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

NASA’s ‘Hubble Hugger’ and Science Chief John Grunsfeld To Retire

In this March 2002 image, John Grunsfeld, former astronaut and associate administrator of NASA's Science Mission Directorate, is shown in space shuttle Columbia's cargo bay during the STS-109 Hubble servicing mission. Credits: NASA
In this March 2002 image, John Grunsfeld, former astronaut and associate administrator of NASA's Science Mission Directorate, is shown in space shuttle Columbia's cargo bay during the STS-109 Hubble servicing mission.  Credits: NASA
In this March 2002 image, John Grunsfeld, former astronaut and associate administrator of NASA’s Science Mission Directorate, is shown in space shuttle Columbia’s cargo bay during the STS-109 Hubble servicing mission. Credits: NASA

Five time space shuttle astronaut and current NASA science chief John Grunsfeld – best known as the ‘Hubble Hugger’ for three critical and dramatic servicing and upgrade missions to the iconic Hubble Space Telescope – his decided to retire from the space agency he faithfully served since being selected as an astronaut in 1992.

“John Grunsfeld will retire from NASA April 30, capping nearly four decades of science and exploration with the agency. His tenure includes serving as astronaut, chief scientist, and head of NASA’s Earth and space science activities,” NASA announced.

Indeed, Grunsfeld was the last human to touch the telescope during the STS-125 servicing mission in 2009 when he served as lead spacewalker.

The STS-125 mission successfully upgraded the observatory to the apex of its scientific capability during five spacewalks by four astronauts and extended the life of the aging telescope for many years. Hubble remains fully operable to this day!

In April 2015, Hubble celebrated 25 years of operations, vastly outperforming its planned lifetime of 15 years.

“Hubble has given us 25 years of great service. Hopefully we’ll get another 5 to 10 years of unraveling the mysteries of the Universe,” Grunsfeld told me during a recent interview at NASA Goddard.

Astronaut John Grunsfeld performs work on the Hubble Space Telescope on the first of five STS-125 spacewalks. Credit: NASA
Astronaut John Grunsfeld performs work on the Hubble Space Telescope on the first of five STS-125 spacewalks. Credit: NASA

In his most recent assignment, Grunsfeld was NASA’s Science Chief working as the Associate Administrator for the Science Mission Directorate (SMD) at NASA Headquarters in Washington, D.C. since January 2012.

“John leaves an extraordinary legacy of success that will forever remain a part of our nation’s historic science and exploration achievements,” said NASA Administrator Charlie Bolden, in a statement.

“Widely known as the ‘Hubble Repairman,’ it was an honor to serve with him in the astronaut corps and watch him lead NASA’s science portfolio during a time of remarkable discovery. These are discoveries that have rewritten science textbooks and inspired the next generation of space explorers.”

Grunsfeld was inducted into the U.S. Astronaut Hall of Fame in 2015.

He received his PhD in physics in 1988 and conducted extensive research as an astronomer in the fields of x-ray and gamma ray astronomy and high-energy cosmic ray studies.

Crew of STS-125, including John Grunsfeld, center, during walkout to Astrovan ahead of launch on May 11, 2009, from the Kennedy Space Center in Florida on final mission to service NASA’s Hubble Space Telescope. Credit: Ken Kremer – kenkremer.com
Crew of STS-125, including John Grunsfeld, center, during walkout to Astrovan ahead of launch on May 11, 2009, from the Kennedy Space Center in Florida on final mission to service NASA’s Hubble Space Telescope. Credit: Ken Kremer – kenkremer.com

NASA said that Grunsfeld’s deputy Geoff Yoder will serve as SMD acting associate administrator until a successor is named.

“After exploring strange new worlds and seeking out new life in the universe, I can now boldly go where I’ve rarely gone before – home,” said Grunsfeld.

“I’m grateful to have had this extraordinary opportunity to lead NASA science, and know that the agency is well-positioned to make the next giant leaps in exploration and discovery.”

During his tenure as science chief leading NASA’s Science Mission Directorate Grunsfeld was responsible for managing over 100 NASA science missions including the Mars orbital and surface assets like the Curiosity and Opportunity Mars rovers, New Horizons at Pluto, MESSENGER, upcoming Mars 2020 rover and OSIRIS-Rex as well as Earth science missions like the Deep Space Climate Observatory, Orbiting Carbon Observatory-2, and Global Precipitation Measurement spacecraft -which resulted numerous groundbreaking science, findings and discoveries.

NASA Associate Administrator for the Science Mission Directorate John Grunsfeld, left, New Horizons Principal Investigator Alan Stern of Southwest Research Institute (SwRI), Boulder, CO, second from left, New Horizons Mission Operations Manager Alice Bowman of the Johns Hopkins University Applied Physics Laboratory (APL), second from right, and New Horizons Project Manager Glen Fountain of APL, right, are seen at the conclusion of a press conference after the team received confirmation from the spacecraft that it has completed the flyby of Pluto, Tuesday, July 14, 2015 at the Johns Hopkins University Applied Physics Laboratory (APL) in Laurel, Maryland. Credit:  Ken Kremer/kenkremer.com
NASA Associate Administrator for the Science Mission Directorate John Grunsfeld, left, New Horizons Principal Investigator Alan Stern of Southwest Research Institute (SwRI), Boulder, CO, second from left, New Horizons Mission Operations Manager Alice Bowman of the Johns Hopkins University Applied Physics Laboratory (APL), second from right, and New Horizons Project Manager Glen Fountain of APL, right, are seen at the conclusion of a press conference after the team received confirmation from the spacecraft that it has completed the flyby of Pluto, Tuesday, July 14, 2015 at the Johns Hopkins University Applied Physics Laboratory (APL) in Laurel, Maryland. Credit: Ken Kremer/kenkremer.com

Dr. Grunsfeld is a veteran of five spaceflights: STS-67 (1995), STS-81 (1997), STS-103 (1999) STS-109 (2002) and STS-125 (2009), during which time he logged more than 58 days in space, including 58 hours and 30 minutes of EVA in 8 spacewalks.

He briefly retired from NASA in December 2009 to serve as Deputy Director of the Space Telescope Science Institute, in Baltimore, Maryland. He then returned to NASA in January 2012 to serve as SMD head for over four years until now.

NASA Science chief and astronaut John Grunsfeld discusses James Webb Space Telescope project at NASA Goddard Space Flight Center in Maryland.  Credit: Ken Kremer/kenkremer.com
NASA Science chief and astronaut John Grunsfeld discusses James Webb Space Telescope project at NASA Goddard Space Flight Center in Maryland. Credit: Ken Kremer/kenkremer.com

From his NASA bio, here is a summary of John Grunsfeld’s space flight experience during five shuttle flights:

STS-67/Astro-2 Endeavour (March 2 to March 18, 1995) launched from Kennedy Space Center, Florida, and landed at Edwards Air Force Base, California. It was the second flight of the Astro observatory, a unique complement of three ultraviolet telescopes. During this record-setting 16-day mission, the crew conducted observations around the clock to study the far ultraviolet spectra of faint astronomical objects and the polarization of ultraviolet light coming from hot stars and distant galaxies. Mission duration was 399 hours and 9 minutes.

STS-81 Atlantis (January 12 to January 22, 1997) was a 10-day mission, the fifth to dock with Russia’s Space Station Mir and the second to exchange U.S. astronauts. The mission also carried the Spacehab double module, providing additional middeck locker space for secondary experiments. In 5 days of docked operations, more than 3 tons of food, water, experiment equipment and samples were moved back and forth between the two spacecraft. Grunsfeld served as the flight engineer on this flight. Following 160 orbits of the Earth, the STS-81 mission concluded with a landing on Kennedy Space Center’s Runway 33, ending a 3.9-million-mile journey. Mission duration was 244 hours and 56 minutes.

STS-103 Discovery (December 19 to December 27, 1999) was an 8-day mission, during which the crew successfully installed new gyroscopes and scientific instruments and upgraded systems on the Hubble Space Telescope (HST). Enhancing HST scientific capabilities required three spacewalks (EVAs). Grunsfeld performed two spacewalks, totaling 16 hours and 23 minutes. The STS-103 mission was accomplished in 120 Earth orbits, traveling 3.2 million miles in 191 hours and 11 minutes.

STS-109 Columbia (March 1 to March 12, 2002) was the fourth HST servicing mission. The crew of STS-109 successfully upgraded the HST, installing a new digital camera, a cooling system for the infrared camera, new solar arrays and a new power system. HST servicing and upgrades were accomplished by four crewmembers during a total of five EVAs in 5 consecutive days. As Payload Commander on STS-109, Grunsfeld was in charge of the spacewalking activities and the Hubble payload. He also performed three spacewalks totaling 21 hours and 9 minutes, including the installation of the new Power Control Unit. STS-109 orbited the Earth 165 times and covered 3.9 million miles in over 262 hours.

STS-125 Atlantis (May 11 to May 24, 2009) was the fifth and final Hubble servicing mission. After 19 years in orbit, the telescope received a major renovation that included the installation of a new wide-field camera, a new ultraviolet telescope, new batteries, a guidance sensor, gyroscopes and other repairs. Grunsfeld served as the lead spacewalker in charge of the spacewalking and Hubble activities. He performed three of the five spacewalks on this flight, totaling 20 hours and 58 minutes. For the first time while in orbit, two scientific instruments were surgically repaired in the telescope. The STS-125 mission was accomplished in 12 days, 21 hours, 37 minutes and 09 seconds, traveling 5,276,000 miles in 197 Earth orbits.

Launch of Space Shuttle Atlantis on STS-125 and the final servicing mission to the Hubble Space Telescope on May 11, 2009 from Launch Complex-39A at the Kennedy Space Center in Florida. Credit: Ken Kremer – kenkremer.com
Launch of Space Shuttle Atlantis on STS-125 and the final servicing mission to the Hubble Space Telescope on May 11, 2009 from Launch Complex-39A at the Kennedy Space Center in Florida. 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 Hubble, NASA Mars rovers, Orion, SLS, ISS, Orbital ATK, ULA, SpaceX, 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

NASA Administrator Charles Bolden and science chief Astronaut John Grunsfeld discuss NASA’s human spaceflight initiatives backdropped by the service module for the Orion crew capsule being assembled at the Kennedy Space Center. Credit: Ken Kremer/kenkremer.com
NASA Administrator Charles Bolden and science chief Astronaut John Grunsfeld discuss NASA’s human spaceflight initiatives backdropped by the service module for the Orion crew capsule being assembled at the Kennedy Space Center. Credit: Ken Kremer/kenkremer.com

Gender Generates Biological Challenges For Long Duration Spaceflight

Astronaut Bruce McCandless untethered above the Earth on Feb. 12, 1984. (NASA)
Astronaut Bruce McCandless untethered above the Earth on Feb. 12, 1984. (NASA)

Men and women look exactly the same when ensconced in a space suit. But female physiology is different from male physiology in significant ways. And those differences create challenges when those bodies have to endure long duration spaceflight, such as during proposed missions to Mars.

Some of the effects of spending a long time in space are well-known, and affect both genders. Exposure to microgravity creates most of these effects. With less gravity acting on the body, the spine lengthens, causing aches and pains. Lowered gravity also causes bone loss, as the skeletal system loses important minerals like nitrogen, calcium, and phosphorous. And the muscles atrophy, since they aren’t used as much.

Microgravity makes the body sense that it is carrying too much fluid in the chest and head, and the body tries to eliminate it. Astronauts feel less thirst, and over time the body’s fluid level decreases. With less fluid, the heart doesn’t have to work as hard. The heart’s a muscle, so it atrophies much like other muscles. The fluid level causes other changes too. Fluid accumulates in the face, causing “Puffy Face Syndrome.”

But some problems are specific to gender, and Gregor Reid, PhD, and Camilla Urbaniak, PhD Candidate at the Shulich School of Medicine and Dentistry are focusing on one fascinating and important area: the human microbiome. Female and male microbiomes are different, and they are affected by microgravity, and other aspects of space travel, in different ways.

The human microbiome is the trillions of microorganisms living on the human body and in the gut. They are important for digestion and nutrition, and also for the immune system. A healthy human being requires a healthy microbiome. If you’ve ever travelled to another part of the world, and had stomach problems from the food there, those can be caused by changes in your microbiome.

Research on astronauts shows that spending time in space changes different aspects of the microbe population in a human being. Some of these changes cause health complications when the microbes responsible for digestion and immunity are affected. Reid says that the microbe has to be understood as its own organ, and we need a better understanding of how to keep that organ healthy. Keeping the microbiome healthy will keep the astronaut healthy, and reduce the risk of disease.

After conducting a literature review, the two researchers suggested that astronauts should incorporate probiotics and fermented foods into their diet to boost the health of their microbiome. They think that astronauts should have access to probiotic bacteria that they can prepare food with. Urbaniak acknowledges that female astronauts don’t want to be limited to shorter duration space flights, and using probiotics to manipulate the microbiome of female astronauts will allow them to withstand longer voyages.

Reid and Urbaniak also highlight some other problems facing women in long distance space voyages. If a female astronaut is diagnosed with breast cancer, ovarian cancer, or a urinary tract infection during an extended journey in space, any treatment involving antibiotics would be problematic. The antibiotics themselves may work less effectively due to changes in the microbiome.

Research on male astronauts has already shown a decrease in beneficial microorganism in the gut, and in the nasal and oral pathways. Those decreases were noted in both long and short duration stays in space. The research also shows an increase in harmful microorganisms such as E. coli. and staphylococcus. But so far, the same research hasn’t been done on female astronauts.

It’s well understood that women and men have different microbial profiles, and that their microbiomes are different. But there’s a lot we still don’t know about the specifics. This is an important area of research for NASA. According to Urbaniak, though, previous studies of the human microbiome and its response to space travel have focused on male astronauts, not female astronauts. Reid and Urbaniak are hopeful that their work will start a conversation that results in a greater understanding of the effects of space travel on women.

Russian Space Freighter Hauling Fresh Fruit Blasts Off for ISS Crew

“Fresh fruit is on the way! Here are some of the best pics taken from @Space_Station during today’s (March 31, 2016) #Progress launch.” Credit: NASA/Jeff Williams
“Fresh fruit is on the way! Here are some of the best pics taken from @Space_Station during today’s (March 31, 2016) #Progress launch.” Credit: NASA/Jeff Williams
“Fresh fruit is on the way! Here are some of the best pics taken from @Space_Station during today’s (March 31, 2016) #Progress launch.” Credit: NASA/Jeff Williams

An unmanned Russian space freighter hauling fresh fruit and over three tons of food, water, supplies and science experiments blasted off today, Thursday, March 31, from the Baikonur Cosmodrome in Kazakhstan, commencing a two-day orbital trek to the six person crew living aboard the International Space Station (ISS).

The successful nighttime liftoff of the Progress 63 cargo ship atop a three stage Soyuz 2.1a booster took place at 12:23 p.m. EDT (10:23 p.m. local time in Baikonur) from Site 31 at Baikonur as the orbiting outpost was flying about 251 miles (400 km) above northeast Iraq.

The Russian Progress 63 spacecraft launches on a Soyuz booster on a two-day trip to the International Space Station. Credit: Roscosmos
The Russian Progress 63 spacecraft launches on a Soyuz booster on a two-day trip to the International Space Station. Credit: Roscosmos

NASA astronaut and Expedition 47 crew member Jeff Williams captured several elegant views of the Progress launch from his heavenly perch on the station inside the Cupola.

“Fresh fruit is on the way! Here are some of the best pics taken from @Space_Station during today’s #Progress launch,” Williams said on his social media accounts from space.

“Today’s #Progress launch occurred about 5 minutes before we passed over the launch site in Baikonur.”

“Sunset occurred for us about a minute later and shortly after we caught site of the rocket ahead and below us from the Cupola. We continued to catch up to it until it was directly below. We saw the flash of 3rd stage ignition and the subsequent 3rd stage was spectacular. Here are some of the best shots taken from the International Space Station. (note the one taken just after the moment of engine cutoff!) Spectacular!” Williams elaborated.

The Russian Progress 63 spacecraft launch on a Soyuz booster to the International Space Station on March 31, 2016, as photographed by NASA astronaut and Expedition 47 crew member Jeff Williams from onboard the orbiting outpost.  Credit: NASA/Jeff Williams
The Russian Progress 63 spacecraft launch on a Soyuz booster to the International Space Station on March 31, 2016, as photographed by NASA astronaut and Expedition 47 crew member Jeff Williams from onboard the orbiting outpost. Credit: NASA/Jeff Williams

The Progress 63 resupply ship, also known by its Russian acronym as Progress MS-02, is due to arrive at the station on April 2 for an automated docking to the aft port of the Russian Zvezda Service Module.

After a picture perfect eight and a half minute climb to its initial orbit, the Progress MS-02 separated from the Soyuz third stage and deployed its pair of solar arrays and navigational antennas as planned.

“This was a flawless ascent to orbit for the Progress 63 cargo craft carrying just over three tons of supplies,” said NASA launch commentator Rob Navius during a live launch webcast on NASA TV. “Everything was right on the money.”

“All stages of the Soyuz booster performed to perfection.”

The planned longer two-day and 34 orbit journey rather than a faster 3 or 4 orbit rendezvous and docking is designed to help engineers test out new computer software and vehicle communications gear on this new version of the Progress.

“The two-day rendezvous for the Progress is deliberately planned to enable Russian flight controllers to test new software and communications equipment for the new vehicle configuration that will be standard for future Progress and piloted Soyuz spacecraft,” according to NASA officials.

Gantry towers surround the Progress 63 rocket at its launch pad at the Baikonur Cosmodrome in Kazakhstan. Credit: RSC Energia
Gantry towers surround the Progress 63 rocket at its launch pad at the Baikonur Cosmodrome in Kazakhstan. Credit: RSC Energia

Docking to the orbiting laboratory is set for approximately 2 p.m. Saturday, April 2.

NASA TV will provide live docking coverage of the Progress 63 arrival starting at 1:15 p.m. on Saturday.

Today’s Progress launch counts as the second of a constellation of three resupply ships from the US and Russia launching to the station over a three successive weeks.

The Orbital ATK ‘SS Rick Husband’ Cygnus resupply spacecraft that launched last week on Tuesday, March 22, 2016 was at the vanguard of the cargo ship trio – as I reported here from on site at the Kennedy Space Center in Florida.

A United Launch Alliance (ULA) Atlas V rocket carrying the OA-6 mission lifted off from Space Launch Complex 41 at 11:05 p.m. EDT on March 22, 2016 from Cape Canaveral Air Force Station, Fla. Credit: Ken Kremer/kenkremer.com
A United Launch Alliance (ULA) Atlas V rocket carrying the OA-6 mission lifted off from Space Launch Complex 41 at 11:05 p.m. EDT on March 22, 2016 from Cape Canaveral Air Force Station, Fla. Credit: Ken Kremer/kenkremer.com

Cygnus was successfully berthed at the Earth-facing port of the Unity module this past Saturday, March 26 – as I reported here.

Following Progress is the SpaceX Return To Flight (RTF) mission dubbed SpaceX CRS-8.

It is slated to launch on April 8 and arrive at the ISS on April 10 for berthing to the Earth-facing port of the Harmony module – at the end of the station where NASA space shuttles formerly docked. It carries another 3.5 tons of supplies.

So altogether the trio of international cargo ships will supply over 12 tons of station supplies in rapid succession over the next 3 weeks.

This choreography will set up America’s Cygnus and Dragon resupply craft to simultaneously be present and reside attached at adjacent ports on the ISS for the first time in history.

Plans currently call for Cygnus to stay at station for approximately two months until May 20th., when it will be unbolted and unberthed for eventual deorbiting and reentry.

Progress 63 will remain at the station for six months.

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

Ken Kremer

………….

Learn more about Orion, SLS, ISS, NASA Mars rovers, Orbital ATK, ULA, SpaceX, 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

Kennedy’s Modernized Spaceport Passes Key Review Supporting SLS/Orion Launches

This artist concept depicts the Space Launch System rocket rolling out of the Vehicle Assembly Building at NASA's Kennedy Space Center. SLS will be the most powerful rocket ever built and will launch the agency’s Orion spacecraft into a new era of exploration to destinations beyond low-Earth orbit. Credits: NASA/Marshall Space Flight Center
This artist concept depicts the Space Launch System rocket rolling out of the Vehicle Assembly Building at NASA's Kennedy Space Center. SLS will be the most powerful rocket ever built and will launch the agency’s Orion spacecraft into a new era of exploration to destinations beyond low-Earth orbit.  Credits: NASA/Marshall Space Flight Center
This artist concept depicts the Space Launch System rocket rolling out of the Vehicle Assembly Building at NASA’s Kennedy Space Center. SLS will be the most powerful rocket ever built and will launch the agency’s Orion spacecraft into a new era of exploration to destinations beyond low-Earth orbit. Credits: NASA/Marshall Space Flight Center

KENNEDY SPACE CENTER, FL – Modernization of NASA’s launch infrastructure facilities at the Kennedy Space Center supporting the new SLS/Orion architecture required to send astronauts on a Journey to Mars in the 2030s, has passed a comprehensive series of key hardware reviews, NASA announced, paving the path towards full scale development and the inaugural liftoff by late 2018.

The facilities and ground support systems that will process NASA’s mammoth Space Launch System (SLS) rocket and next generation Orion manned deep space capsule at NASA’s Kennedy Space Center in Florida successfully completed a painstaking review of the plans by top agency managers and an independent team of aerospace experts.

SLS will be the most powerful rocket the world has ever seen. It will propel astronauts in the Orion capsule on deep space missions, first back to the Moon by around 2021, then to an asteroid around 2025 and then beyond to the Red Planet in the 2030s – NASA’s overriding and agency wide goal.

The Ground Systems Development and Operations Program (GSDO) group within NASA is responsible for processing SLS and Orion.

“Over the course of a few months, engineers and experts across the agency reviewed hundreds of documents as part of a comprehensive assessment” said NASA.

NASA’s Space Launch System (SLS) blasts off from launch pad 39B at the Kennedy Space Center in this artist rendering showing a view of the liftoff of the Block 1 70-metric-ton (77-ton) crew vehicle configuration.   Credit: NASA/MSFC
NASA’s Space Launch System (SLS) blasts off from launch pad 39B at the Kennedy Space Center in this artist rendering showing a view of the liftoff of the Block 1 70-metric-ton (77-ton) crew vehicle configuration. Credit: NASA/MSFC

Among the GSDO ground support facilities evaluated in the launch infrastructure review are the Vehicle Assembly Building (VAB) where the rocket components are stacked, the mobile launcher used to roll out SLS/Orion to Launch Pad 39B atop a modified crawler transporter and the Multi-Payload Processing Facility that will fuel the Orion spacecraft with propellants prior to stacking atop the rocket.

In December, GSDO completed a critical design review (CDR) of the facilities and ground support systems plans.

Then in January, a Standing Review Board comprising a team of aerospace experts completed an independent assessment of program readiness.

The Standing Review Board “confirmed the program is on track to complete the engineering design and development process on budget and on schedule.”

“NASA is developing and modernizing the ground systems at Kennedy to safely integrate Orion with SLS, move the vehicle to the pad, and successfully launch it into space,” said Bill Hill, deputy associate administrator of NASA’s Exploration Systems Development Division at the agency’s Headquarters in Washington, in a statement.

“Modernizing the ground systems for our journey to Mars also ensures long-term sustainability and affordability to meet future needs of the multi-use spaceport.”

Floor level view of the Mobile Launcher and enlarged exhaust hole with 380 foot-tall launch tower astronauts will ascend as their gateway for missions to the Moon, Asteroids and Mars.   The ML will support NASA's Space Launch System (SLS) and Orion spacecraft  for launches from Space Launch Complex 39B the Kennedy Space Center in Florida.  Credit: Ken Kremer/kenkremer.com
Floor level view of the Mobile Launcher and enlarged exhaust hole with 380 foot-tall launch tower astronauts will ascend as their gateway for missions to the Moon, Asteroids and Mars. The ML will support NASA’s Space Launch System (SLS) and Orion spacecraft for launches from Space Launch Complex 39B the Kennedy Space Center in Florida. Credit: Ken Kremer/kenkremer.com

Fabrication, installation and testing of Kennedy’s ground systems can now proceed.

“The team is working hard and we are making remarkable progress transforming our facilities,” said Mike Bolger, GSDO Program Manager. “As we are preparing for NASA’s journey to Mars, the outstanding team at the Kennedy Space Center is ensuring that we will be ready to receive SLS and Orion flight hardware and process the vehicle for the first flight in 2018.”

The maiden test flight of the SLS/Orion is targeted for no later than November 2018 and will be configured in its initial 70-metric-ton (77-ton) version with a liftoff thrust of 8.4 million pounds.

Orion crew module pressure vessel for NASA’s Exploration Mission-1 (EM-1) is unveiled for the first time on Feb. 3, 2016 after arrival at the agency’s Kennedy Space Center (KSC) in Florida. It is secured for processing in a test stand called the birdcage in the high bay inside the Neil Armstrong Operations and Checkout (O&C) Building at KSC. Launch to the Moon is slated in 2018 atop the SLS rocket.  Credit: Ken Kremer/kenkremer.com
Orion crew module pressure vessel for NASA’s Exploration Mission-1 (EM-1) is unveiled for the first time on Feb. 3, 2016 after arrival at the agency’s Kennedy Space Center (KSC) in Florida. It is secured for processing in a test stand called the birdcage in the high bay inside the Neil Armstrong Operations and Checkout (O&C) Building at KSC. Launch to the Moon is slated in 2018 atop the SLS rocket. Credit: Ken Kremer/kenkremer.com

Meanwhile the welded skeletal backbone for the Orion EM-1 mission recently arrived at the Kennedy Space Center on Feb. 1 for outfitting with all the systems and subsystems necessary for flight.

Furthermore, earlier this month on March 10, NASA engineers conducted a successful test firing of the first of the RS-25 rocket engines destined to power the core stage of the SLS stage rocket. The 500 second long hot fire test of engine No. 2059 was carried out on the A-1 Test Stand at NASA’s Stennis Space Center in Bay St. Louis, Mississippi.

SLS-1 will boost the unmanned Orion EM-1 capsule from KSC launch pad 39B on an approximately three week long test flight beyond the Moon and back.

View of NASA’s future SLS/Orion launch pad at Space Launch Complex 39B from atop  Mobile Launcher at the Kennedy Space Center in Florida.  Former Space Shuttle launch pad 39B is now undergoing renovations and upgrades to prepare for SLS/Orion flights starting in 2018. Credit: Ken Kremer/kenkremer.com
View of NASA’s future SLS/Orion launch pad at Space Launch Complex 39B from atop Mobile Launcher at the Kennedy Space Center in Florida. Former Space Shuttle launch pad 39B is now undergoing renovations and upgrades to prepare for SLS/Orion flights starting in 2018. Credit: Ken Kremer/kenkremer.com

NASA plans to gradually upgrade the SLS to achieve an unprecedented lift capability of 130 metric tons (143 tons), enabling the more distant missions even farther into our solar system.

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

Ken Kremer

Looking up from beneath the enlarged exhaust hole of the Mobile Launcher to the 380 foot-tall tower astronauts will ascend as their gateway for missions to the Moon, Asteroids and Mars.   The ML will support NASA's Space Launch System (SLS) and Orion spacecraft during Exploration Mission-1 at NASA's Kennedy Space Center in Florida.  Credit: Ken Kremer/kenkremer.com
Looking up from beneath the enlarged exhaust hole of the Mobile Launcher to the 380 foot-tall tower astronauts will ascend as their gateway for missions to the Moon, Asteroids and Mars. The ML will support NASA’s Space Launch System (SLS) and Orion spacecraft during Exploration Mission-1 at NASA’s Kennedy Space Center in Florida. Credit: Ken Kremer/kenkremer.com

Cygnus Commercial Space Freighter Arrives at Space Station with 3.5 Tons of Supplies

Orbital ATK Cygnus CRS-6/OA-6 space freighter arrives for capture and berthing at the International Space Station on Saturday, March 26, 2016 at 6:51 a.m. EDT. Credit: NASA/ESA/Tim Peake
Orbital ATK Cygnus CRS-6/OA-6 space freighter arrives for capture and berthing at the International Space Station on Saturday, March 26, 2016 at 6:51 a.m. EDT.  Credit: NASA/ESA/Tim Peake
Orbital ATK Cygnus CRS-6/OA-6 space freighter arrives for capture and berthing at the International Space Station on Saturday, March 26, 2016 at 6:51 a.m. EDT. Credit: NASA/ESA/Tim Peake

KENNEDY SPACE CENTER, FL – Following a perfectly executed three day orbital rendezvous, NASA astronaut and Expedition 47 Commander Tim Kopra successfully reached out with the International Space Station’s robotic arm, Canadarm2, grabbed hold and captured Orbital ATK’s commercial Cygnus cargo freighter at 6:51 a.m. EDT, this morning, Saturday, March 26, 2016.

The ISS and Cygnus were soaring some 250 miles (400 kilometers) over the Indian Ocean at the time of capture following the cargo crafts blastoff atop a two stage United Launch Alliance (ULA) Atlas V at 11:05 p.m. EDT on Tuesday, March 22, 2016 from Space Launch Complex 41 on Cape Canaveral Air Force Station, Fl.

Robotics officers on the ground in Houston working with the station crew high above then maneuvered Cygnus – holding over 3.5 tons of critical cargo supplies and science – into position for final installation and berthing to the orbiting laboratory’s Earth-facing port on the Unity module a few hours later. It was finally bolted fully into place at approximately 10:52 a.m. EDT.

Orbital ATK Cygnus CRS-6/OA-6 space freighter arrives for capture and berthing at the International Space Station on Saturday, March 26, 2016 at 6:51 a.m. EDT. Credit: NASA TV
Orbital ATK Cygnus CRS-6/OA-6 space freighter arrives for capture and berthing at the International Space Station on Saturday, March 26, 2016 at 6:51 a.m. EDT. Credit: NASA TV

This Cygnus is named the S.S. Rick Husband in honor of Col. Rick Husband, the late commander of Space Shuttle Columbia, which was tragically lost with its crew of seven NASA astronauts during re-entry on its final flight on Feb. 1, 2003.

The crew plans to open the hatch to the SS Rick Husband tomorrow morning on Easter Sunday, March 26.

The Orbital ATK Cygnus CRS-6 space freighter is loaded with 3513 kg (7700 pounds) of science experiments and hardware, crew supplies, spare parts, gear and station hardware for the orbital laboratory in support of over 250 research experiments being conducted on board by the Expedition 47 and 48 crews.

A computer overlay with engineering data provides video of the Canadarm2 robotic arm maneuvering to capture the Orbital ATK Cygnus OA-6 space freighter on Saturday, March 26, 2016 at 651 a.m. EDT. Credit: NASA TV
A computer overlay with engineering data provides video of the Canadarm2 robotic arm maneuvering to capture the Orbital ATK Cygnus OA-6 space freighter on Saturday, March 26, 2016 at 651 a.m. EDT. Credit: NASA TV

All of Cygnus maneuvers were “executed to perfection for a flawless approach and rendezvous” after the three day trip from Florida to the ISS, as the vehicle closed in to within a few meters for grappling, said NASA commentator Rob Navius.

NASA TV showed spectacular HD views of Cygnus and its UltraFlex solar arrays – deployed 2 hours after launch – from station and robotic arm cameras during the final approach operation, as flight controllers closely monitored all spacecraft systems.

“The crew is ready for Cygnus approach to the capture point,” radioed Kopra.

“Station you are go for capture,” Mission Control radioed back.

Cygnus was placed into free drift mode before capture to prevent any accidental perturbations in the final seconds.

From his robotics work station in the Cupola, Kopra then put the arm in motion by about 6:40 a.m. EDT, during the final phase of the final approach. He extended the 57 foot long (19 meter long) arm to reach out and grab the aft end of Cygnus cargo craft at its grappling pin by closing the snares on the end effector.

ESA astronaut Tim Peake served as backup for arm operations while NASA astronaut Jeff Williams monitored Cygnus systems.

The SS Rick Husband was rock steady during its capture as the station was flying over South Africa and the Indian Ocean.

“Capture confirmed,” reported Navius just moments before the video downlink was temporarily lost as the station communications moved between satellites.

“Excellent work gentleman. Much appreciated. Made that look easy,” radioed Jeremy Hansen, a Canadian Space Agency astronaut from Houston mission control.

“We’d also like to say we are really honored to bring aboard the SS Rick Husband to the International Space Station,” radioed Kopra. “He was a personal hero to many of us. This will be the first Cygnus honoree who was directly involved with the construction of this great station.”

A Cygnus cargo spacecraft named the SS Rick Husband  is being prepared inside the Payload Hazardous Servicing Facility at NASA's Kennedy Space Center for upcoming Orbital ATK CRS-6/OA-6 mission to deliver hardware and supplies to the International Space Station. The Cygnus is scheduled to lift off atop a United Launch Alliance Atlas V rocket on March 22, 2016.  Credit: Ken Kremer/kenkremer.com
A Cygnus cargo spacecraft named the SS Rick Husband is being prepared inside the Payload Hazardous Servicing Facility at NASA’s Kennedy Space Center for upcoming Orbital ATK CRS-6/OA-6 mission to deliver hardware and supplies to the International Space Station. The Cygnus is scheduled to lift off atop a United Launch Alliance Atlas V rocket on March 22, 2016. Credit: Ken Kremer/kenkremer.com

It took about 9 minutes to complete the approach from the 30 meter distant hold point to the final capture point where the SS Rick Husband Cygnus arrived at about 6:37 am EDT. NASA TV showed the grapple fixture gradually coming into view.

Cygnus approached precisely within the center of the approach corridor, said Peake, during continuing updates as the ship moved closer to the targeted berthing port. It was perfectly aligned for its capture point.

Cygnus grapple fixture is located at the bottom end of the vehicles service module, beside the thruster.

Kopra and Peake are spending their 103rd day on the station today. While Williams arrived just 8 days ago.

All burns to get to the initial rendezvous point in the keep out sphere 250 meters away were “right on the money. Every burn has been on course and on target, said NASA JSC commentator Navius in Houston, as Cygnus soared some 400 km over the Pacific.

“Everything has gone off without a hitch. A rock solid approach.”

Flight controllers in Houston and Orbital ATK’s Dulles control headquarters then gave the go ahead to resume moving and approach closer to the 30 meter hold point.

The actual berthing operation took place about an hour later than expected to double check that everything was precisely aligned and communications were fully established.

Controllers used the arm to move Cygnus in for capture. They commanded four gangs of four bolts to latch Cygnus to the common berthing mechanism (CBM) on the internally positioned Unity modules nadir or Earth-facing port.

The first and second stage captures were successfully completed by 10:52 a.m. EDT this morning, marking the official hard mating of Cygnus and the station.

When the ISS Expedition 47 crew members open the hatch, they will be greeted with a sign noting the spacecraft was named SS Rick Husband in honor of the STS-107 mission commander.

Orbital ATK #Cygnus mated to Unity module at 10:52 a.m.  EDT (2:52 p.m. UTC). Graphic shows location of five spacecraft at station now.  Credit: NASA
Orbital ATK #Cygnus mated to Unity module at 10:52 a.m. EDT (2:52 p.m. UTC). Graphic shows location of five spacecraft at station now. Credit: NASA

The SS Rick Husband Cygnus is actually at the vanguard of a “constellation” of three resupply ships arriving at the station over a three week period of three weekends.

Next comes the Russian Progress 63 which will dock at Russia’s Zvezda module next weekend after launching this Thursday from site 31 at Kaszakhstan carrying another three tons of supplies.

Following Progress is the SpaceX Return To Flight (RTF) mission dubbed SpaceX CRS-8.

It is slated to launch on April 8 and arrive at the ISS on April 10 for berthing to the Earth-facing port of the Harmony module – at the end of the station where NASA space shuttles formerly docked. It carries another 3.5 tons of supplies.

So altogether the trio of international cargo ships will supply over 12 tons of station supplies in rapid succession over the next 3 weeks.

This choreography will set up America’s Cygnus and Dragon resupply craft to simultaneously be present and reside attached at adjacent ports on the ISS for the first time in history.

A United Launch Alliance (ULA) Atlas V launch vehicle lifts off from Cape Canaveral Air Force Station carrying a Cygnus resupply spacecraft on the Orbital ATK CRS-6 mission to the International Space Station. Liftoff was at 11:05 p.m. EDT on March 22, 2016.  The spacecraft will deliver 7,500 pounds of supplies, science payloads and experiments.  Credit: Ken Kremer/kenkremer.com
A United Launch Alliance (ULA) Atlas V launch vehicle lifts off from Cape Canaveral Air Force Station carrying a Cygnus resupply spacecraft on the Orbital ATK CRS-6 mission to the International Space Station. Liftoff was at 11:05 p.m. EDT on March 22, 2016. The spacecraft will deliver 7,500 pounds of supplies, science payloads and experiments. Credit: Ken Kremer/kenkremer.com

Plans currently call for Cygnus to stay at station for approximately two months until May 20th, when it will be unbolted and unberthed for eventual deorbiting and reentry.

But first it will stay on orbit for about another eight days, said Orbital ATK’s Cygnus program manager Frank DeMauro in an interview with Universe Today.

After unberthing, Cygnus will be used to conduct several experiments including the Saffire-1 experiment, it will deploy nanosats from an externally mounted carrier, and the REBR experiment will monitor the burn-up of Cygnus during the fiery reentry into the Earth’s atmosphere, said DeMauro.

Orbital ATK’s attention then shifts to the next Cygnus launch on the Return to Flight, or RTF, mission of the firms Antares rocket from NASA Wallops on the eastern shore of Virginia.

OA-6 is only the second Cygnus to be launched atop a ULA Atlas V rocket, following the OA-4 mission last December.

The CRS-6/OA-6 flight is also the second flight of the enhanced Cygnus variant, that is over 1 meter longer and sports 50% more volume capability.

Thus it is capable of carrying a much heavier payload of some 3500 kg (7700 lbs) vs. a maximum of 2300 kg (5070 lbs) for the standard version.

Watch for Ken’s onsite launch reports direct from the Kennedy Space Center in Florida and continuing mission reports.

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

Ken Kremer

Video caption: Mobius video camera placed at Florida launch pad captures blastoff up close of Orbital ATK OA-6 (CRS-6) mission riding to orbit atop a United Launch Alliance Atlas V rocket on March 22, 2016 at 11:05 p.m. EDT from Space Launch Complex-41 on Cape Canaveral Air Force Station. Credit: Ken Kremer/kenkremer.com

Streaks Galore as Cygnus Soars Chasing Station for Science; Photos, Videos

Long exposure streak shot of blastoff of United Launch Alliance Atlas V rocket carrying Orbital ATK's Cygnus spacecraft at 11:05 p.m. EDT on March 22, 2016, with foreground view of world famous Vehicle Assembly Building (VAB) at NASA’s Kennedy Space Center in Florida. Atlas V lifted off from nearby Space Launch Complex 41 on Cape Canaveral Air Force Station in Florida. Credit: Alex Polimeni/Spaceflight Now
Long exposure streak shot of blastoff of United Launch Alliance Atlas V rocket carrying Orbital ATK's Cygnus spacecraft at 11:05 p.m. EDT on March 22, 2016, with foreground view of world famous Vehicle Assembly Building (VAB) at NASA’s Kennedy Space Center in Florida.  Atlas V lifted off from nearby Space Launch Complex 41 on Cape Canaveral Air Force Station in Florida. Credit: Alex Polimeni/Spaceflight Now
Long exposure streak shot of blastoff of United Launch Alliance Atlas V rocket carrying Orbital ATK’s Cygnus spacecraft at 11:05 p.m. EDT on March 22, 2016, with foreground view of world famous Vehicle Assembly Building (VAB) at NASA’s Kennedy Space Center in Florida. Atlas V lifted off from nearby Space Launch Complex 41 on Cape Canaveral Air Force Station in Florida. Credit: Alex Polimeni/Spaceflight Now

KENNEDY SPACE CENTER, FL – Tuesday evening, March 22, turned into ‘streaks galore’ on Florida’s space coast, as the nighttime launch of an Orbital ATK Cygnus cargo freighter atop an Atlas V rocket was captured in unforgettable fashion by talented space photographers as it chases down the International Space Station (ISS), loaded with hundreds of science experiments.

Check out this expanding gallery of breathtaking photos and videos collected from many of my photojournalist friends and colleagues – who collectively count as the best space photographers worldwide!

We all descended on the sunshine state to record the Tuesday’s blastoff of the United Launch Alliance Atlas V rocket carrying Orbital ATK’s Cygnus CRS-6 (OA-6) spacecraft from an array of locations ringing Cape Canaveral’s seaside launch pad as well as remote cameras we all set as media directly at the launch pad.

The two stage ULA Atlas V lifted off right on time at 11:05 p.m. EDT from Space Launch Complex 41 on Cape Canaveral Air Force Station, Fl, into a picturesque moonlit sky on a resupply mission to the ISS.

ULA Atlas V rockets to orbits with Orbital ATK Cygnus OA-6 in this long exposure streak shot taken from the roof of the world famous Vehicle Assembly Building (VAB) at NASA’s Kennedy Space Center in Florida.  Liftoff from nearby Space Launch Complex 41 on Cape Canaveral Air Force Station in Florida occurred at 11:05 p.m. EDT on March 22, 2016 . Credit: Julian Leek
ULA Atlas V rockets to orbits with Orbital ATK Cygnus OA-6 in this long exposure streak shot taken from the roof of the world famous Vehicle Assembly Building (VAB) at NASA’s Kennedy Space Center in Florida. Liftoff from nearby Space Launch Complex 41 on Cape Canaveral Air Force Station in Florida occurred at 11:05 p.m. EDT on March 22, 2016. Credit: Julian Leek

One could not have asked for better weather. Conditions were near perfect at launch time with virtually no winds and clouds.

Cygnus rode to orbit on a fountain of fire. And right now she is in hot pursuit of the million pound orbiting outpost crewed by an international team of six astronauts and cosmonauts.

The streak shots vividly show how the rocket magnificently illuminated the scattered thin clouds hovering over the seaside launch pad as it ascended and arced over eastwards towards Africa.

Streak shot shows United Launch Alliance Atlas V rocket carrying Orbital ATK's Cygnus spacecraft soaring over Space Launch Complex- 37 housing upcoming Delta IV Heavy rocket after lift off from nearby Space Launch Complex 41 on Cape Canaveral Air Force Station in Florida at 11:05 p.m. EDT on March 22, 2016.  The Cygnus is on a resupply mission to the International Space Station and scheduled to arrive at the orbiting laboratory Saturday, March 26.  Credit: United Launch Alliance/Ben Cooper
Streak shot shows United Launch Alliance Atlas V rocket carrying Orbital ATK’s Cygnus spacecraft soaring over Space Launch Complex- 37 housing upcoming Delta IV Heavy rocket after lift off from nearby Space Launch Complex 41 on Cape Canaveral Air Force Station in Florida at 11:05 p.m. EDT on March 22, 2016. The Cygnus is on a resupply mission to the International Space Station and scheduled to arrive at the orbiting laboratory Saturday, March 26. Credit: United Launch Alliance

The Orbital ATK Cygnus CRS-6 (OA-6) mission launched aboard an Atlas V Evolved Expendable Launch Vehicle (EELV) in the 401 configuration vehicle. This includes a 4-meter-diameter payload fairing in its longest, extra extended configuration to accommodate the Cygnus.

The first stage of the Atlas V booster is powered by the RD AMROSS RD-180 engine. The Centaur upper stage was powered by the Aerojet Rocketdyne RL10C-1 engine.

It was the ULA’s 62nd straight success with the Atlas V as well as the firms third launch in 2016 and the 106th launch since the company formed in 2006.

Gorgeous launch of ULA Atlas V with Cygnus OA-6 mission in this streak shot taken over Cocoa Beach on March 22, 2016! Weather couldn't have cooperated better!  Credit: Talia Landman/AmericaSpace
Gorgeous launch of ULA Atlas V with Cygnus OA-6 mission in this streak shot taken over Cocoa Beach on March 22, 2016! Weather couldn’t have cooperated better! Credit: Talia Landman/AmericaSpace

The Cygnus CRS-6 (OA-6) mission is being launched under terms of the firm’s Commercial Resupply Services (CRS) contract with NASA. It also counts as Orbital ATK’s fifth cargo delivery mission to the space station.

Watch these launch videos from remote video cameras set right at the launch pad showing the full fury of liftoff sounding off with the deafening thunder of some one million pounds of liftoff thrust.

Video caption: Flame trench view of the Orbital/ATK OA-6 resupply module launch to the ISS on a ULA Atlas 5 rocket from Pad 41 of the CCAFS on March 22, 2016. Credit: Jeff Seibert/AmericaSpace

Video caption: Mobius video camera placed at Florida launch pad captures blastoff up close of Orbital ATK OA-6 (CRS-6) mission riding to orbit atop a United Launch Alliance Atlas V rocket on March 22, 2016 at 11:05 p.m. EDT from Space Launch Complex-41 on Cape Canaveral Air Force Station. Credit: Ken Kremer/kenkremer.com

OA-6 is loaded with 3513 kg (7700 pounds) of science experiments and hardware, crew supplies, spare parts, gear and station hardware to the orbital laboratory in support over 250 research experiments being conducted on board by the Expedition 47 and 48 crews.

Among the research highlights are experiments like Strata-1 which will evaluate how soil on airless bodies like asteroids moves about in microgravity, Gecko Gripper to test adhesives similar those found on geckos’ feet, Meteor will evaluate the chemical composition of meteors entering the Earth’s atmosphere, Saffire will purposely set a large fire inside Cygnus after it unberths from the ISS to examine how fires spread in space, and a nanosat deployer mounted externally will deploy over two dozen nanosats also after unberthing.

A new 3D printer featuring significantly upgraded capabilities is also on board.

Atlas V Cygnus OA-6 streak shot on March 22, 2016. 246 second exposure from Satellite Beach.  Credit: John Kraus
Atlas V Cygnus OA-6 streak shot on March 22, 2016. 246 second exposure from Satellite Beach. Credit: John Kraus

The spacecraft will arrive at the station on Saturday, March 26, at which time Expedition 47 Commander Tim Kopra of NASA and Flight Engineer Tim Peake of ESA (European Space Agency) will grapple Cygnus, using the space station’s robotic arm, at approximately 6:40 a.m.

NASA TV coverage of rendezvous and grapple will begin at 5:30 a.m.

The Cygnus has been named the S.S. Rick Husband in honor of Col. Rick Husband, the late commander of Space Shuttle Columbia, which was tragically lost with its crew of seven NASA astronauts during re-entry on its final flight on Feb. 1, 2003.

Watch for Ken’s onsite launch reports direct from the Kennedy Space Center in Florida.

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

Ken Kremer

This ‘Frankenstein’ liftoff image is the result of a 160+ image time lapse sequence compiled from Atlas V rocket launch carrying the OA-6 ISS resupply #Cygnus capsule,  showing streak shot and star trails as captured at the NASA causeway at KSC/CCAFS. Launched by United Launch Alliance for Orbital ATK on March 22, 2016 at 11:05 p.m. EDT.  Credit: Mike Seeley
This ‘Frankenstein’ liftoff image is the result of a 160+ image time lapse sequence compiled from Atlas V rocket launch carrying the OA-6 ISS resupply #Cygnus capsule, showing streak shot and star trails as captured at the NASA causeway at KSC/CCAFS. Launched by United Launch Alliance for Orbital ATK on March 22, 2016 at 11:05 p.m. EDT. Credit: Michael Seeley
ULA Atlas V carrying Orbital ATK Cygnus CRS-6/OA-6 streaks skyward on March 22, 2016. Credit:  Ben Smegelsky
ULA Atlas V carrying Orbital ATK Cygnus CRS-6/OA-6 streaks skyward on March 22, 2016. Credit: Ben Smegelsky
 ULA Atlas V/Cygnus OA-6 intermittent streak shot following launch on March 22, 2016 is taken from roof of Vehicle Assembly Building (VAB) at NASA’s Kennedy Space Center in Florida.   Credit: Ken Kremer/kenkremer.com

ULA Atlas V/Cygnus OA-6 intermittent streak shot following launch on March 22, 2016 is taken from roof of Vehicle Assembly Building (VAB) at NASA’s Kennedy Space Center in Florida. Credit: Ken Kremer/kenkremer.com
Photographers on the VAB roof at KSC, preparing for Atlas V/Cygnus launch on March 22, 2016.  Credit: Jared Haworth
Photographers on the VAB roof at KSC, preparing for Atlas V/Cygnus launch on March 22, 2016. Credit: Jared Haworth
A Cygnus cargo spacecraft named the SS Rick Husband  is being prepared inside the Payload Hazardous Servicing Facility at NASA's Kennedy Space Center for upcoming Orbital ATK CRS-6/OA-6 mission to deliver hardware and supplies to the International Space Station. Cygnus is scheduled to lift off atop a United Launch Alliance Atlas V rocket on March 22, 2016.  Credit: Ken Kremer/kenkremer.com
A Cygnus cargo spacecraft named the SS Rick Husband is being prepared inside the Payload Hazardous Servicing Facility at NASA’s Kennedy Space Center for upcoming Orbital ATK CRS-6/OA-6 mission to deliver hardware and supplies to the International Space Station. Cygnus is scheduled to lift off atop a United Launch Alliance Atlas V rocket on March 22, 2016. Credit: Ken Kremer/kenkremer.com

Stunning Nighttime Cygnus Freighter Rockets to ISS Stocked with Science Mesmerizing Spectators

A United Launch Alliance (ULA) Atlas V launch vehicle lifts off from Cape Canaveral Air Force Station carrying a Cygnus resupply spacecraft on the Orbital ATK CRS-6 mission to the International Space Station. Liftoff was at 11:05 p.m. EDT on March 22, 2016. The spacecraft will deliver 7,500 pounds of supplies, science payloads and experiments. Credit: Ken Kremer/kenkremer.com
A United Launch Alliance (ULA) Atlas V launch vehicle lifts off from Cape Canaveral Air Force Station carrying a Cygnus resupply spacecraft on the Orbital ATK CRS-6 mission to the International Space Station. Liftoff was at 11:05 p.m. EDT on March 22, 2016.  The spacecraft will deliver 7,500 pounds of supplies, science payloads and experiments.  Credit: Ken Kremer/kenkremer.com
A United Launch Alliance (ULA) Atlas V launch vehicle lifts off from Cape Canaveral Air Force Station carrying a Cygnus resupply spacecraft on the Orbital ATK CRS-6 mission to the International Space Station. Liftoff was at 11:05 p.m. EDT on March 22, 2016. The spacecraft will deliver 7,500 pounds of supplies, science payloads and experiments. Credit: Ken Kremer/kenkremer.com

KENNEDY SPACE CENTER, FL – A stunningly beautiful nighttime launch mesmerized delighted spectators as it roared off a Florida space coast launch pad late Tuesday night, March 22, on a mission for NASA stocked with over three tons of science and supplies bound for the multinational crews working aboard the International Space Station (ISS).

A United Launch Alliance (ULA) Atlas V rocketed raced to orbit from Cape Canaveral Air Force Station, Fl, carrying an enlarged Cygnus commercial resupply spacecraft on the Orbital ATK CRS-6 mission to the ISS.

The venerable Atlas V lifted off right on target at 11:05 p.m. EDT from Space Launch Complex 41 into a picturesque moonlit sky that magnificently illuminated the scattered thin clouds hovering over the seaside launch pad for the hordes of excited folks and families lining the beaches and lucky to witness what may be history’s last launch of a Cygnus from Florida.

A United Launch Alliance (ULA) Atlas V rocket carrying the OA-6 mission lifted off from Space Launch Complex 41 at 11:05 p.m. EDT on March 22, 2016 from Cape Canaveral Air Force Station, Fla. Credit: Ken Kremer/kenkremer.com
A United Launch Alliance (ULA) Atlas V rocket carrying the OA-6 mission lifted off from Space Launch Complex 41 at 11:05 p.m. EDT on March 22, 2016 from Cape Canaveral Air Force Station, Fla. Credit: Ken Kremer/kenkremer.com

Future liftoffs of the private Orbital ATK Cygnus supply truck designed to stock the station will return to their original launch site on Virginia’s eastern shore starting with the next mission for their NASA customer sometime this summer.

Cygnus launches to the ISS normally start from NASA’s Wallops Flight Facility in Virginia.

But a catastrophic failure of the Orbital ATK Antares rocket moments after liftoff on Oct. 28, 2014, forced Orbital to seek and book an alternative launch vehicle while the company redesigned and reengined Antares first stage with new powerful powerplants for the ride to orbit.

A United Launch Alliance (ULA) Atlas V launch vehicle lifts off from Cape Canaveral Air Force Station carrying a Cygnus resupply spacecraft on the Orbital ATK CRS-6 mission to the International Space Station. Liftoff was at 11:05 p.m. EDT on March 22, 2016.  The spacecraft will deliver 7,500 pounds of supplies, science payloads and experiments.  Credit: Ken Kremer/kenkremer.com
A United Launch Alliance (ULA) Atlas V launch vehicle lifts off from Cape Canaveral Air Force Station carrying a Cygnus resupply spacecraft on the Orbital ATK CRS-6 mission to the International Space Station. Liftoff was at 11:05 p.m. EDT on March 22, 2016. The spacecraft will deliver 7,500 pounds of supplies, science payloads and experiments. Credit: Ken Kremer/kenkremer.com

The Cygnus spacecraft will arrive at the station on Saturday, March 26, at which time Expedition 47 Commander Tim Kopra of NASA and Flight Engineer Tim Peake of ESA (European Space Agency) will grapple Cygnus, using the space station’s robotic arm, at approximately 6:40 a.m. NASA TV coverage of rendezvous and grapple will begin at 5:30 a.m.

The commercial Cygnus cargo freighter was built by Orbital ATK, based in Dulles, Virginia.

A Cygnus cargo spacecraft named the SS Rick Husband  is being prepared inside the Payload Hazardous Servicing Facility at NASA's Kennedy Space Center for upcoming Orbital ATK CRS-6/OA-6 mission to deliver hardware and supplies to the International Space Station. Cygnus is scheduled to lift off atop a United Launch Alliance Atlas V rocket on March 22, 2016.  Credit: Ken Kremer/kenkremer.com
A Cygnus cargo spacecraft named the SS Rick Husband is being prepared inside the Payload Hazardous Servicing Facility at NASA’s Kennedy Space Center for upcoming Orbital ATK CRS-6/OA-6 mission to deliver hardware and supplies to the International Space Station. Cygnus is scheduled to lift off atop a United Launch Alliance Atlas V rocket on March 22, 2016. Credit: Ken Kremer/kenkremer.com

The Cygnus has been named the S.S. Rick Husband in honor of Col. Rick Husband, the late commander of Space Shuttle Columbia, which was tragically lost with its crew of seven NASA astronauts during re-entry on its final flight on Feb. 1, 2003.

This flight is also known as OA-6 and is being launched under terms of the firm’s Commercial Resupply Services (CRS) contract with NASA. It also counts as Orbital ATK’s fifth cargo delivery mission to the space station.

OA-6 is loaded with 3513 kg (7700 pounds) of science experiments and hardware, crew supplies, spare parts, gear and station hardware to the orbital laboratory in support over 250 research experiments being conducted on board by the Expedition 47 and 48 crews.

About a quarter of the cargo is devoted to science and research gear. The cargo includes 3279 kg of science investigations, 1139 kg of crew supplies, 1108 kg of vehicle hardware, 157 kg of spacewalk equipment, and 98 kg of computer resources.
Here a NASA description of a few of the scientific highlights:

– Gecko Gripper, testing a mechanism similar to the tiny hairs on geckos’ feet that lets them stick to surfaces using an adhesive that doesn’t wear off,

– Strata-1, designed to evaluate how soil on small, airless bodies such as asteroids behaves in microgravity.

– Meteor, an instrument to evaluate from space the chemical composition of meteors entering Earth’s atmosphere. The instrument is being re-flown following its loss on earlier supply missions.

– Saffire, which will set a large fire inside the Cygnus in an unprecedented study to see how large fires behave in space. The research is vital to selecting systems and designing procedures future crews of long-duration missions can use for fighting fires.

– Cygnus is carrying more than two dozen nanosatellites that will be ejected from either the spacecraft or the station at various times during the mission to evaluate a range of technology and science including Earth observations.

Here a cool video prelaunch look at Cygnus and me in the NASA Kennedy Space Center clean room discussing the Meteor experiment:

Video Credit: Thaddeus Cesari/VideoShampoo.com

When the ISS Expedition 47 crew members open the hatch, they will be greeted with a sign noting the spacecraft was named ‘SS Rick Husband’ in honor of the STS-107 mission commander.

Cygnus will spend approximately two months docked at the ISS.

OA-6 is only the second Cygnus to be launched atop a ULA Atlas V rocket, following the OA-4 mission last December.

The CRS-6/OA-6 flight is also the second flight of the enhanced Cygnus variant, that is over 1 meter longer and sports 50% more volume capability.

Thus it is capable of carrying a much heavier payload of some 3500 kg (7700 lbs) vs. a maximum of 2300 kg (5070 lbs) for the standard version.

A United Launch Alliance (ULA) Atlas V rocket carrying the OA-6 mission lifted off from Space Launch Complex 41 at 11:05 p.m. EDT on March 22, 2016 from Cape Canaveral Air Force Station, Fla. Credit: Ken Kremer/kenkremer.com
A United Launch Alliance (ULA) Atlas V rocket carrying the OA-6 mission lifted off from Space Launch Complex 41 at 11:05 p.m. EDT on March 22, 2016 from Cape Canaveral Air Force Station, Fla. Credit: Ken Kremer/kenkremer.com

Watch for Ken’s onsite launch reports direct from the Kennedy Space Center in Florida.

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

Ken Kremer

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

Mar 21-23: “Orbital ATK Atlas/Cygnus launch to the ISS, ULA, SpaceX, SLS, Orion, Commercial crew, Curiosity explores Mars, Pluto and more,” Kennedy Space Center Quality Inn, Titusville, FL, evening Mar 21 /late afternoon Mar 22/23

The Orbital ATK CRS-6 launch vehicle with the Cygnus cargo spacecraft bolted to the top of the Atlas V rocket is poised for launch at Space Launch Complex 41 at Cape Canaveral Air Force Station on March 22, 2016. Credit: Ken Kremer/kenkremer.com
The Orbital ATK CRS-6 launch vehicle with the Cygnus cargo spacecraft bolted to the top of the Atlas V rocket is poised for launch at Space Launch Complex 41 at Cape Canaveral Air Force Station on March 22, 2016. Credit: Ken Kremer/kenkremer.com