflatable habitat module to International Space Station on April 16, 2016. Credit: NASA/Tim Kopra
Robotic arm attaches BEAM inflatable habitat module to International Space Station on April 16, 2016. Credit: NASA/Tim Kopra
Robotic arm attaches BEAM inflatable habitat module to International Space Station on April 16, 2016. Credit: NASA/Tim Kopra

The International Space Station (ISS) grew in size today, April 16, following the successful installation of an experimental new room – the BEAM expandable habitat module.

Engineers at NASA’s Johnson Space Center in Houston used the space station’s high tech robotic arm to pluck the small module known as the Bigelow Expandable Activity Module (BEAM) out from the unpressurized rear truck section of the recently arrived SpaceX Dragon cargo freighter, and added it onto the orbiting laboratory complex.

BEAM was manufactured by Las Vegas-based Bigelow Aerospace under a $17.8 million contract with NASA. It will remain joined to the station for at least a two-year test period.

The 3115 pound (1413 kg) BEAM will test the use of an expandable space habitat in microgravity with humans for the first time.

It was extracted from the Dragon’s trunk overnight with the robotic Canadarm2 and then installed on the aft port of the Tranquility module at 5:36 a.m. EDT over a period of about 4 hours. The station was flying over the Southern Pacific Ocean at the moment of berthing early Saturday.

NASA astronaut and ISS Expedition 47 crew member Tim Kopra snapped a super cool photo of BEAM in transit, shown above.

BEAM module after installation on the ISS Tranquility module on April 16, 2016.  Credit: NASA
BEAM module after installation on the ISS Tranquility module on April 16, 2016. Credit: NASA

BEAM was carried to orbit in a compressed form inside the Dragon’s truck following the April 8 blast off from Cape Canaveral Air Force Station at 4:43 p.m. EDT on the Dragon CRS-8 resupply mission for NASA to the ISS.

BEAM is a prototype inflatable habitat that could revolutionize the method of construction of future habitable modules intended for use both in Low Earth Orbit (LEO) as well as for deep space expeditions Beyond Earth Orbit (BEO) to destinations including the Moon, Asteroids and Mars.

The advantage of expandable habitats is that they offer a much better volume to weight ratio compared to standard rigid metallic structures such as all of the current ISS pressurized modules.

It is constructed of lighter weight reinforced fabric rather that metal. This counts as the first test of an expandable module and investigators want to determine how it fares with respect to protection again solar radiation, space debris and the temperature extremes of space.

Furthermore they also take up much less space inside the payload fairing of a rocket during launch.

Watch this animation showing how Canadarm2 transports BEAM from the Dragon spacecraft to a side berthing port on Tranquility where it will soon be expanded.

Animation shows how the International Space Station robotic arm will transport BEAM from the Dragon spacecraft to a side berthing port on the Harmony module where it will then be expanded.  Credit: NASA
Animation shows how the International Space Station robotic arm will transport BEAM from the Dragon spacecraft to a side berthing port on the Tranquility module where it will then be expanded. Credit: NASA

Current plans call for the module to be expanded in late May with air. It will expand to nearly five times from its compressed size of 8 feet in diameter by 7 feet in length to roughly 10 feet in diameter and 13 feet in length. Once inflated it will provide 565 cubic feet (16 m3) of habitable volume.

Exactly how it will expand is also an experiment and could happen in multiple ways. Therefore the team will exercise great caution and carefully monitor the inflation and check for leaks.

The Bigelow Expandable Activity Module, or BEAM, is attached to the International Space Station early on April 16, 2016.  Credit: NASA
The Bigelow Expandable Activity Module, or BEAM, is attached to the International Space Station early on April 16, 2016. Credit: NASA

The astronauts will first enter BEAM about a week after the expansion. Thereafter they will visit it about 2 or 3 times per year for several hours to retrieve sensor data and assess conditions, say NASA officials.

Visits could perhaps occur even frequently more if NASA approves. says Bigelow CEO Robert Bigelow.

BEAM is an extraordinary test bed in itself.

This computer rendering depicts the Canadarm2 robotic arm removing BEAM from the back of the Space X Dragon spacecraft.  Credit: NASA
This computer rendering depicts the Canadarm2 robotic arm removing BEAM from the back of the Space X Dragon spacecraft. Credit: NASA

But Robert Bigelow hopes that BEAM can be used to conduct science experiments after maybe a six month shakedown cruise, if all goes well, and NASA approves a wider usage.

Bigelow Aerospace has already taken in the next step in expandable habitats.

Earlier this week, Bigelow and rocket builder United Launch Alliance (ULA) announced they are joining forces to develop and launch the B330 expandable commercial habitat module in 2020 on an Atlas V. It is about 20 times larger and far more capable. Details in my story here.

Robert Bigelow says he hopes that NASA will approve docking of the B330 at the ISS.

This artist’s concept depicts the Bigelow Expandable Activity Module attached to the International Space Station’s Tranquility module. Credits: Bigelow Aerospace
This artist’s concept depicts the Bigelow Expandable Activity Module attached to the International Space Station’s Tranquility module.
Credits: Bigelow Aerospace

The SpaceX Dragon spacecraft delivered almost 7,000 pounds of cargo.

CRS-8 counts as the company’s eighth flight to deliver supplies, science experiments and technology demonstrations to the ISS for the crews of Expeditions 47 and 48 to support dozens of the approximately 250 science and research investigations in progress.

Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.

Ken Kremer

………….

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 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

Sensational Photos Show ‘Super Smooth’ Droneship Touchdown of SpaceX Falcon 9 Booster – SpaceX VP

Remote camera photo from "Of Course I Still Love You" droneship of SpaceX Falcon 9 first stage landing following launch of Dragon cargo ship to ISS on CRS-8 mission. Credit: SpaceX
Remote camera photo from "Of Course I Still Love You" droneship of SpaceX Falcon 9 first stage landing following launch of Dragon cargo ship to ISS on CRS-8 mission. Credit: SpaceX
Remote camera photo from “Of Course I Still Love You” droneship of SpaceX Falcon 9 first stage landing following launch of Dragon cargo ship to ISS on CRS-8 mission. Credit: SpaceX

SpaceX has released a slew of up close photos showing the sensational “super smooth” touchdown last week of a Falcon 9 booster on a tiny droneship at sea located several hundred miles (km) off the East coast of Florida.

“This time it really went super smooth,” Hans Koenigsmann, SpaceX VP of Flight Reliability, told Universe Today at the NorthEast Astronomy and Space Forum (NEAF) held in Suffern, NY. “The rest is history almost.”

The dramatic propulsive descent and soft landing of the SpaceX Falcon 9 first stage took place last Friday, April 8 about 9 minutes after blasting off from Cape Canaveral Air Force Station at 4:43 p.m. EDT on the Dragon CRS-8 resupply mission for NASA to the International Space Station (ISS).

The breathtaking new photos show the boosters central Merlin 1D engine refiring to propulsively slow the first stage descent with all four landing legs unfurled and locked in place at the bottom and all four grid fins deployed at the top.

Why did it all go so well, comparing this landing to the prior attempts? Basically the return trajectory was less challenging due to the nature of the NASA payload and launch trajectory.

“We were more confident about this droneship landing,” Koenigsmann said at NEAF.

“I knew the trajectory we had [for CRS-8] was more benign, although not super benign. But certainly benigner than for what we had before on the SES-9 mission, the previous one. The [droneship] landing trajectory we had for the previous one on SES-9 was really challenging.”

“This one was relatively benign. It was really maybe as benign as for the Orbcomm launch [in December 2015] where we had the land landing.”

Read my Orbcomm story here about history’s first ever successful land landing of a spent SpaceX Falcon 9 booster.

Timelapse sequence shows dramatic landing of SpaceX Falcon 9 first stage on "Of Course I Still Love You" droneship as captured by remote camera on 8 April 2016. Credit: SpaceX
Timelapse sequence shows dramatic landing of SpaceX Falcon 9 first stage on “Of Course I Still Love You” droneship as captured by remote camera on 8 April 2016. Credit: SpaceX

The diminutive ocean landing platform measures only about 170 ft × 300 ft (52 m × 91 m). SpaceX formally dubs it an ‘Autonomous Spaceport Drone Ship’ or ASDS.

The ocean going ship is named “Of Course I Still Love You” after a starship from a novel written by Iain M. Banks.

It was stationed some 200 miles off shore of Cape Canaveral, Florida surrounded by the vastness of the Atlantic Ocean.

Remote camera photo from "Of Course I Still Love You" droneship of Falcon 9 first stage landing following launch of Dragon cargo ship to ISS on CRS-8 mission on 8 April 2016. Credit: SpaceX
Remote camera photo from “Of Course I Still Love You” droneship of Falcon 9 first stage landing following launch of Dragon cargo ship to ISS on CRS-8 mission on 8 April 2016. Credit: SpaceX

“The CRS-8 launch was one of the easiest ones we ever had.”

The revolutionary rocket recovery event counts as the first successful droneship landing of a rocket in history and is paving the way towards eventual rocket recycling aimed at dramatically slashing the cost of access to space.

The final moments of the 15 story tall boosters approach and hover landing was captured up close in stunning high resolution imagery recorded by multiple remote cameras set up right on the ocean going platform by SpaceX photographer Ben Cooper.

Landing the booster on land rather than at sea was actually an option this time around. But SpaceX managers wanted to try and nail a platform at sea landing to learn more and validate their calculations and projections.

“As Elon Musk said at the post-landing press conference of Friday, we could have actually come back to land- to land this one on land,” Koenigsmann elaborated.

“But we decided to land on the drone ship first to make sure that on the droneship we had worked everything out!”

“And that’s exactly what happened. So I felt this was only going out a little bit on the limb,” but not too much.”

Remote camera photo from "Of Course I Still Love You" droneship of Falcon 9 first stage landing following launch of Dragon cargo ship to ISS on CRS-8 mission on 8 April 2016. Credit: SpaceX
Remote camera photo from “Of Course I Still Love You” droneship of Falcon 9 first stage landing following launch of Dragon cargo ship to ISS on CRS-8 mission on 8 April 2016. Credit: SpaceX

Before the CRS-8 launch, Koenigsmann had rated the chances of a successful landing recovery rather high.

Three previous attempts by SpaceX to land on a droneship at sea were partially successful, as the stage made a pinpoint flyback to the tiny droneship, but it either hit too hard or tipped over in the final moments when a landing leg failed to fully deploy or lock in place.

“Everything went perfect with the launch,” Koengismann said. “We just still have to do the post launch data review.”

“I am really glad this went well.”

Droneship touchdown of SpaceX Falcon 9 first stage on "Of Course I Still Love You" as captured by remote camera on 8 April 2016. Credit: SpaceX
Droneship touchdown of SpaceX Falcon 9 first stage on “Of Course I Still Love You” as captured by remote camera on 8 April 2016. Credit: SpaceX

This recovered Falcon 9 booster finally arrived back into Port Canaveral, Florida four days later in the early morning hours of Tuesday, April 12 at about 1:30 a.m. EDT.

Recovered SpaceX Falcon 9 rocket moved by crane from drone ship to an upright storage cradle on land at Port Canaveral,  Florida on April 12, 2016.  Credit: Julian Leek
Recovered SpaceX Falcon 9 rocket moved by crane from drone ship to an upright storage cradle on land at Port Canaveral, Florida on April 12, 2016. Credit: Julian Leek

The primary goal of the Falcon 9 launch on April 8 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).

Dragon arrived at the station on Sunday, April 10, loaded with 3 tons of supplies, science experiments and the BEAM experimental expandable module.

Landing on the barge was a secondary goal of SpaceX and not part of the primary mission for NASA.

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 recovered booster will be cleaned and defueled, says SpaceX spokesman John Taylor.

SpaceX engineers will conduct a series of 12 test firings to ensure all is well operationally and that the booster can be re-launched.

SpaceX hopes to refly the recovered booster in a few months, perhaps as early as this summer.

Droneship touchdown of SpaceX Falcon 9 first stage on "Of Course I Still Love You" as captured by remote camera on 8 April 2016. Credit: SpaceX
Droneship touchdown of SpaceX Falcon 9 first stage on “Of Course I Still Love You” as captured by remote camera on 8 April 2016. Credit: SpaceX

Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.

Ken Kremer

………….

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 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

SpaceX Falcon 9 booster successfully lands on droneship after blastoff on Dragon CRS-8 mission to ISS for NASA on April 8, 2016.  Credit: SpaceX
SpaceX Falcon 9 booster successfully lands on droneship after blastoff on Dragon CRS-8 mission to ISS for NASA on April 8, 2016. Credit: SpaceX
Hans Koenigsmann, SpaceX VP of Flight Reliability at NorthEast Astronomy and Space Forum, NY, discusses SpaceX Falcon 9 and Dragon launches. Credit: Ken Kremer/kenkremer.com
Hans Koenigsmann, SpaceX VP of Flight Reliability at NorthEast Astronomy and Space Forum, NY, discusses SpaceX Falcon 9 and Dragon launches. Credit: Ken Kremer/kenkremer.com

Bigelow and ULA Partner to Launch Commercial Space Habitat in 2020

Interior schematic view of Bigelow Aerospace B330 expandable module. Credit: Bigelow Aerospace
Interior schematic view of Bigelow Aerospace B330 expandable module. Credit: Bigelow Aerospace
 Interior schematic view of Bigelow Aerospace B330 expandable module. Credit: Bigelow Aerospace

Interior schematic view of Bigelow Aerospace B330 expandable module. Credit: Bigelow Aerospace

Bigelow Aerospace and United Launch Alliance (ULA) announced they are joining forces to develop and launch the world’s first commercial space habitat to Low Earth Orbit (LEO) by 2020 – potentially as a huge and revolutionary new addition to the International Space Station (ISS).

The expandable habitat will be based on the Bigelow Aerospace B330 module and would be carried to orbit on the most powerful version of ULA’s venerable Atlas V rocket.

Robert Bigelow, founder and president of Bigelow Aerospace, and Tory Bruno, ULA president and CEO announced the partnership on the fully commercial space habitat during a joint media briefing held at the 32nd Space Symposium in Colorado Springs, Colorado on April 11.

“We could not be more pleased than to partner with Bigelow Aerospace and reserve a launch slot on our manifest for this revolutionary mission,” said Tory Bruno, ULA president and CEO.

The B330 boasts an interior volume of 330 cubic meters (12,000 cu ft). It measures 57 feet (17.3 m) in length, weighs 20 tons and offers a design life span of 20 years.

If NASA agrees to attach the B330 to the ISS, the stations habitable volume would grow by a whopping 30% in one giant step.

“The alliance represents the first-ever commercial partnership between a launch provider and a habitat provider,” according to ULA.

The advantage of expandable habitats is that they offer a much better volume to weight ratio compared to standard rigid structures, such as all of the current ISS pressurized modules.

The station based B330 concept is named XBASE or Expandable Bigelow Advanced Station Enhancement.

Schematic of the Bigelow Aerospace B330 expandable module tucked inside the fairing of a ULA ?AtlasV? 552 rocket.  Credit: ULA
Schematic of the Bigelow Aerospace B330 expandable module tucked inside the fairing of a ULA Atlas V 552 rocket. Credit: ULA

The additional volume would enable a significant increase in the orbiting outposts ability to support research and development operations and manufacturing processes for NASA and commercial users.

Bigelow further views the B330 and follow on modules as a potential destination for space tourism and a beneficial component for human missions to the Moon and Mars.

“We are exploring options for the location of the initial B330 including discussions with NASA on the possibility of attaching it to the International Space Station (ISS),” said Robert Bigelow, founder and president of Bigelow Aerospace.

“In that configuration, the B330 will enlarge the station’s volume by 30% and function as a multipurpose testbed in support of NASA’s exploration goals as well as provide significant commercial opportunities. The working name for this module is XBASE or Expandable Bigelow Advanced Station Enhancement.”

Bigelow said his firm plans to build two B330 modules by 2020.

The B330 would be tucked inside the cavernous payload fairing of the Atlas V which would launch in the 552 configuration with 5 meter diameter fairing with 5 solid rocket booster attached to the first stage and a dual engine Centaur second stage.

Launch of Bigelow B330 expandable habitat module tucked inside ULA Atlas V payload fairing. Credit: ULA
Launch of Bigelow B330 expandable habitat module tucked inside ULA Atlas V payload fairing. Credit: ULA

“When looking for a vehicle to launch our large, unique spacecraft, ULA provides a heritage of solid mission success, schedule certainty and a cost effective solution,” says Bigelow.

The SpaceX falcon 9 fairing is not big enough to house the B330.

“SpaceX, they do not have the capability with the fairing size that is necessary to accommodate the B330. So that is not even a choice,” Bigelow stated.

The B330 partnership announcement follows hot on the heels of last weeks successful launch of Bigelow’s experimental BEAM expandable module on a SpaceX Falcon 9 rocket on a mission to the ISS on April 8.

The Bigelow Expandable Activity Module (BEAM) is an experimental expandable capsule that attaches to the space station.  Credits: Bigelow Aerospace, LLC
The Bigelow Expandable Activity Module (BEAM) is an experimental expandable capsule that attaches to the space station. Credits: Bigelow Aerospace, LLC

BEAM is tucked inside the rear truck section of the SpaceX Dragon now berthed at the station. It will soon be attached to a side port on the Harmony module.

“This innovative and game-changing advance will dramatically increase opportunities for space research in fields like materials, medicine and biology,” said Bruno.

“It enables destinations in space for countries, corporations and even individuals far beyond what is available today, effectively democratizing space. We can’t begin to imagine the future potential of affordable real estate in space.”

The B330 could also function as a free flyer but would work best at the station, Bigelow noted at the briefing.

Both of the commercial space taxis being developed under NASA’s commercial crew program (CCP) could dock at the B330; the Boeing Starliner and the SpaceX crew Dragon, Bigelow stated.

Multiple B330 modules could also be joined together in orbit to form a free flying commercial space station.

United Launch Alliance Atlas V rocket – powered by Russian made RD-180 engines – and Super Secret NROL-67 intelligence gathering payload poised for launch at Space Launch Complex 41 at Cape Canaveral Air Force Station, FL, in March 2014.  Credit: Ken Kremer – kenkremer.com
File photo of Atlas V rocket in with 5 meter diameter payload fairing and 5 solid rocket boosters following rollout to Space Launch Complex 41 at Cape Canaveral Air Force Station, FL. Credit: Ken Kremer – kenkremer.com

Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.

Ken Kremer

………….

Learn more about SpaceX, ULA, commercial space, NASA Mars rovers, Orion, SLS, ISS, Orbital ATK, Boeing, Space Taxis, NASA missions and more at Ken’s upcoming outreach events:

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

SpaceX Falcon 9 Recovered 1st Stage Arrives Back in Port After Historic Upright Landing at Sea

Recovered SpaceX Falcon 9 rocket arrives back in port overnight at Port Canaveral, Florida on April 12, 2016 following successful launch and landing on April 8 from Cape Canaveral Air Force Station. Credit: Julian Leek
Recovered SpaceX Falcon 9 rocket arrives back in port overnight at Port Canaveral, Florida on April 12, 2016 following successful launch and landing on April 8 from Cape Canaveral Air Force Station.  Credit: Julian Leek
Recovered SpaceX Falcon 9 rocket arrives back in port overnight at Port Canaveral, Florida on April 12, 2016 following successful launch and landing on April 8 from Cape Canaveral Air Force Station. Credit: Julian Leek

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.

Recovered SpaceX Falcon 9 rocket arrives back in port overnight at Port Canaveral, Florida on April 12, 2016 following successful launch from and landing on April 8 from Cape Canaveral Air Force Station.  Credit: Julian Leek
Recovered SpaceX Falcon 9 rocket arrives back in port overnight at Port Canaveral, Florida on April 12, 2016 following successful launch and landing on April 8 from Cape Canaveral Air Force Station. Credit: Julian Leek

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.

Recovered SpaceX Falcon 9 rocket moved by crane from drone ship to an upright storage cradle on land at Port Canaveral,  Florida on April 12, 2016.  Credit: Julian Leek
Recovered SpaceX Falcon 9 rocket moved by crane from drone ship to an upright storage cradle on land at Port Canaveral, Florida on April 12, 2016. Credit: Julian Leek

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.

Recovered SpaceX Falcon 9 rocket arrives back in port overnight at Port Canaveral, Florida on April 12, 2016 following successful launch from and landing on April 8 from Cape Canaveral Air Force Station.  Credit: SpaceX
Recovered SpaceX Falcon 9 rocket arrives back in port overnight at Port Canaveral, Florida on April 12, 2016 following successful launch and landing on April 8 from Cape Canaveral Air Force Station. Credit: SpaceX

Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.

Ken Kremer

………….

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

SpaceX Dragon Carrying New Inflatable Room Captured and Mated to Space Station

SpaceX Dragon CRS-8 over Africa coming in for the approach to the ISS. Credit: NASA/Tim Kopra/@astro_tim
SpaceX Dragon CRS-8 over Africa coming in for the approach to the ISS.  Credit: NASA/Tim Kopra/@astro_tim
SpaceX Dragon CRS-8 over Africa coming in for the approach to the ISS. Credit: NASA/Tim Kopra/@astro_tim

A SpaceX commercial cargo freighter jam packed with more than three and a half tons of research experiments, essential crew supplies and a new experimental inflatable habitat reached the International Space Station (ISS) and the gleeful multinational crew of six astronauts and cosmonauts on Sunday, April 10.

The U.S. SpaceX Dragon cargo craft arrived at the ISS following a carefully choreographed orbital chase inaugurated by a spectacular launch atop an upgraded SpaceX Falcon 9 rocket from Cape Canaveral Air Force Station, Florida, on Friday, April 8.

As the massive Earth orbiting outpost was soaring some 250 miles (400 kilometers) over the Pacific Ocean west of Hawaii, British astronaut Tim Peake of ESA (European Space Agency), with the able assistance of NASA’s Jeff Williams, successfully captured the SpaceX Dragon CRS-8 resupply ship with the station’s Canadian-built robotic arm.

Peake painstakingly maneuvered and deftly grappled Dragon with the snares at the terminus of the 57 foot long (19 meter long) Canadarm2 at 7:23 a.m. EDT for installation on the million pound orbital lab complex.

“Looks like we’ve caught a Dragon,” Peake radioed back to Mission Control. The orbital operational was webcast live on NASA TV.

“Awesome capture by crewmate Tim Peake,” said fellow NASA crewmate Tim Kopra who snapped a series of breathtaking images of the approach and capture.

Final Approach for @SpaceXDragon before an awesome capture by crewmate @Astro_TimPeake! Credit: NASA/Tim Kopra/@astro_tim
Final Approach for @SpaceXDragon before an awesome capture by crewmate @Astro_TimPeake! Credit: NASA/Tim Kopra/@astro_tim

Ground controllers at Mission Control in Houston then issued commands to carefully guide the robotic arm holding the Dragon freighter to the Earth-facing port on the bottom side of the Harmony module for its month long stay at the space station.

The ship was finally bolted into place at 9:57 a.m. EDT as the station flew 250 miles (400 km) over southern Algeria.

Watch this NASA video compiling all the highlights of the arrival and mating of the SpaceX Dragon on April 10, 2016 carrying the BEAM habitat module and 3.5 tons of science and supplies. Credit: NASA

Expedition 47 crew members Jeff Williams and Tim Kopra of NASA, Tim Peake of ESA (European Space Agency) and cosmonauts Yuri Malenchenko, Alexey Ovchinin and Oleg Skripochka of Roscosmos are currently living aboard the orbiting laboratory.

In a historic first, the arrival of the SpaceX Dragon cargo spacecraft marks the first time that two American cargo ships are simultaneously docked to the ISS. The Orbital ATK Cygnus CRS-6 cargo freighter only just arrived on March 26 and is now installed at a neighboring docking port on the Unity module.

The SpaceX Dragon is seen shortly after it was mated to the Harmony module. The Cygnus cargo craft with its circular solar arrays and the Soyuz TMA-19M spacecraft (bottom right) are also seen in this view. Credit: NASA TV
The SpaceX Dragon is seen shortly after it was mated to the Harmony module. The Cygnus cargo craft with its circular solar arrays and the Soyuz TMA-19M spacecraft (bottom right) are also seen in this view. Credit: NASA TV

Cygnus was launched to the ISS atop a ULA Atlas V barely two weeks earlier on March 22 – as I reported on and witnessed from the Kennedy Space Center press site.

“With the arrival of Dragon, the space station ties the record for most vehicles on station at one time – six,” say NASA officials.

The Dragon spacecraft is delivering almost 7,000 pounds of cargo, including the Bigelow Expandable Activity Module (BEAM), to the orbital laboratory which was carried to orbit inside the Dragon’s unpressurized truck section.

BEAM is a prototype inflatable habitat that the crew will soon pluck from the Dragon’s truck with the robotic arm for installation on a side port of the Harmony module.

The Bigelow Expandable Activity Module (BEAM) is an experimental expandable capsule that attaches to the space station.  Credits: Bigelow Aerospace, LLC
The Bigelow Expandable Activity Module (BEAM) is an experimental expandable capsule that attaches to the space station. Credits: Bigelow Aerospace, LLC

CRS-8 counts as the company’s eighth flight to deliver supplies, science experiments and technology demonstrations to the ISS for the crews of Expeditions 47 and 48 to support dozens of the approximately 250 science and research investigations in progress.

Friday’s launch marks the first for a Dragon since the catastrophic failure of the SpaceX Falcon 9 last June.

Dragon will remain at the station until it returns for Earth on May 11 for a parachute assisted splash down in the Pacific Ocean off the west coast of Baja California. It will be packed with almost 3,500 pounds off cargo and numerous science samples, including those biological samples collected by 1 year ISS crew member Scott Kelly, for return to investigators, hardware and spacewalking tools, some additional broken hardware for repair and some items of trash for disposal.

Video caption: 5 camera views of the SpaceX Falcon 9 launch of the CRS-8 mission to the ISS on 04/08/2016. Credit: Jeff Seibert/AmericaSpace

Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.

Ken Kremer

………….

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

SpaceX Launches to ISS with BEAM Habitat Prototype and Lands First Stage At Sea

SpaceX Falcon 9 rocket with a Dragon cargo spacecraft launches on April 8, 2015 from Space Launch Complex 40 at Cape Canaveral Air Force Station on the CRS-8 mission to the International Space Station. Credit: Julian Leek
SpaceX Falcon 9 rocket with a Dragon cargo spacecraft launches on April 8, 2015 from Space Launch Complex 40 at Cape Canaveral Air Force Station on the CRS-8 mission to the International Space Station.   Credit: Julian Leek
SpaceX Falcon 9 rocket with a Dragon cargo spacecraft launches on April 8, 2015 from Space Launch Complex 40 at Cape Canaveral Air Force Station on the CRS-8 mission to the International Space Station. Credit: Julian Leek

All around, today, April 8, was a great day for the future of space exploration. SpaceX successfully restarted their critical cargo flights for NASA to stock the International Space Station (ISS) with essential supplies and groundbreaking science experiments, while the innovative firm also successfully landed the first stage of their Falcon 9 rocket on a barge at sea.

The triumphant ‘Return to Flight’ launch of the upgraded SpaceX Falcon 9 with the Dragon CRS-8 cargo freighter was the primary goal of Friday’s launch and validated the hardware fixes put in place following the catastrophic failure of the previous Dragon CRS-7 cargo ship two minutes after liftoff on June 28, 2015 due to a faulty strut in the boosters second stage.

Landing the booster safely on a drone ship at sea was the secondary goal of the flight but is critical towards achieving the vision of rocket recovery and reusability at the heart of SpaceX Founder Elon Musk’s dream of slashing the cost of access to space and one day establishing a ‘City on Mars.”

The weather was fantastic in the sunshine state as the two stage SpaceX Falcon 9 rocket boasting over 1.3 million pounds of thrust launched on time Friday at 4:43 p.m. EDT from Space Launch Complex 40 at Cape Canaveral Air Force Station in Florida.

SpaceX Falcon 9 rocket with a Dragon spacecraft launches on April 8, 2015 from Space Launch Complex 40 at Cape Canaveral Air Force Station on the CRS-8 mission to the International Space Station.   Credits: NASA
SpaceX Falcon 9 rocket with a Dragon spacecraft launches on April 8, 2015 from Space Launch Complex 40 at Cape Canaveral Air Force Station on the CRS-8 mission to the International Space Station. Credits: NASA

The Dragon spacecraft is delivering almost 7,000 pounds of cargo, including the Bigelow Expandable Activity Module (BEAM), to the orbital laboratory.

Friday’s launch marks the first for a Dragon since the catastrophic failure of the SpaceX Falcon 9 last June.

CRS-8 counts as the company’s eighth flight to deliver supplies, science experiments and technology demonstrations to the ISS for the crews of Expeditions 47 and 48 to support dozens of the approximately 250 science and research investigations in progress.

Packed aboard the Dragon’s unpressurized trunk section is the experimental Bigelow Expandable Activity Module (BEAM) – an experimental expandable capsule that the crew will attach to the space station. The 3115 pound (1413 kg) BEAM will test the use of an expandable space habitat in microgravity. BEAM will expand to roughly 13-feet-long and 10.5 feet in diameter after it is installed.

Among the new experiments arriving to the station will be Veggie-3 to grow Chinese lettuce in microgravity as a followup to Zinnias recently grown, an investigation to study muscle atrophy and bone loss in space, using microgravity to seek insight into the interactions of particle flows at the nanoscale level and use protein crystal growth in microgravity to help in the design of new drugs to fight disease, as well as reflight of 25 student experiments from Student Spaceflight Experiments Program (SSEP) Odyssey II payload that were lost during the CRS-7 launch failure.

“The cargo will allow investigators to use microgravity conditions to test the viability of expandable space habitats, assess the impact of antibodies on muscle wasting, use protein crystal growth to aid the design of new disease-fighting drugs and investigate how microbes could affect the health of the crew and their equipment over a long duration mission,” said NASA Deputy Administrator Dava Newman.

SpaceX Falcon 9 rocket with a Dragon spacecraft streak to orbit after launch on April 8, 2015 from Space Launch Complex 40 at Cape Canaveral Air Force Station on the CRS-8 mission to the International Space Station. Julian Leek
SpaceX Falcon 9 rocket with a Dragon spacecraft streak to orbit after launch on April 8, 2015 from Space Launch Complex 40 at Cape Canaveral Air Force Station on the CRS-8 mission to the International Space Station. Credit: Julian Leek

Dragon reached its preliminary orbit about 10 minutes after launch and deployed its solar arrays as targeted and as seen on the live webcast. It now begins a carefully choreographed series of thruster firings to reach the space station.

After a 2 day orbital chase Dragon is set to arrive at the orbiting outpost on Sunday, April 10.

NASA astronaut Jeff Williams and ESA (European Space Agency) astronaut Tim Peake will then reach out with the station’s Canadian-built robotic arm to grapple and capture the Dragon spacecraft.

Ground commands will be sent from Houston to the station’s arm to install Dragon on the Earth-facing bottom side of the Harmony module for its stay at the space station. Live coverage of the rendezvous and capture will begin at 5:30 a.m. on NASA TV, with installation set to begin at 9:30 a.m.

In a historic first, the launch of a SpaceX Dragon cargo spacecraft sets the stage for the first time that two American cargo ships will be simultaneously attached to the ISS. The Orbital ATK Cygnus cargo freighter launched just launched on March 22 and arrived on March 26 at a neighboring docking port on the Unity module.

Dragon will remain at the station until it returns for Earth on May 11 for a parachute assisted splash down in the Pacific Ocean off the west coast of Baja California. It will be packed with almost 3,500 pounds off cargo and numerous science samples, including those biological samples collected by 1 year ISS crew member Scott Kelly, for return to investigators, hardware and spacewalking tools, some additional broken hardware for repair and some items of trash for disposal.

SpaceX Falcon 9 rocket with a Dragon spacecraft streaks to orbit after launch on April 8, 2015 from Space Launch Complex 40 at Cape Canaveral Air Force Station on the CRS-8 mission to the International Space Station. As seen from the Quality Inn Kennedy Space Center, Titusville, Fl.  Credit: Ashley Crouch
SpaceX Falcon 9 rocket with a Dragon spacecraft streaks to orbit after launch on April 8, 2015 from Space Launch Complex 40 at Cape Canaveral Air Force Station on the CRS-8 mission to the International Space Station. As seen from the Quality Inn Kennedy Space Center, Titusville, Fl. Credit: Ashley Crouch

SpaceX CRS-8 is the eighth of up to 20 missions to the ISS that SpaceX will fly for NASA under the Commercial Resupply Services (CRS) contract.

SpaceX Falcon 9 rocket with a Dragon cargo spacecraft launches on April 8, 2015 from Space Launch Complex 40 at Cape Canaveral Air Force Station on the CRS-8 mission to the International Space Station.   Credit: Julian Leek
SpaceX Falcon 9 rocket with a Dragon cargo spacecraft launches on April 8, 2015 from Space Launch Complex 40 at Cape Canaveral Air Force Station on the CRS-8 mission to the International Space Station. Credit: Julian Leek

Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.

Ken Kremer

………….

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 9/10: “NASA and the Road to Mars Human Spaceflight programs” and “Curiosity explores Mars” at NEAF (NorthEast Astronomy and Space Forum), 9 AM to 5 PM, Suffern, NY, Rockland Community College and Rockland Astronomy Club – http://rocklandastronomy.com/neaf.html

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

SpaceX Dragon Set for ‘Return to Flight’ Launch to ISS Apr. 8 – Watch Live

A Falcon 9 rocket with a Dragon spacecraft stand at Space Launch Complex 40 at Cape Canaveral Air Force Station before the CRS-8 mission to deliver experiments and supplies to the International Space Station. Credits: SpaceX
A Falcon 9 rocket with a Dragon spacecraft stand at Space Launch Complex 40 at Cape Canaveral Air Force Station before the CRS-8 mission to deliver experiments and supplies to the International Space Station.  Credits: SpaceX
A Falcon 9 rocket with a Dragon spacecraft stand at Space Launch Complex 40 at Cape Canaveral Air Force Station before the CRS-8 mission to deliver experiments and supplies to the International Space Station. Credits: SpaceX

The SpaceX Dragon is set for its ‘Return to Flight’ mission on Friday, April 8, packed with nearly 7000 pounds (3100 kg) of critical cargo and research experiments bound for the six-man crew working aboard the International Space Station.

Blastoff of the commercial SpaceX Falcon 9 carrying the Dragon CRS-8 resupply ship is slated for 4:43 p.m. EDT from Space Launch Complex 40 at Cape Canaveral Air Force Station in Florida.

The weather outlook looks great with a forecast of 90 percent “GO” and extremely favorable conditions at launch time of the upgraded, full thrust version of the SpaceX Falcon 9. The only concern is for winds.

The SpaceX/Dragon CRS-8 launch coverage will be broadcast on NASA TV beginning at 3:30 p.m. EDT with additional commentary on the NASA launch blog.

SpaceX also features a live webcast approximately 20 minutes before launch beginning at 4:23 p.m. EDT.

You can watch the launch live at NASA TV at – http://www.nasa.gov/nasatv

You can watch the launch live at SpaceX Webcast at – spacex.com/webcast

The launch window is instantaneous, meaning that any delays due to weather or technical issues will results in a minimum 1 day postponement.

A backup launch opportunity exists on Saturday, April 9, at 4:20 p.m. with NASA TV coverage starting at 3:15 p.m.

SpaceX most recently launched the upgraded Falcon 9 from the Cape on March 4, 2016 as I reported from onsite here.
Friday’s launch marks the first for a Dragon since the catastrophic failure of a SpaceX Falcon 9 rocket in flight last year on June 28, 2015 on the CRS-7 resupply mission.

CRS-8 counts as the company’s eighth flight to deliver supplies, science experiments and technology demonstrations to the ISS for the crews of Expeditions 47 and 48 to support dozens of the approximately 250 science and research investigations in progress.

Also packed aboard in the Dragon’s unpressurized trunk section is experimental Bigelow Expandable Activity Module (BEAM) – an experimental expandable capsule that the crew will attach to the space station. The 3115 pound (1413 kg) BEAM will test the use of an expandable space habitat in microgravity. BEAM will expand to roughly 13-feet-long and 10.5 feet in diameter after it is installed.

As a secondary objective, SpaceX will attempt to recover the Falcon 9 first stage by propulsively landing it on an ocean-going droneship barge stationed offshore in the Atlantic Ocean.

The Bigelow Expandable Activity Module (BEAM) is an experimental expandable capsule that attaches to the space station.  Credits: Bigelow Aerospace, LLC
The Bigelow Expandable Activity Module (BEAM) is an experimental expandable capsule that attaches to the space station. Credits: Bigelow Aerospace, LLC

Expedition 47 crew members Jeff Williams and Tim Kopra of NASA, Tim Peake of ESA (European Space Agency) and cosmonauts Yuri Malenchenko, Alexey Ovchinin and Oleg Skripochka of Roscosmos are currently living aboard the orbiting laboratory.

Dragon will reach its preliminary orbit about 10 minutes after launch. Then it will deploy its solar arrays and begin a carefully choreographed series of thruster firings to reach the space station.

After a 2 day orbital chase Dragon is set to arrive at the orbiting outpost on Sunday, April 10.

NASA astronaut Jeff Williams and ESA (European Space Agency) astronaut Tim Peake will then reach out with the station’s Canadian-built robotic arm to grapple and capture the Dragon spacecraft.

Ground commands will be sent from Houston to the station’s arm to install Dragon on the Earth-facing bottom side of the Harmony module for its stay at the space station. Live coverage of the rendezvous and capture will begin at 5:30 a.m. on NASA TV, with installation set to begin at 9:30 a.m.

In a historic first, the launch of a SpaceX Dragon cargo spacecraft sets the stage for the first time that two American cargo ships will be simultaneously attached to the ISS. The Orbital ATK Cygnus cargo freighter launched just launched on March 22 and arrived on March 26 at a neighboring docking port on the Unity module.

The Bigelow Expandable Activity Module (BEAM), developed for NASA by Bigelow Aerospace, is lifted into SpaceX's Dragon spacecraft for transport to the International Space Station when the spacecraft launches at 4:43 p.m. Friday, April 8, from Space Launch Complex 40 at Cape Canaveral Air Force Station (CCAFS) in Florida.  Credits: SpaceX
The Bigelow Expandable Activity Module (BEAM), developed for NASA by Bigelow Aerospace, is lifted into SpaceX’s Dragon spacecraft for transport to the International Space Station when the spacecraft launches at 4:43 p.m. Friday, April 8, from Space Launch Complex 40 at Cape Canaveral Air Force Station (CCAFS) in Florida. Credits: SpaceX

Among the new experiments arriving to the station will be Veggie-3 to grow Chinese lettuce in microgravity as a followup to Zinnias recently grown, an investigation to study muscle atrophy and bone loss in space, using microgravity to seek insight into the interactions of particle flows at the nanoscale level and use protein crystal growth in microgravity to help in the design of new drugs to fight disease, as well as reflight of 25 student experiments from Student Spaceflight Experiments Program (SSEP) Odyssey II payload that were lost during the CRS-7 launch failure.

Dragon will remain at the station until it returns to Earth on May 11 for a parachute assisted splash down in the Pacific Ocean off the coast of Baja California. It will be packed with numerous science samples, including those collected by 1 year crew member Scott Kelly, for return to investigators, some broken hardware for repair and some items of trash for disposal.

SpaceX CRS-8 is the eighth of up to 20 missions to the ISS that SpaceX will fly for NASA under the Commercial Resupply Services (CRS) contract.

Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.

Ken Kremer

………….

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 9/10: “NASA and the Road to Mars Human Spaceflight programs” and “Curiosity explores Mars” at NEAF (NorthEast Astronomy and Space Forum), 9 AM to 5 PM, Suffern, NY, Rockland Community College and Rockland Astronomy Club – http://rocklandastronomy.com/neaf.html

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

Patch for the SpaceX CRS-8 mission to the ISS. Credit: SpaceX
Patch for the SpaceX CRS-8 mission to the ISS. Credit: SpaceX
SpaceX Falcon 9 rocket exploded shortly after liftoff from Cape Canaveral Air Force Station, Florida on June 28, 2015. Credit: Ken Kremer/kenkremer.com
SpaceX Falcon 9 rocket exploded shortly after liftoff from Cape Canaveral Air Force Station, Florida on June 28, 2015. Credit: Ken Kremer/kenkremer.com
Ignition and liftoff of SpaceX Falcon 9 as umbilical’s fly away from rocket carrying SES-9 satellite to orbit from Cape Canaveral Air Force Station, FL on March 4, 2016. As seen from remote camera set near rocket on launch pad 40.  Credit: Ken Kremer/kenkremer.com
Ignition and liftoff of SpaceX Falcon 9 as umbilical’s fly away from rocket carrying SES-9 satellite to orbit from Cape Canaveral Air Force Station, FL on March 4, 2016. As seen from remote camera set near rocket on launch pad 40. Credit: Ken Kremer/kenkremer.com

SpaceX Falcon 9 Dazzles with Dramatic SES-9 Sunset Launch – Photo/Video Gallery

Ignition and liftoff of SpaceX Falcon 9 as umbilical’s fly away from rocket carrying SES-9 satellite to orbit from Cape Canaveral Air Force Station, FL on March 4, 2016. As seen from remote camera set near rocket on launch pad 40. Credit: Ken Kremer/kenkremer.com
Ignition and liftoff of SpaceX Falcon 9 as umbilical’s fly away from rocket carrying SES-9 satellite to orbit from Cape Canaveral Air Force Station, FL on March 4, 2016. As seen from remote camera set near rocket on launch pad 40.  Credit: Ken Kremer/kenkremer.com
Ignition and liftoff of SpaceX Falcon 9 as umbilical’s fly away from rocket carrying SES-9 satellite to orbit from Cape Canaveral Air Force Station, FL on March 4, 2016. As seen from remote camera set near rocket on launch pad 40. Credit: Ken Kremer/kenkremer.com

CAPE CANAVERAL AIR FORCE STATION, FL – SpaceX’s Falcon 9 finally put on a dazzling sky show after the commercial booster at last took flight on the fifth launch attempt, shortly after sunset on Friday, March 4, 2014.

Launches around sunset are often the most beautiful. And the coincident clear blue and darkening skies did not disappoint, affording photographers the opportunity to capture dramatic photos and videos with brilliant hues as the accelerating rocket sped skywards to sunlight.

The primary mission for the SpaceX Falcon 9 mission was to carry the SES-9 commercial communications satellite payload to orbit providing services used by everyone 24/7, such as cable TV, high speed internet, voice and data transmissions.

SES-9 is the largest satellite dedicated to serving the Asia-Pacific region for the Luxembourg based SES. With its payload of 81 high-powered Ku-band transponder equivalents, SES-9 will be the 7th SES satellite providing unparalleled coverage to over 20 countries in the region, says SES.

Enjoy the gorgeous and expanding collection of launch photos and videos herein from myself, colleagues and friends. The view was so clear that we could see the separation of the first and second stages, and opening and jettisoning of the payload fairing halves.

Strong high altitude winds, difficulties loading the super chilled liquid oxygen propellant and boaters who apparently ignored warnings forced a total of four postponements from the originally intended launch date nearly two weeks earlier on Tuesday Feb. 25, 2016.

But with a forecast of 90 percent GO weather and moderating upper altitude wind, the SpaceX Falcon 9 soared aloft right at the opening of the launch window.

See the ignition and liftoff and initial powerful puff of exhaust up close – from my remote launch pad 40 camera above as pyros fire and the umbilicals separate and fly away from rocket.

Here’s a pair of time lapse streak shots as the rocket arcs over eastwards to Africa:

SpaceX Falcon 9 and SES-9 streak to orbit in this long time exposure image after liftoff from Cape Canaveral Air Force Station, FL on March 4, 2016.  Credit: Walter Scriptunis II
SpaceX Falcon 9 and SES-9 streak to orbit in this long time exposure image after liftoff from Cape Canaveral Air Force Station, FL on March 4, 2016. Credit: Walter Scriptunis II
SpaceX Falcon 9 and SES-9 streak to orbit in this long time exposure image after liftoff from Cape Canaveral Air Force Station, FL on March 4, 2016.  Credit: SpaceX/Ben Cooper
SpaceX Falcon 9 and SES-9 streak to orbit in this long time exposure image after liftoff from Cape Canaveral Air Force Station, FL on March 4, 2016. Credit: SpaceX/Ben Cooper

Check out these pair of launch videos taken by Mobius wide angle remote cameras set up close around the SpaceX pad at Space Launch Complex 40 on Cape Canaveral Air Force Station, FL.

Video caption: Sunset launch of the SES-9 communication satellite by a SpaceX Falcon 9 rocket on March 4, 2016 from Pad 40 of the CCAFS. Credit: Jeff Seibert/AmericaSpace

Video caption: Spectacular blastoff of SpaceX Falcon 9 rocket carrying SES-9 communications satellite from Space Launch Complex 40 on Cape Canaveral Air Force Station, FL shortly after sunset at 6:35 p.m. EST on March 4, 2016. Up close movie captured by Mobius remote video camera placed at launch pad. Credit: Ken Kremer/kenkremer.com

This video is a focused up close view showing the umbilicals flying away moments after blastoff:

Video caption: Time lapse, SpaceX Falcon 9 strong back and upper umbilical motion before and during the launch of the SES9 telecommunication satellite launch on March 4, 2016. Credit: Jeff Seibert/AmericaSpace

The SES-9 launch marked the second successful Falcon-9 launch in a row during 2016, and the first of this year from Cape Canaveral.

The Boeing built SES-9 satellite has a dry mass of 2,835 kg and a fueled mass of 5,271 kg. The huge satellite sports a wingspan of 48 meters with two solar wings. In addition each wing is outfitted with six additional solar panels on each wing.

Watch for Ken’s onsite launch reports direct from Cape Canaveral Air Force Station in Florida.

Stay tuned here for Ken’s continuing Earth and planetary science and human spaceflight news.

Ken Kremer

SpaceX SES-9 launch from Cape Canaveral AFS, FL on March 4, 2016.  Credit: Alex Polimeni / Spaceflight Now
SpaceX SES-9 launch from Cape Canaveral AFS, FL on March 4, 2016. Credit: Alex Polimeni / Spaceflight Now
SpaceX Falcon 9 and SES-9 streak across the sunset sky after blastoff from Cape Canaveral Air Force Station, FL on March 4, 2016.  Credit: Ken Kremer/kenkremer.com
SpaceX Falcon 9 and SES-9 streak across the sunset sky after blastoff from Cape Canaveral Air Force Station, FL on March 4, 2016. Credit: Ken Kremer/kenkremer.com
SpaceX Falcon 9 and SES-9 streak across the sunset sky after blastoff from Cape Canaveral Air Force Station, FL on March 4, 2016.  Credit: Ken Kremer/kenkremer.com
SpaceX Falcon 9 and SES-9 streak across the sunset sky after blastoff from Cape Canaveral Air Force Station, FL on March 4, 2016. Credit: Julian Leek
SpaceX SES-9 launch from Cape Canaveral AFS, FL on March 4, 2016.    SEKORAPHOTO  / J.D. Sekora
SpaceX SES-9 launch from Cape Canaveral AFS, FL on March 4, 2016. Credit: SEKORAPHOTO / J.D. Sekora
SpaceX Falcon 9 rockets to orbit carrying SES-9 communications satellite from Space Launch Complex 40 on Cape Canaveral Air Force Station, FL.  Credit: Ken Kremer/kenkremer.com
SpaceX Falcon 9 rockets to orbit carrying SES-9 communications satellite from Space Launch Complex 40 on Cape Canaveral Air Force Station, FL. Credit: Ken Kremer/kenkremer.com
First and second stages separate as SpaceX Falcon 9 accelerates to orbit with SES-9 telecom satellite after liftoff from Cape Canaveral Air Force Station, FL on March 4, 2016.    Credit: Ken Kremer/kenkremer.com
First and second stages separate as SpaceX Falcon 9 accelerates to orbit with SES-9 telecom satellite after liftoff from Cape Canaveral Air Force Station, FL on March 4, 2016. Credit: Ken Kremer/kenkremer.com
SpaceX SES-9 launch from Cape Canaveral AFS, FL as seen from Titusville, FL on March 4, 2016.  Credit: Joseph Carrillo
SpaceX SES-9 launch from Cape Canaveral AFS, FL as seen from Titusville, FL on March 4, 2016. Credit: Joseph Carrillo
SpaceX SES-9 launch from Cape Canaveral AFS, FL as seen from Titusville, FL on March 4, 2016.  Credit: Dawn McFall
SpaceX SES-9 launch from Cape Canaveral AFS, FL as seen from Titusville, FL on March 4, 2016. Credit: Dawn McFall
SpaceX SES-9 launch from Cape Canaveral AFS, FL as seen from Titusville, FL on March 4, 2016.  Credit: Gerald DaBose
SpaceX SES-9 launch from Cape Canaveral AFS, FL as seen from Titusville, FL on March 4, 2016. Credit: Gerald DaBose

SpaceX Stuns with Spectacular Sunset Launch of SES-9 Telecom Satellite

Sunset blastoff of SpaceX Falcon 9 carrying SES-9 communications satellite from Space Launch Complex 40 on Cape Canaveral Air Force Station, FL. Credit: Ken Kremer/kenkremer.com
Sunset blastoff of SpaceX Falcon 9 carrying SES-9 communications satellite from Space Launch Complex 40 on Cape Canaveral Air Force Station, FL.  Credit: Ken Kremer/kenkremer.com
Sunset blastoff of SpaceX Falcon 9 carrying SES-9 communications satellite from Space Launch Complex 40 on Cape Canaveral Air Force Station, FL on March 4, 2016. Credit: Ken Kremer/kenkremer.com

CAPE CANAVERAL AIR FORCE STATION, FL – After enduring four launch scrubs caused by poor weather, misguided boaters, high level winds and propellant fueling problems, SpaceX put on a stunning sky show with tonight’s sunset blastoff of their private Falcon 9 rocket boosting the high powered SES-9 commercial telecommunications satellite to orbit.

For the many spectators who stuck around, the fifth launch attempt proved to be the charm as they were richly rewarded with a spectacular sunset launch that was visible for more than five minutes all around the space coast and far beyond due to crystal clear skies. Continue reading “SpaceX Stuns with Spectacular Sunset Launch of SES-9 Telecom Satellite”