Cygnus Cargo Craft Closing In for Space Station Berthing on July 16 – Watch Live

Orbital Sciences Corporation Antares rocket and Cygnus spacecraft blasts off on July 13 2014 from Launch Pad 0A at NASA Wallops Flight Facility , VA, on the Orb-2 mission and loaded with over 3000 pounds of science experiments and supplies for the crew aboard the International Space Station. Credit: Ken Kremer - kenkremer.com

The Cygnus commercial cargo craft is rapidly closing in on the International Space Station (ISS) for an expected berthing on Wednesday morning, July 16, following a spectacular lunchtime blastoff from the Virginia shore on Sunday, July 13, carrying over one and a half tons of supplies and science experiments for the six man crew.

During a three day orbital chase, mission controllers are executing a series of carefully choreographed thruster firings to maneuver the private Orbital Sciences Cygnus ever closer to the space station.

You can watch the final rendezvous and berthing sequence live on NASA TV on Wednesday starting at 5:15 a.m.

Watch the streaming NASA TV webcast here at – http://www.nasa.gov/nasatv

All systems “green” reported Orbital Sciences as of about 6 p.m. Tuesday evening, July 15.

In this photo posted to Twitter by Flight Engineer Alexander Gerst, he and Commander Steve Swanson (foreground) use the robotics workstation in the International Space Station's cupola.  Image Credit: NASA
In this photo posted to Twitter by Flight Engineer Alexander Gerst, he and Commander Steve Swanson (foreground) use the robotics workstation in the International Space Station’s cupola.
Image Credit: NASA

Cygnus orbit was 415 x 409 km and some 4 kilometers below and 270 kilometers behind the ISS. It is closing in at 23 km/hour using its 32 thrusters.

Cygnus roared to orbit during the flawless July 13 blastoff of the Orbital Sciences Corp. Antares rocket at 12:52 p.m. (EDT) from the beachside Pad 0A at the Mid-Atlantic Regional Spaceport on NASA’s Wallops Flight Facility on the Eastern Shore of Virginia.

The two stage rocket ascended very slowly after ignition with a mounting sound and deafening crescendo that reverberated across the local Virginia viewing area. It put on a spectacular sky show before disappearing into the clouds after about 40 seconds or so.

The 13 story Antares lofted the Cygnus christened “Janet Voss” in honor of the late shuttle astronaut bound for the space station and packed with a wide range of science experiments and essential supplies.

ISS Expedition 40 crew members Commander Steve Swanson of NASA and Alexander Gerst of the European Space Agency conducted a last minute practice session today at the robotics work station inside the domed cupola.

They used the Robotics Onboard Trainer, or ROBoT, to practice techniques for capturing Cygnus with Canadarm2, said NASA.

Orbital Sciences Corporation Antares rocket and Cygnus spacecraft blasts off on July 13  2014 from Launch Pad 0A at NASA Wallops Flight Facility , VA, on the Orb-2 mission and loaded with over 3000 pounds of science experiments and supplies for the crew aboard the International Space Station. Credit: Ken Kremer - kenkremer.com
Orbital Sciences Corporation Antares rocket and Cygnus spacecraft blasts off on July 13 2014 from Launch Pad 0A at NASA Wallops Flight Facility , VA, on the Orb-2 mission and loaded with over 3000 pounds of science experiments and supplies for the crew aboard the International Space Station. Credit: Ken Kremer – kenkremer.com

They are expected to capture the private cargo freighter at approximately 6:39 a.m. (EDT) using the stations 57-foot (17-meter) Canadarm2 robotic arm.

Live coverage will then pause as the crew makes final preparations.

NASA will resume the live webcast at 8:30 a.m. EDT for the berthing of Cygnus.

ISS Astronauts grapple Orbital Sciences Cygnus spacecraft with robotic arm and guide it to docking port. Credit: NASA TV
ISS Astronauts grapple Orbital Sciences Cygnus spacecraft with robotic arm and guide it to docking port during Orb-1 mission in January 2014. Credit: NASA TV

Mission Control in Houston will command the arm to move Cygnus into place for its installation at the Earth-facing port on the Harmony module expected to take place some 15 minutes later at around 8:45 a.m.

The Antares/Cygnus Orbital-2 (Orb-2) mission is the second of eight cargo resupply missions to the ISS under Orbital’s Commercial Resupply Services (CRS) contract with NASA.

The pressurized Cygnus cargo freighter will deliver 1,657 kg (3653 lbs) of cargo to the ISS Expedition 40 crew including over 700 pounds (300 kg) of science experiments and instruments, crew supplies, food, water, computer equipment, spacewalk tools and student research experiments.

The wide ranging science cargo and experiments includes a flock of 29 nanosatellites and deployers, student science experiments and small cubesat prototypes that may one day fly to Mars.

Stay tuned here for Ken’s continuing ISS, OCO-2, GPM, Curiosity, Opportunity, Orion, SpaceX, Boeing, Orbital Sciences, MAVEN, MOM, Mars and more Earth & Planetary science and human spaceflight news.

Ken Kremer

How to Watch Spectacular Antares Commercial Launch to ISS on July 13 – Complete Viewing Guide

Orbital 2 Launch from NASA Wallops Island, VA on July 12, 2014- Time of First Sighting Map This map shows the rough time at which you can first expect to see Antares after it is launched on July 12, 2014. It represents the time at which the rocket will reach 5 degrees above the horizon and varies depending on your location . We have selected 5 degrees as it is unlikely that you'll be able to view the rocket when it is below 5 degrees due to buildings, vegetation, and other terrain features. As an example, using this map when observing from Washington, DC shows that Antares will reach 5 degrees above the horizon more than a minute. Credit: Orbital Sciences

Orbital 2 Launch from NASA Wallops Island, VA on July 12, 2014- Time of First Sighting Map
This map shows the rough time at which you can first expect to see Antares after it is launched on July 12, 2014. It represents the time at which the rocket will reach 5 degrees above the horizon and varies depending on your location . We have selected 5 degrees as it is unlikely that you’ll be able to view the rocket when it is below 5 degrees due to buildings, vegetation, and other terrain features. As an example, using this map when observing from Washington, DC shows that Antares will reach 5 degrees above the horizon more after than a minute. Credit: Orbital Sciences
See more trajectory viewing maps and NASA TV broadcast link below
Story updated[/caption]

NASA WALLOPS FLIGHT FACILITY, VA – Catching a break from nearly relentless and damaging thunderstorms along the US East coast, Orbital Sciences Corp. was finally able to roll their commercial Antares rocket out to its beachside launch pad at NASA Wallops Flight Facility, VA, early this morning, July 10, following a weather postponement that pushed the scheduled liftoff back by one day to Saturday, July 12 from Friday, July 11.

UPDATE: Orbital Sciences Corp. has postponed the launch of its Cygnus cargo spacecraft to the International Space Station until 12:52 p.m. EDT on Sunday, July 13, from the Mid-Atlantic Regional Spaceport’s Pad 0A at NASA’s Wallops Flight Facility in Virginia. Severe weather in the Wallops area has repeatedly interrupted Orbital’s operations schedule leading up to the launch.

The long delayed blastoff of the privately developed Antares rocket on a critical cargo mission bound for the International Space Station (ISS) and packed with science experiments is now slated for 1:14 p.m. on July 12 12:52 p.m. EDT on Sunday, July 13 from Launch Pad 0A at the Mid-Atlantic Regional Spaceport (MARS) at NASA Wallops Island on Virginia’s Eastern shore.

Antares is carrying the Orbital Sciences Cygnus cargo logistics spacecraft to orbit on the Orbital-2 (Orb-2) mission. It is the second of eight cargo resupply missions to the ISS under Orbital’s Commercial Resupply Services (CRS) contract with NASA.

Here’s our complete guide on “How to See the Antares/Cygnus July 12 Blastoff” – chock full of viewing maps and trajectory graphics (above and below) from a variety of prime viewing locations; including historic and notable landmarks in Philadelphia, Washington, DC., NYC, New Jersey, Virginia and more.

US National National Mall Antares Orb-2 trajectory. Credit: Orbital Sciences
US National National Mall Antares Orb-2 trajectory. Credit: Orbital Sciences

If you have never seen a rocket launch, this one could be for you especially since it’s now on the weekend and you don’t have to take the long trek to the Kennedy Space Center in Florida.

Depending on local weather conditions, portions of the daylight liftoff could be visible to millions of spectators along the US Eastern seaboard stretching from South Carolina to Massachusetts.

The launch window on Sunday, July 13 opens at 12:52 p.m. for a duration of 5 minutes.

NASA will broadcast the Antares launch live on NASA TV starting at 12 Noon – http://www.nasa.gov/nasatv

Philadelphia - Antares Orb-2 trajectory. Credit: Orbital Sciences
Philadelphia – Antares Orb-2 trajectory. Credit: Orbital Sciences

In the event of a delay for any reason the next available launch opportunity is Sunday, July 13 at 12:52 p.m.

The weather prognosis for both days this weekend is currently excellent.

The weather forecast shows a probability of acceptable weather at 80% GO on Saturday and improves to 90% GO on Sunday. Of course the weather can change on a dime.

Certainly the best viewing of all will be in the mid-Atlantic region closest to Wallops Island.

So if you have the opportunity to observe the launch locally, you’ll get a magnificent view and hear the rockets thunder at either the NASA Wallops Visitor Center or the Chincoteague National Wildlife Refuge/Assateague National Seashore.

For more information about the Wallops Visitors Center, including directions, see: http://www.nasa.gov/centers/wallops/visitorcenter

NASA will have special “countdown speakers” set up at the NASA Wallops Visitor Center, Chincoteague National Wildlife Refuge/Assateague National Seashore and Ocean City inlet.

Antares rocket and Cygnus spacecraft await launch on Orb 2 mission on July 13, 2014 from Launch Pad 0A at NASA Wallops Flight Facility Facility, VA. LADEE lunar mission launch pad 0B stands adjacent to right of Antares. Credit: Ken Kremer - kenkremer.com
Antares rocket and Cygnus spacecraft await launch on Orb 2 mission on July 13, 2014 from Launch Pad 0A at NASA Wallops Flight Facility Facility, VA. LADEE lunar mission launch pad 0B stands adjacent to right of Antares. Credit: Ken Kremer – kenkremer.com
Orbital Sciences Antares rocket and Cygnus cargo spacecraft are set to blast off on July 11, 2014 on the Orb-2 mission from NASA’s Wallops Flight Facility in Virginia, bound for the International Space Station (ISS).  The rocket undergoes processing at the Horizontal Integration Facility at NASA Wallops during visit by Universe Today/Ken Kremer.  Credit: Ken Kremer - kenkremer.com
Orbital Sciences Antares rocket and Cygnus cargo spacecraft are set to blast off on July 12, 2014 on the Orb-2 mission from NASA’s Wallops Flight Facility in Virginia, bound for the International Space Station (ISS). The rocket undergoes processing at the Horizontal Integration Facility at NASA Wallops during visit by Universe Today/Ken Kremer. Credit: Ken Kremer – kenkremer.com

The Orb-2 launch was postponed about a month from June 10 to conduct a thorough re-inspection of the two Russian built and US modified Aerojet AJ26 engines that power the rocket’s first stage after a test failure of a different engine on May 22 at NASA’s Stennis Space Center in Mississippi resulted in extensive damage.

I was granted a visit to the Orbital Sciences Antares rocket integration facility at NASA Wallops recently as the engine re-inspection work by Aerojet engineers was winding down and ultimately resulted in approval to launch. See my Antares/Cygnus Orb-2 rocket photos herein.

The pressurized Cygnus cargo freighter will deliver 1,657 kg (3653 lbs) of cargo to the ISS including science experiments and instruments, crew supplies, food, water, computer equipment, spacewalk tools and student research experiments.

Cygnus will remain berthed at the station for 40 days.

For the destructive and fiery return to Earth, Cygnus will be loaded with approximately 1,346 kg (2967 lbs) of trash for disposal upon atmospheric reentry.

Battery Park, NYC - Antares Orb-2 trajectory. Credit: Orbital Sciences
Battery Park, NYC – Antares Orb-2 trajectory. Credit: Orbital Sciences

Despite the 1 day delay, an on time launch on Saturday will still result in Cygnus arrival at the ISS on July 15. The flight time to the ISS reduced from approximately 3 days to 2 days.

Station commander Steven Swanson of NASA and Flight Engineer Alexander Gerst of the European Space Agency (ESA) will grapple and berth Cygnus using the stations 57 foot-long robotic arm onto the Earth-facing port of the station’s Harmony module.

Orbital Sciences was awarded a $1.9 Billion supply contract by NASA to deliver 20,000 kilograms of research experiments, crew provisions, spare parts and hardware for 8 flight to the ISS through 2016 under the Commercial Resupply Services (CRS) initiative.

The July mission marks the second operational Antares/Cygnus flight.

The two stage Antares rocket stands 133 feet tall. It takes about 10 minutes from launch until separation of Cygnus from the Antares vehicle.

SpaceX has a similar resupply contract using their Falcon 9 rocket and Dragon cargo carrier and just completed their 3rd operational mission to the ISS in May.

Atlantic City, NJ - Antares Orb-2 trajectory. Credit: Orbital Sciences
Atlantic City, NJ – Antares Orb-2 trajectory. Credit: Orbital Sciences

Watch for Ken’s onsite Antares Orb-2 mission reports from NASA Wallops, VA.

Stay tuned here for Ken’s continuing ISS, OCO-2, GPM, Curiosity, Opportunity, Orion, SpaceX, Boeing, Orbital Sciences, MAVEN, MOM, Mars and more Earth & Planetary science and human spaceflight news.

Ken Kremer

…………….

Learn more about NASA’s Mars missions and Orbital Sciences Antares ISS launch on July 12 from NASA Wallops, VA in July and more about SpaceX, Boeing and commercial space and more at Ken’s upcoming presentations.

July 11/12: “Antares/Cygnus ISS Launch from Virginia” & “Space mission updates”; Rodeway Inn, Chincoteague, VA, evening

Iwo Jima Memorial -  - Antares Orb-2 trajectory. Credit: Orbital Sciences
Iwo Jima Memorial – – Antares Orb-2 trajectory. Credit: Orbital Sciences
ATK built 2nd stage integrated onto 1st stage of Orbital Sciences Antares rocket slated for July 11, 2014 launch on the Orb-2 mission from NASA’s Wallops Flight Facility in Virginia, bound for the ISS.  The rocket undergoes processing at the Horizontal Integration Facility at NASA Wallops during visit by Universe Today/Ken Kremer.  Credit: Ken Kremer - kenkremer.com
ATK built 2nd stage integrated onto 1st stage of Orbital Sciences Antares rocket slated for July 11, 2014 launch on the Orb-2 mission from NASA’s Wallops Flight Facility in Virginia, bound for the ISS. The rocket undergoes processing at the Horizontal Integration Facility at NASA Wallops during visit by Universe Today/Ken Kremer. Credit: Ken Kremer – kenkremer.com

SpaceX Set to Launch Oft Delayed Falcon 9 with Commercial ORBCOMM Satellites on June 20 – Watch Live

File photo of SpaceX Falcon 9 rocket after successful static hot-fire test on June 13, 2014 on Pad 40 at Cape Canaveral, FL with ORBCOMM OG2 mission with six OG2 satellites. Credit: Ken Kremer/kenkremer.com

A SpaceX Falcon 9 rocket was rolled out to its Florida launch pad early this morning at 1 a.m., Friday, June 20, in anticipation of blastoff at 6:08 p.m. EDT this evening on an oft delayed commercial mission for ORBCOMM to carry six advanced OG2 communications satellites to significantly upgrade the speed and capacity of their existing data relay network, affording significantly faster and larger messaging services.

The Falcon 9 rocket is lofting six second-generation ORBCOMM OG2 commercial telecommunications satellites from Space Launch Complex 40 at Cape Canaveral Air Force Station, Fl.

Update (6/23): The Saturday launch was scrubbed due to 2nd stage pressure decrease and then was scrubbed on Saturday and Sunday due to weather and technical reasons. SpaceX must now delay the launch until the first week in July because of previously scheduled maintenance for the Eastern Test Range, which supports launches from Cape Canaveral Air Force Station. This also allows SpaceX to take “a closer look at a potential issue identified while conducting pre-flight checkouts during [Sunday’s] countdown,” the company said in statement on its website on June 23.

The next generation SpaceX Falcon 9 rocket is launching in its more powerful v1.1 configuration with upgraded Merlin 1D engines, stretched fuel tanks, and the satellites encapsulated inside the payload fairing.

SpaceX Falcon 9 rocket is set for liftoff, Friday, June 20, 2014  on ORBCOMM OG2 mission with six OG2 satellites from Pad 40 on Cape Canaveral, FL. Credit: Ken Kremer/kenkremer.com
SpaceX Falcon 9 rocket is set for liftoff, Friday, June 20, 2014 on ORBCOMM OG2 mission with six OG2 satellites from Pad 40 on Cape Canaveral, FL. Credit: Ken Kremer/kenkremer.com

Falcon 9 will deliver all six next-generation OG2 satellites to an elliptical 750 x 615 km low-Earth orbit. They will be deployed one at a time starting 15 minutes after liftoff.

The first stage is also equipped with a quartet of landing legs to conduct SpaceX’s second test of a controlled soft landing in the Atlantic Ocean in an attempt to recover and eventually use the stage as a means of radically driving down overall launch costs – a top goal of SpaceX’s billionaire CEO and founder Elon Musk.

The launch has been delayed multiple times from May due to technical problems with both the Falcon 9 rocket and the OG2 satellites.

The May launch attempt was postponed when a static hot-fire test was halted due to a helium leak and required engineers to fix the issues.

Last week on June 13, SpaceX conducted a successful static hot-fire test of the 1st stage Merlin engines (see photos above and below) which had paved the way for blastoff as soon as Sunday, June 15.

However ORBCOMM elected to delay the launch in order to conduct additional satellite testing to ensure they are functioning as expected, the company reported.

“In an effort to be as cautious as possible, it was decided to perform further analysis to verify that the issue observed on one satellite during final integration has been fully addressed. The additional time to complete this analysis required us to postpone the OG2 Mission 1 Launch,” said ORBCOMM.

You can watch the launch live this evening with real time commentary from SpaceX mission control located at their corporate headquarters in Hawthorne, CA.

Watch the SpaceX live webcast beginning at 5:35 pm EDT here: www.spacex.com/webcast.

An ORBCOMM OG-2 satellite undergoes testing prior to launch. Credit: Sierra Nevada Corp
An ORBCOMM OG-2 satellite undergoes testing prior to launch. Credit: Sierra Nevada Corp

The six new satellites will join the existing constellation of ORBCOMM OG1 satellites launched over 15 years ago.

The weather outlook is currently not promising with only a 30% chance of favorable conditions at launch time. The launch window extends for 53 minutes.

The primary concerns according to the USAF forecast are violations of the Cumulus Cloud Rule, Thick Cloud Rule, Lightning Rule, Anvil Cloud Rule.

In the event of a scrub, the backup launch window is Saturday June 21. The weather outlook improves to 60% ‘GO’.

SpaceX Falcon 9 rocket after successful static hot-fire test on June 13 on Pad 40 at Cape Canaveral, FL.  Launch is slated for Friday, June 20, 2014  on ORBCOMM OG2 mission with six OG2 satellites. Credit: Ken Kremer/kenkremer.com
SpaceX Falcon 9 rocket after successful static hot-fire test on June 13 on Pad 40 at Cape Canaveral, FL. Launch is slated for Friday, June 20, 2014 on ORBCOMM OG2 mission with six OG2 satellites. Credit: Ken Kremer/kenkremer.com

Fueling of the rocket’s stages begins approximately four hours before blastoff – shortly after 2 p.m. EDT. First with liquid oxygen and then with RP-1 kerosene propellant.

Each of the 170 kg OG2 satellites was built by Sierra Nevada Corporation and will provide a much needed boost in ORBCOMM’s service capacity.

The ORBCOMM OG2 mission will launch six OG2 satellites, the first six of a series of OG2 satellites launching on SpaceX’s Falcon 9 vehicle.  Credit: SpaceX
The ORBCOMM OG2 mission will launch six OG2 satellites, the first six of a series of OG2 satellites launching on SpaceX’s Falcon 9 vehicle. Credit: SpaceX
10 more OG2 satellites are scheduled to launch on another SpaceX Falcon 9 in the fourth quarter of 2014 to complete ORBCOMM’s next generation constellation.

“ORBCOMM’s OG2 satellites will offer up to six times the data access and up to twice the transmission rate of ORBCOMM’s existing OG1 constellation,” according to the SpaceX press kit.

“Each OG2 satellite is the equivalent of six OG1 satellites, providing faster message delivery, larger message sizes and better coverage at higher latitudes, while drastically increasing network capacity. Additionally, the higher gain will allow for smaller antennas on communicators and reduced power requirements, yielding longer battery lives.”

The next generation Falcon 9 is a monster. It measures 224 feet tall and is 12 feet in diameter.

Stay tuned here for Ken’s continuing SpaceX, Boeing, Sierra Nevada, Orbital Sciences, commercial space, Orion, Mars rover, MAVEN, MOM and more planetary and human spaceflight news.

Ken Kremer

Video: SpaceX Tests New Steerable ‘Fins’ on the Falcon 9R

Screenshot of a June 2014 F9R test flight.

Well, this is cool: A new video from SpaceX shows the Falcon 9 Reusable (F9R) rocket during a 1,000 meter test flight at the SpaceX facility in McGregor, Texas. This was the first flight test of a set of steerable fins that provide control of the rocket during the fly-back portion of the return flight. The fins deploy approximately 1:15 into the test flight and return to their original locked position just prior to landing.

This seems like a truly smooth flight!

These types of fins are not new, but are new for human space flight. They’ve been used on missiles and bombs to aid in precision targeting, and likewise will help the F9R to land precisely on target.

SpaceX confirmed that during the early tests flights of F9R, the landing legs will be fixed in the down position, however soon they will transition to a liftoff with the legs stowed against the side of the rocket with the legs extending just before landing. The company also said that future test flights of F9R will be at SpaceX’s New Mexico facility which will allow them to test in higher altitude flights, give them the chance to prove unpowered guidance and to prove out landing cases that are “more flight-like.”

Boeing Unveils Commercial CST-100 ‘Space Taxi’ to Launch US Astronauts to Space from US Soil

Boeing unveiled full scale mockup of their commercial CST-100 'Space Taxi' on June 9, 2014 at its intended manufacturing facility at the Kennedy Space Center in Florida. The private vehicle will launch US astronauts to low Earth orbit and the ISS from US soil. Credit: Ken Kremer - kenkremer.com

Boeing unveiled full scale mockup of their commercial CST-100 ‘Space Taxi’ on June 9, 2014 at its intended manufacturing facility at the Kennedy Space Center in Florida. The private vehicle will launch US astronauts to low Earth orbit and the ISS from US soil.
Credit: Ken Kremer – kenkremer.com
Story updated[/caption]

KENNEDY SPACE CENTER, FL – Boeing unveiled a full scale mockup of their CST-100 commercial ‘space taxi’ on Monday, June 9, at the new home of its future manufacturing site at the Kennedy Space Center located inside a refurbished facility that most recently was used to prepare NASA’s space shuttle orbiters for missions to the International Space Station (ISS).

The overriding goal is restart our country’s capability to reliably launch Americans to space from US territory as rapidly and efficiently as possible.

The CST-100 crew transporter was revealed at an invitation only ceremony and media event held on Monday, June 9, inside the gleaming white and completely renovated NASA processing hangar known as Orbiter Processing Facility-3 (OPF-3) – and attended by Universe Today.

The huge 64,000 square foot facility has sat dormant since the shuttles were retired following their final flight in July 2011 and which was commanded by Chris Ferguson, who now serves as director of Boeing’s Crew and Mission Operations.

Universe Today was invited to be on location at KSC for the big reveal ceremony headlining US Senator Bill Nelson (FL) and Boeing executives including shuttle commander Ferguson, for a first hand personal inspection of the private spaceship and also to crawl inside and sit in the seats of the capsule designed to carry American astronauts to the High Frontier as soon as 2017.

“Today we celebrate this commercial crew capsule,” said Sen. Nelson at the unveiling ceremony. “This vehicle is pretty fantastic and the push into space the CST-100 represents is historic.”

“We are at the dawn of a new Space Age. It’s complemented by the commercial activities going to and from the space station and then going outside low Earth orbit [with Orion], as we go to the ultimate goal of going to Mars. There is a bright future ahead.”

US Senator Bill Nelson and NASA’s final space shuttle commander inside Boeing’s CST-100 manned capsule during unveiling ceremony at the Kennedy Space Center, Florida on June 9, 2014.  Nelson is seated below pilots console and receives CST-100 briefing from Ferguson.  Nelson also flew in space aboard the Columbia shuttle in Jan. 1986.  Credit: Ken Kremer - kenkremer.com
US Senator Bill Nelson (FL) and NASA’s final space shuttle commander Chris Ferguson inside Boeing’s CST-100 manned capsule during unveiling ceremony at the Kennedy Space Center, Florida on June 9, 2014. Nelson is seated below pilots console and receives CST-100 briefing from Ferguson, who now directs Boeing’s crew effort. Nelson also flew in space aboard the Columbia shuttle in Jan. 1986. Credit: Ken Kremer – kenkremer.com

The purpose of developing and building the private CST-100 human rated capsule is to restore America’s capability to ferry astronauts to low-Earth orbit and the space station from American soil aboard American rockets, and thereby end our total dependency on the Russian Soyuz capsule for tickets to space and back.

Boeing’s philosophy is to make the CST-100 a commercial endeavor, as simple and cost effective as possible in order to quickly kick start US human spaceflight efforts. It’s based on proven technologies drawing on Boeing’s 100 year heritage in aviation and space.

“The CST-100, it’s a simple ride up to and back from space,” Ferguson told me. “So it doesn’t need to be luxurious. It’s an ascent and reentry vehicle – and that’s all!”

So the CST-100 is basically a taxi up and a taxi down from LEO. NASA’s complementary human space flight program involving the Orion crew vehicle is designed for deep space exploration.

US Senator Bill Nelson (FL) addresses crowd at unveiling ceremony for Boeing’s CST-100 manned capsule to the ISS at the Kennedy Space Center, Florida on June 9, 2014.  Credit: Ken Kremer - kenkremer.com
US Senator Bill Nelson (FL) addresses crowd at unveiling ceremony for Boeing’s CST-100 manned capsule to the ISS at the Kennedy Space Center, Florida on June 9, 2014. Credit: Ken Kremer – kenkremer.com

Read my exclusive, in depth one-on-one interviews with Chris Ferguson – America’s last shuttle commander – about the CST-100; here and here.

The stairway to America’s future human access to space is at last literally taking shape from coast to coast.

Sen. Nelson, a strong space exploration advocate for NASA and who also flew on a space shuttle mission on Columbia back in January 1986, was the first person to climb the steps and enter the hatch leading to Boeing’s stairway to the heavens.

“This is harder to get in than the shuttle. But the seats are comfortable,” Nelson told me as he climbed inside the capsule and maneuvered his way into the center co-pilots seat.

Nelson received a personal guided tour of the CST-100 spaceship from Ferguson.

The capsule measures 4.56 meters (175 inches) in diameter.

The media including myself were also allowed to sit inside the capsule and given detailed briefings on Boeing ambitious plans for building a simple and cost effective astronaut transporter.

The vehicle includes five recliner seats, a hatch and windows, the pilots control console with several attached Samsung tablets for crew interfaces with wireless internet, a docking port to the ISS and ample space for 220 kilograms of cargo storage of an array of equipment, gear and science experiments depending on NASA’s allotment choices.

The interior features Boeing’s LED Sky Lighting with an adjustable blue hue based on its 787 Dreamliner airplanes to enhance the ambience for the crew.

Boeing is among a trio of American aerospace firms, including SpaceX and Sierra Nevada Corp, vying for the next round of contracts to build America’s ‘space taxi’ in a public/private partnership with NASA using seed money under the auspices of the agency’s Commercial Crew Program (CCP).

Since 2010, NASA has spent over $1.5 billion on the commercial crew effort.

Boeing has received approximately $600 million and is on target to complete all of NASA’s assigned CCP milestones in the current contract phase known as Commercial Crew Integrated Capability initiative (CCiCAP) by mid-2014.

Boeing’s CST-100 crew capsule reveal on June 9 comes just two weeks after SpaceX CEO Elon Musk’s Hollywoodesqe glitzy live show on May 29 – pulling the curtain off his firms ‘Dragon’ crew vehicle entry into NASA’s commercial crew program.

NASA officials say that the next round of contracts aims at building a human rated flight vehicle to dock at the ISS by late 2017.

The next contract phase known as Commercial Crew Transportation Capability (CCtCap) will result in one or more awards by NASA later this summer around August or September .

Sen. Nelson expressed his hope that the competition will continue since Congress appears likely to finally approve something near the President’s CCP funding request of over $800 million in the Fiscal 2015 NASA budget.

“With about $800 million, that’s enough money for NASA to do the competition for at least two and maybe more,” said Nelson. “That of course is up to NASA as they evaluate all the proposals.”

NASA had hoped to fly the first commercial crew missions in mid-2015.

But repeated CCP funding cuts by Congress since its inception in 2010 has already caused significant delays to the start of the space taxi missions for all three companies contending for NASA’s commercial crew contracts.

In fact the schedule has slipped already 18 months to the right compared to NASA’s initial plans thus forcing the agency to buy more Soyuz seats from the Russians at a cost of over $70 million each.

The reusable capsule will launch atop a man rated United Launch Alliance (ULA) Atlas V rocket.

It was glorious to be seated inside America’s next spaceship destined to carry humans.

Boeing's CST-100 project engineer Tony Castilleja describes the capsule during a fascinating interview with Ken Kremer/Universe Today on June 9, 2014 while sitting inside the full scale mockup of the Boeing CST-100 space taxi during unveiling ceremony at NASA's Kennedy Space Center. Credit: Ken Kremer - kenkremer.com
Boeing’s CST-100 project engineer Tony Castilleja describes the capsule during a fascinating interview with Ken Kremer/Universe Today on June 9, 2014 while sitting inside the full scale mockup of the Boeing CST-100 space taxi during unveiling ceremony at NASA’s Kennedy Space Center. Credit: Ken Kremer – kenkremer.com

The next generation of US human spaceflight is finally coming to fruition after a long down time.

Read my exclusive new interview with NASA Administrator Charles Bolden explaining the importance of getting Commercial Crew online to expand our reach into space- here.

Stay tuned here for Ken’s continuing Boeing, SpaceX, Orbital Sciences, commercial space, Orion, Curiosity, Mars rover, MAVEN, MOM and more planetary and human spaceflight news.

It's 'Thumbs Up' for unveiling of Boeing's CST-100 Space Taxi at NASA's Kennedy Space Center on June 9, 2014.  Florida's US Sen. Bill Nelson (left), final shuttle commander Chris Ferguson (now Director of Boeing’s Crew and Mission Operations, center) and Ken Kremer/Universe Today pose in front of capsule with stairway leading to open hatch.  Credit: Ken Kremer - kenkremer.com
It’s ‘Thumbs Up’ for unveiling of Boeing’s CST-100 Space Taxi at NASA’s Kennedy Space Center on June 9, 2014. Florida’s US Sen. Bill Nelson (left), final shuttle commander Chris Ferguson (now Director of Boeing’s Crew and Mission Operations, center) and Ken Kremer/Universe Today pose in front of capsule with stairway leading to open hatch. Credit: Ken Kremer – kenkremer.com

Why Commercial Crew is Critical for Future Exploration: One-on-One Interview with NASA Administrator Charles Bolden

NASA Administrator Charles Bolden discusses future of NASA human spaceflight at NASA Headquarters, Washington, DC. Credit: Ken Kremer- kenkremer.com

NASA Administrator Charles Bolden discusses future of NASA human spaceflight during exploration forum at NASA Headquarters, Washington, DC. Credit: Ken Kremer- kenkremer.com
Story updated[/caption]

NASA GODDARD SPACE FLIGHT CENTER, MD – Why is NASA’s Commercial Crew Program to develop private human transport ships to low Earth orbit important?

That’s the question I posed to NASA Administrator Charles Bolden when we met for an exclusive interview at NASA Goddard.

The Commercial Crew Program (CCP) is the critical enabler “for establishing a viable orbital infrastructure” in the 2020s, NASA Administrator Charles Bolden told Universe Today in an exclusive one-on-one interview at NASA’s Goddard Space Flight Center in Greenbelt, Md.

Bolden, a Space Shuttle commander who flew four time to space, says NASA wants one of the new American-made private crewed spaceships under development by SpaceX, Boeing and Sierra Nevada – with NASA funding – to be ready to ferry US astronauts to the International Space Station (ISS) and back to Earth by late 2017. Flights for other commercial orbital space ventures would follow later and into the next decade.

Since the shutdown of NASA’s space shuttle program following the final flight by STS-135 in 2011 (commanded by Chris Ferguson), America has been 100% dependent on the Russians to fly our astronauts to the space station and back.

“Commercial crew is critical. We need to have our own capability to get our crews to space,” Bolden told me, during a visit to the NASA Goddard cleanroom with the agency’s groundbreaking Magnetospheric Multiscale (MMS) science probes.

Chris Ferguson, last Space Shuttle Atlantis commander, tests the Boeing CST-100 capsule which may fly US astronauts to the International Space Station in 2017.  Ferguson is now  Boeing’s director of Crew and Mission Operations for the Commercial Crew Program vying for NASA funding.  Credit: NASA/Boeing
Chris Ferguson, last Space Shuttle Atlantis commander, tests the Boeing CST-100 capsule which may fly US astronauts to the International Space Station in 2017. Ferguson is now Boeing’s director of Crew and Mission Operations for the Commercial Crew Program vying for NASA funding. Credit: NASA/Boeing

Administrator Bolden foresees a huge shift in how the US will conduct space operations in low earth orbit (LEO) just a decade from now. The future LEO architecture will be dominated not by NASA and the ISS but rather by commercial entrepreneurs and endeavors in the 2020s.

“There are going to be other commercial stations or other laboratories,” Bolden excitedly told me.

And the cash strapped Commercial Crew effort to build new astronaut transporters is the absolutely essential enabler to get that exploration task done, he says.

“Commercial Crew is critical to establishing the low Earth orbit infrastructure that is required for exploration.”

“We have got to have a way to get our crews to space.”

“You know people try to separate stuff that NASA does into nice little neat packages. But it’s not that way anymore.”

Bolden and NASA are already looking beyond the ISS in planning how to use the new commercial crew spaceships being developed by SpaceX, Boeing and Sierra Nevada in a public- partnership with NASA’s Commercial Crew Program.

“Everything we do [at NASA] is integrated. We have to have commercial crew [for] a viable low Earth orbit infrastructure – a place where we can do testing – for example with what’s going on at the ISS today.”

“And in the out years you are going to be doing the same type of work.”

“But it’s not going to be on the ISS.”

“After 2024 or maybe 2028, if we extend it again, you are going to see the people on commercial vehicles. There are going to be other stations or other laboratories.”

“But there won’t be NASA operated laboratories. They will be commercially viable and operating laboratories.”

SpaceX CEO Elon Musk unveils SpaceX Dragon V2 next generation astronaut spacecraft on May 29, 2014.  Credit:  Robert Fisher/America Space
SpaceX CEO Elon Musk unveils SpaceX Dragon V2 next generation astronaut spacecraft on May 29, 2014. Credit: Robert Fisher/America Space

Private NewSpace ventures represent a revolutionary departure from current space exploration thinking. But none of these revolutionary commercial operations will happen if we don’t have reliable and cost effective human access to orbit from American soil with American rockets on American spaceships.

“We need to have our own capability to get our crews to space – first of all. That’s why commercial crew is really, really, really important,” Bolden emphasized.

The ongoing crises in Ukraine makes development of a new US crew transporter to end our total reliance on Russian spaceships even more urgent.

“Right now we use the Russian Soyuz. It is a very reliable way to get our crews to space. Our partnership with Roscosmos is as strong as it’s ever been.”

“So we just keep watching what’s going on in other places in the world, but we continue to work with Roscosmos the way we always have,” Bolden stated.

The latest example is this week’s successful launch of the new three man Russian-US- German Expedition 40 crew to the ISS on a Soyuz.

Of course, the speed at which the US develops the private human spaceships is totally dependent on the funding level for the Commercial Crew program.

Unfortunately, progress in getting the space taxis actually built and flying has been significantly slowed because the Obama Administration CCP funding requests for the past few years of roughly about $800 million have been cut in half by a reluctant US Congress. Thus forcing NASA to delay the first manned orbital test flights by at least 18 months from 2015 to 2017.

And every forced postponement to CCP costs US taxpayers another $70 million payment per crew seat to the Russians. As a result of the congressional CCP cuts more than 1 Billion US Dollars have been shipped to Russia instead of on building our own US crew transports – leaving American aerospace workers unemployed and American manufacturing facilities shuttered.

I asked Bolden to assess NASA’s new funding request for the coming fiscal year 2015 currently working its way through Congress.

“It’s looking better. It’s never good. But now it’s looking much better,” Bolden replied.

“If you look at the House markup that’s a very positive indication that the budget for commercial crew is going to be pretty good.”

The pace of progress in getting our crews back to orbit basically can be summed up in a nutshell.

“No Bucks, No Buck Rogers,” Chris Ferguson, who now leads Boeing’s crew effort, told me in a separate exclusive interview for Universe Today.

NASA Administrator Charles Bolden and Ken Kremer (Universe Today) inspect NASA’s Magnetospheric Multiscale (MMS) mated quartet of stacked spacecraft at the cleanroom at NASA's Goddard Space Flight Center in Greenbelt, Md., on May 12, 2014.  Credit: Ken Kremer- kenkremer.com
NASA Administrator Charles Bolden and Ken Kremer (Universe Today) inspect NASA’s Magnetospheric Multiscale (MMS) mated quartet of stacked spacecraft at the cleanroom at NASA’s Goddard Space Flight Center in Greenbelt, Md., on May 12, 2014. Credit: Ken Kremer- kenkremer.com

The Boeing CST-100, Sierra Nevada Dream Chaser and SpaceX Dragon ‘space taxis’ are all vying for funding in the next round of contracts to be awarded by NASA around late summer 2014 known as Commercial Crew Transportation Capability (CCtCap).

All three company’s have been making excellent progress in meeting their NASA mandated milestones in the current contract period known as Commercial Crew Integrated Capability initiative (CCiCAP) under the auspices of NASA’s Commercial Crew Program.

Altogether they have received more than $1 Billion in NASA funding under the current CCiCAP initiative. Boeing and SpaceX were awarded contracts worth $460 million and $440 million, respectively. Sierra Nevada was given what amounts to half an award worth $212.5 million.

SpaceX CEO Elon Musk just publicly unveiled his manned Dragon V2 spaceship on May 29.

Boeing’s Chris Ferguson told me that assembly of the CST-100 test article starts soon at the Kennedy Space Center.

NASA officials have told me that one or more of the three competitors will be chosen later this year in the next phase under CCtCAP to build the next generation spaceship to ferry astronauts to and from the ISS by 2017.

In order to certify the fitness and safety of the new crew transporters, the CCtCAP contracts will specify that “each awardee conduct at least one crewed flight test to verify their spacecraft can dock to the space station and all its systems perform as expected.”

Dream Chaser commercial crew vehicle built by Sierra Nevada Corp docks at ISS
Dream Chaser commercial crew vehicle built by Sierra Nevada Corp docks at ISS

Concurrently, NASA is developing the manned Orion crew vehicle for deep space exploration. The state-of-the-art capsule will carry astronauts back to the Moon and beyond on journeys to Asteroids and one day to Mars.

“We need to have our own capability to get our crews to space. Commercial Crew is critical to establishing the low Earth orbit infrastructure that is required for exploration,” that’s the bottom line message from my interview with NASA Administrator Bolden.

Stay tuned here for Ken’s continuing SpaceX, Boeing, Sierra Nevada, Orbital Sciences, commercial space, Orion, Mars rover, MAVEN, MOM and more planetary and human spaceflight news.

Ken Kremer

Scale models of NASA’s Commercial Crew program vehicles and launchers; Boeing CST-100, Sierra Nevada Dream Chaser, SpaceX Dragon. Credit: Ken Kremer/kenkremer.com
Scale models of NASA’s Commercial Crew program vehicles and launchers; Boeing CST-100, Sierra Nevada Dream Chaser, SpaceX Dragon. Credit: Ken Kremer/kenkremer.com

Elon Musk Premiers SpaceX Manned Dragon V2 Astronaut Transporter – 1st Photos

Meet Dragon V2 - SpaceX CEO Elon pulls the curtain off manned Dragon V2 on May 29, 2014 for worldwide unveiling of SpaceX's new astronaut transporter for NASA. Credit: SpaceX

Meet Dragon V2 – SpaceX CEO Elon pulls the curtain off manned Dragon V2 on May 29, 2014 for worldwide unveiling of SpaceX’s new astronaut transporter for NASA. Credit: SpaceX
Story updated[/caption]

SpaceX CEO and billionaire founder Elon Musk gushed with excitement as he counted down the seconds and literally pulled the curtain away to unveil his company’s new manned Dragon V2 astronaut transporter for all the world to see during a live streaming webcast shortly after 10 p.m. EST (7 p.m. PST, 0200 GMT) this evening, Thursday, May 29, from SpaceX HQ.

The first photos from the event are collected herein. And I’ll be adding more and updating this story as they flow in.

Musk’s Dragon V2 unveiling was brimming with excitement like a blockbuster Hollywood Science Fiction movie premiere – with lights, cameras and action.

But this was the real deal and hopefully gets America moving again back to thrilling, real space adventures in orbit and beyond – reaching for the stars.

“The Dragon V2 is a 21st century spacecraft,” Musk announced to a wildly cheering crowd. “As it should be.”

“We wanted to take a big step in spacecraft technology. It is a big leap forward in technology and takes things to the next level.”

“An important characteristic of that is its ability to land anywhere on land, propulsively. It can land anywhere on Earth with the accuracy of a helicopter.”

“I think that’s what a spaceship should be able to do.”

“It will be capable of carrying seven astronauts. And it will be fully reusable.”

Dragon V2, SpaceX's next generation spacecraft designed to carry astronauts to space is unveiled by CEO Elon Musk on May 29, 2014. Credit: SpaceX
Dragon V2, SpaceX’s next generation spacecraft designed to carry astronauts to space is unveiled by CEO Elon Musk on May 29, 2014. Credit: SpaceX

The sleek gleaming spaceship looks decidedly different from the current cargo Dragon V1.

Read my “Dragon V2” preview articles leading up to the May 29 event – here and here.

Elon Musk seated inside Dragon V2 explaining consoles at unveiling on May 29, 2014  Credit: SpaceX
Elon Musk seated inside Dragon V2 explaining consoles at unveiling on May 29, 2014. Credit: SpaceX

This new manrated Dragon is aimed at restoring US human launch access to space from American soil by carrying crews of up to seven US astronauts to low Earth orbit and eventually perhaps Mars – starting as soon as 2017.

Musk unveiled the gumdrop-shaped Dragon V2, or Version 2, to an overflow crowd of employees and media at SpaceX headquarters and design and manufacturing facility in Hawthorne, CA.

SpaceX Dragon V2 next generation astronaut spacecraft unveiled May 29, 2014.  Credit: NASA
SpaceX Dragon V2 next generation astronaut spacecraft unveiled May 29, 2014. Credit: NASA

But Musk and SpaceX are not alone in striving to get Americans back to space.

Two other US aerospace firms – Boeing and Sierra Nevada – are competing with SpaceX to build the next generation spaceship to ferry astronauts to and from the ISS by 2017 using seed money from NASA’s Commercial Crew Program in a public/private partnership.

Altogether they have received more than $1 Billion in NASA funding.

SpaceX CEO Elon Musk unveils SpaceX Dragon V2 next generation astronaut spacecraft on May 29, 2014.  Credit:  Robert Fisher/America Space
SpaceX CEO Elon Musk unveils SpaceX Dragon V2 next generation astronaut spacecraft on May 29, 2014. Credit: Robert Fisher/America Space

The Boeing CST-100 and Sierra Nevada Dream Chaser ‘space taxis’ are also vying for funding in the next round of contracts to be awarded by NASA around late summer 2014.

The ‘Dragon V2’ is an upgraded, man-rated version of the unmanned Dragon cargo spaceship that just completed its third operational resupply mission to the ISS with a successful splashdown in the Pacific Ocean on May 18.

Stay tuned here for Ken’s continuing SpaceX, Boeing, Sierra Nevada, Orbital Sciences, commercial space, Orion, Mars rover, MAVEN, MOM and more planetary and human spaceflight news.

Ken Kremer

SpaceX Dragon V2 next generation astronaut spacecraft unveiled May 29, 2014.  Credit: NASA
SpaceX Dragon V2 next generation astronaut spacecraft unveiled May 29, 2014. Credit: NASA

Court Injunction Blocks Russian Engine Purchase by ULA for US National Security – Win for SpaceX Yields Uncertainty

Atlas V rocket - powered by Russian made RD-180 engines - and Super Secret NROL-67 intelligence gathering payload following rollout to Space Launch Complex 41 at Cape Canaveral Air Force Station, FL, on March 24, 2014. Credit: Ken Kremer - kenkremer.com

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
Story updated[/caption]

A US Federal Court has now issued a preliminary injunction that blocks the purchase and importation of Russian rocket engines by United Launch Alliance (ULA) for its Atlas V rocket used in National Security launches for the US Air Force after a filing by SpaceX. But what are the implications?

The US Federal Court of Federal Claims order was issued late Wednesday, April 30, by US Judge Susan G. Braden of the US Court of Federal Claims. The court order is in response to a protest filed by SpaceX against ULA and the US Air Force relating to the uncontested $11 Billion “block buy” launch contract purchase in December of 36 rocket cores for US National Security launches and is also related to US sanctions imposed after Russia’s recent actions in Ukraine and seizing and annexing the Crimea.

The temporary injunction marks a big win for SpaceX but immediately throws future National Security spy satellite and NASA science launches into uncertainty and potential disarray as I reported previously – here and here.

As I posted here last Friday, April 25, SpaceX CEO Elon Musk declared his firms intent to file suit against ULA and the Air Force on Monday, April 28 to break the launch monopoly.

Judge Braden’s injunction followed barely two days later.

Musk said the recent ‘block buy’ launch contract was unfair in blocking SpaceX from competing for launches of surveillance satellites, would cost taxpayers billions of extra dollars in coming years and should be recompetited.

“The national security launches should be put up for competition and they should not be awarded on a sole source, uncompeted basis,” Musk said at the April 25 briefing at the National Press Club in Washington, DC.

SpaceX CEO Elon Musk announces lawsuit protesting Air Force launch contracts while speaking at the National Press Club in Washington, DC on April 25, 2014
SpaceX CEO Elon Musk announces lawsuit protesting Air Force launch contracts while speaking at the National Press Club in Washington, DC on April 25, 2014

ULA quickly vowed today that they will respond to resolve the injunction and further stated that “This opportunistic action by SpaceX … ignores the potential implications to our National Security.”

Federal Judge Braden’s order specifically states the following; “The preliminary injunction prohibits the United States Air Force and United Launch Alliance, from making any purchases from or payment of money to NPO Energomash or any entity, whether governmental, corporate or individual, that is subject to the control of Deputy Prime Minister Rogozin.”

“IT IS SO ORDERED,” wrote Braden.

The engines at the heart of the Federal preliminary injunction are the RD-180 liquid fueled engines which power ULA’s Atlas V rocket and are manufactured in Russia by NPO Energomash – which is majority state owned by the Russian Federation and subject to the control of Russian Deputy Prime Minister Rogozin, who is specifically named on the US economic sanctions target list.

In response, Rogozin said that sanctions could “boomerang” against the US space program. He said that perhaps NASA should “deliver their astronauts to the International Space Station using a trampoline.”

Thanks to the utter folly of US politicians in shutting down the Space Shuttle program before a replacement crew vehicle was available and repeatedly slashing NASA’s commercial crew budget, American astronauts are now 100% dependent on the Russian Soyuz capsule for rides to the ISS and back for several more years ahead.

NASA has NO immediate alternatives to Russia’s Soyuz – period.

The rocket engine injunction is just the latest fallout impacting a vast swath of US space programs from National Defense to NASA stemming from the dangerously escalating crisis between Ukraine and the Russian Federation in the worst confrontation with the West since the Cold War era.

In response to the worsening Ukraine crisis, Western nations have instituted waves of increasingly harsh economic sanctions against Russia and several key members of the Russian government.

Judge Braden’s injunction stands until she receives clarification otherwise from US government entities that the engine purchase is not covered by the Federal government santions.

The order remains in effect “unless and until the court receives the opinion of the United States Department of the Treasury, and the United States Department of Commerce and United States Department of State, that any such purchases or payments will not directly or indirectly contravene Executive Order 13,661.”

ULA issued a swift statement today – received by Universe Today – from ULA’s general counsel Kevin G. MacCary, in response to Judge Braden’s preliminary injunction.

“ULA is deeply concerned with this ruling and we will work closely with the Department of Justice to resolve the injunction expeditiously. In the meantime, ULA will continue to demonstrate our commitment to our National Security on the launch pad by assuring the safe delivery of the missions we are honored to support.”

“SpaceX’s attempt to disrupt a national security launch contract so long after the award ignores the potential implications to our National Security and our nation’s ability to put Americans on board the International Space Station.”

The Atlas V rocket, powered by the Russian made RD-180 engines, will also be used as the launch vehicle by two of the three companies vying for the next round of commercial crew contracts aimed at launching US astronauts to the ISS. The contracts will be awarded by NASA later this year.

“This opportunistic action by SpaceX appears to be an attempt to circumvent the requirements imposed on those who seek to meet the challenging launch needs of the nation and to avoid having to follow the rules, regulations and standards expected of a company entrusted to support our nation’s most sensitive missions,” said ULA.

ULA is a joint venture between aerospace giants Boeing and Lockheed Martin, formed in 2006. It has conducted 81 consecutive launches with 100% mission success – including many NASA science and mission probes like Orion EFT-1, Curiosity, MAVEN, TDRS and more.

Judge Braden furthermore made clear that her order did not include prior RD-180 engine purchases.

“The scope of this preliminary injunction does not extend to any purchase orders that have been placed or moneys paid to NPO Energomash prior to the date of this
Order [April 30, 2014].”

ULA has a two year contingency supply of the RD-180’s and blueprints to begin production, if needed.

However in the event of a cutoff by Russia or US court injuncions, it would take ULA at least three to five years to start and certify RD-180 engine production somewhere in the US, a ULA spokesperson told me recently at Cape Canaveral.

This possibly leaves a 1 to 3 year gap with no Atlas V 1st stage engine supply.

SpaceX claims they can fill part of the launch gap. But their Falcon rockets are not yet certified for National Security launches.

“So far we are most of the way through the certification process. And so far there have been zero changes to the rocket. Mostly it’s just been a paperwork exercise.”

“In light of international events, this seems like the wrong time to send hundreds of millions of dollars to the Kremlin,” said Musk during the April 25 press briefing at the National Press Club in Washington, DC.

SpaceX is suing the Air Force for the right to compete for US national security satellites launches using Falcon 9 rockets such as this one which successfully launched the SES-8 communications satellite on Dec. 3, 2013 from Pad 40 at Cape Canaveral, FL. Credit: Ken Kremer/kenkremer.com
SpaceX is suing the Air Force for the right to compete for US national security satellites launches using Falcon 9 rockets such as this one which successfully launched the SES-8 communications satellite on Dec. 3, 2013 from Pad 40 at Cape Canaveral, FL. Credit: Ken Kremer/kenkremer.com

Watch for my continuing articles as the Ukraine crisis escalates and court orders fly – with uncertain and potentially dire consequences for US National Security and NASA.

Stay tuned here for Ken’s continuing SpaceX, Orbital Sciences, commercial space, Orion, Chang’e-3, LADEE, Mars rover, MAVEN, MOM and more planetary and human spaceflight news.

Ken Kremer

Curiosity rover launches to Mars atop Atlas V rocket on Nov. 26, 2011 from Cape Canaveral, Florida.  Credit: Ken Kremer
NASA’s Curiosity rover launches to Mars atop Atlas V rocket on Nov. 26, 2011 from Cape Canaveral, Florida. Atlas V 1st stage is powered by Russian made RD-180 engines.
Credit: Ken Kremer – kenkremer.com

Easter Sunday Space Station Rendezvous and Berthing for SpaceX Dragon Freighter Successful

SpaceX Dragon resupply spacecraft arrives for successful berthing and docking at the International Space Station on Easter Sunday morning April 20, 2014. Credit: NASA TV

The SpaceX 3 Dragon commercial cargo freighter successfully arrived at the International Space Station (ISS) on Easter Sunday morning, April 20, as planned and was deftly captured by Expedition 39 Commander Koichi Wakata at 7:15 a.m. EDT at the controls of the Canadian built robotic arm.

The next step due shortly is berthing of Dragon at the Earth facing port of the Harmony module at approximately 9:30 a.m. EDT.

Berthing was officially completed at 10:06 a.m. EDT while the massive complex was soaring 260 miles above Brazil.

This story is being updated as events unfold. The mission is the company’s third cargo delivery flight to the station.

The Dragon vehicle loaded with nearly 2.5 tons of science experiments and supplies moved ever so slowly closely to within grappling distance – dramatically backdropped with gorgeous and ever changing scenery of our Home Planet sliding below.

The million pound orbiting lab complex and free flying SpaceX Dragon were soaring some 260 miles above Egypt and the Nile River as the 57 foot long robotic arm grappled the resupply ship.

SpaceX Dragon resupply spacecraft arrives for berthing at the International Space Station on Easter Sunday morning April 20, 2014. Credit: NASA TV
SpaceX Dragon resupply spacecraft arrives for berthing at the International Space Station on Easter Sunday morning April 20, 2014. Credit: NASA TV

Dragon was approximately 30 feet (10 meters) away from the stations hull at the time of capture.

Wakata, of the Japan Aerospace Exploration Agency, was assisted by NASA astronaut Rick Mastracchio, while both were working from inside the 7 windowed Cupola robotics work station. Newly arrived NASA astronaut Steve Swanson observed the proceedings with a big smile.

“Congratulations to the entire ops team for the successful launch, rendezvous and capture of Dragon,” Wakata radioed mission control moments after the successful grapple.

“Great work catching the Dragon, enabling fantastic science,” radioed Capcom Steve Fisher from NASA Houston Mission Control.

SpaceX Dragon resupply spacecraft grappled by Canada robotic arm for berthing at the International Space Station on Easter Sunday morning April 20, 2014. Backdrop of Erath look like dried out river channel on Mars! Credit: NASA TV
SpaceX Dragon resupply spacecraft grappled by Canada robotic arm for berthing at the International Space Station on Easter Sunday morning April 20, 2014. Backdrop of Earth looks like dried out river channel on Mars! Credit: NASA TV

Cheers and celebrations erupted at SpaceX Mission Control at the firms headquarters in Hawthorne, Calif.

Dragon arrived this morning following Friday afternoons, Apr 18, spectacular blastoff from Cape Canaveral, Fla, atop an upgraded SpaceX Falcon 9 booster.

A two day orbital chase ensued with a series of critical engine burns targeting the ISS for Easter Sunday’s rendezvous and docking activities.

Rick Mastracchio was at the controls for the actual berthing and latching in place at Harmony with Dragon’s Common Berthing Mechanism (CBM).

NASA astronaut Steve Swanson, ISS Commander Koichi Wakata and NASA Astronaut Rick Mastracchio work inside the 7 windowed Cupola robotics work station module during Dragon berthing on Easter Sunday morning April 20, 2017. Credit: NASA TV
NASA astronaut Steve Swanson, ISS Commander Koichi Wakata and NASA Astronaut Rick Mastracchio work inside the 7 windowed Cupola robotics work station module during Dragon berthing on Easter Sunday morning April 20, 2017. Credit: NASA TV

The berthing process started at about 9:30 a.m. EDT.

4 latches were driven for 1st stage of capture. Followed by all 16 bolts and latches in total during second stage capture to firmly hold Dragon in place.

The crew and mission control concluded the berthing procedure at 10:06 a.m. EDT flying over Brazil.

The next step is for the crew to pressurize the vestibule connecting Dragon to station.

Hatch opening is set to take place on Monday morning.

It’s a busy week ahead for the six person international crew representing the US, Russia and Japan.

A Russian Progress departs on Wednesday followed by the 2 person US spacewalk to replace the failed MDM unit.

Dragon will remain attached to the station until May 18.

This story is being updated. Check back.

ISS Schematic showing modules and Dragon, Soyuz and Progress docking ports.  Credit: NASA TV
ISS Schematic showing modules and Dragon, Soyuz and Progress docking ports. Credit: NASA TV

The SpaceX-3 mission marks the company’s third operational resupply mission to the ISS under a $1.6 Billion contract with NASA to deliver 20,000 kg (44,000 pounds) of cargo to the ISS during a dozen Dragon cargo spacecraft flights through 2016.

There are over 150 science experiments loaded aboard the Dragon capsule for research to be conducted by the crews of ISS Expeditions 39 and 40.

This unmanned SpaceX mission dubbed CRS-3 mission will deliver some 5000 pounds of science experiments, a pair of hi tech legs for Robonaut 2, a high definition Earth observing imaging camera suite (HDEV), a laser optical communications experiment (OPALS) and essential gear, the VEGGIE lettuce growing experiment, spare parts, crew provisions, food, clothing and supplies to the six person crews living and working aboard the ISS soaring in low Earth orbit under NASA’s Commercial Resupply Services (CRS) contract.

NASA TV coverage of the Easter Sunday grappling process began at 5:45 a.m. EDT with berthing coverage beginning at 9:30 a.m. EDT: http://www.nasa.gov/ntv

Stay tuned here for Ken’s continuing SpaceX, Orbital Sciences, commercial space, Orion, Chang’e-3, LADEE, Mars rover, MAVEN, MOM and more planetary and human spaceflight news.

Screenshots by Rob v. Mackelenbergh.

Ken Kremer

SpaceX Makes Strides Towards 1st Stage Falcon Rocket Recovery during Space Station Launch

Blastoff of SpaceX Falcon 9 rocket from Cape Canaveral Air Force Station in Florida on April 18, 2014. Credit: Alan Walters/AmericaSpace

Blastoff of SpaceX Falcon 9 rocket from Cape Canaveral Air Force Station in Florida on April 18, 2014. Credit: Alan Walters/AmericaSpace
Story updated[/caption]

The powerful SpaceX Falcon 9 rocket that launched successfully on a cargo delivery run for NASA bound for the Space Station on Friday, April 18, from Cape Canaveral, Fla, also had a key secondary objective for the company aimed at experimenting with eventually recovering the rockets first stage via the use of landing legs and leading to the boosters refurbishment and reuse further down the road.

Marking a first of its kind test, this 20 story tall commercial Falcon 9 rocket was equipped with a quartet of landing legs to test controlled soft landing techniques first in the ocean and then back on solid ground at some later date this year or next – by reigniting the 1st stage engines for a guided touchdown.

The 12 foot diameter Falcon 9 rocket would sprout the legs just prior to water impact for the controlled soft landing in the Atlantic Ocean, guided by SpaceX engineers.

'Threading the needle', the Falcon 9/Dragon vehicle passes through the catenary lightning wires as it roars from the pad on the CRS-3 mission.  Credit: nasatech.net
‘Threading the needle’, the Falcon 9/Dragon vehicle passes through the catenary lightning wires as it roars from the pad on the CRS-3 mission. Credit: nasatech.net

Prior to the launch SpaceX managers were careful not to raise expectations.

“The entire recovery of the first stage is completely experimental,” said Hans Koenigsmann, SpaceX vice president of mission assurance. “It has nothing to do with the primary mission.”

He estimated the odds of successfully retrieving an intact booster at merely 30 or 40 percent.

Following Friday’s blastoff, SpaceX reported they made significant strides towards that goal of a 1st stage recovery.

1st stage of SpaceX Falcon 9 rocket equipped with landing legs and now scheduled for launch to the International Space Station on March 16, 2014 from Cape Canaveral, FL. Credit: SpaceX/Elon Musk
1st stage of SpaceX Falcon 9 rocket equipped with landing legs which launched to the International Space Station on April 18, 2014 from Cape Canaveral, FL. Credit: SpaceX/Elon Musk

SpaceX engineers had preprogrammed the spent first stage to relight several Merlin 1 D engines after completing the boost phase and stage seperation to stabilize it, reduce its roll rate and then gradually lower its altitude back down to the Atlantic Ocean’s surface for a soft landing attempt and later possible recovery by retrieval ships.

All these critical steps seemed to go fairly well in initial reports that are subject to change.

SpaceX CEO and founder Elon Musk reported at a post launch briefing and later tweeted further updates that the Falcon 9 first stage actually made a good water landing despite rough seas, with waves swelling at least six feet.

“Roll rate close to zero (v important!).”

“Data upload from tracking plane shows landing in Atlantic was good! Several boats enroute through heavy seas,” Musk tweeted.

Furthermore he reported that the 1st stage survived the ocean touchdown.

“Flight computers continued transmitting for 8 seconds after reaching the water. Stopped when booster went horizontal.”

Because of the high waves, the recovery boats had difficulty reaching the booster in the recovery area located some two hundred miles off shore from Cape Canaveral.

Several previous attempts by SpaceX to recover the first stage via parachutes and thrusters were not successful. So SpaceX adopted this new approach with the landing legs and 1st stage Merlin 1 D engines.

Further details will be proved when they become available.

SpaceX Falcon 9 rocket liftoff on April 18, 2014 from Space Launch Complex 40 at Cape Canaveral, Fla.  Credit: Julian Leek
SpaceX Falcon 9 rocket liftoff on April 18, 2014 from Space Launch Complex 40 at Cape Canaveral, Fla. Credit: Julian Leek

The attachment of the 25 foot long 1st stage landing legs to SpaceX’s next-generation Falcon 9 rocket for ocean recovery counts as a major step towards the firm’s future goal of building a fully reusable rocket and dramatically lowering launch costs compared to expendable boosters.

The eventual goal is to accomplish a successful first stage touchdown by the landing legs on solid ground back somewhere near on Cape Canaveral, Florida.

Musk said that SpaceX is still working out the details on finding a suitable landing location with NASA and the US Air Force.

SpaceX Falcon 9 rocket and Dragon resupply ship launch from the Cape Canaveral Air Force Station in Florida on April 18, 2014.   Credit:  Jeff Seibert/Wired4Space
SpaceX Falcon 9 rocket and Dragon resupply ship launch from the Cape Canaveral Air Force Station in Florida on April 18, 2014. Credit: Jeff Seibert/Wired4Space

Extensive work and testing remains to develop and refine the technology before a land landing will be attempted by the company, says Musk.

It will be left to future missions to accomplish a successful first stage touchdown by the landing legs back on solid ground back through a series of ramped up rocket tests at Cape Canaveral, Florida.

“Even though we probably won’t get the stage back, I think we’re really starting to connect the dots of what’s needed,” Musk said at the briefing.

“There are only a few more dots that need to be there to have it all work. I think we’ve got a decent chance of bringing a stage back this year, which would be wonderful.”

Overall Musk was very pleased with the performance of the rocket and the landing leg test.

“I would consider it a success in the sense that we were able to control the boost stage to a zero roll rate, which is previously what has destroyed the stage, an uncontrolled roll, where the on-board nitrogen thrusters weren’t able to control the aerodynamic torque and spun up.”

“This time, with more powerful thrusters and more nitrogen propellant, we were able to null the roll rates.”

“I’m feeling pretty excited,” Musk stated. “This is a happy day. Most important of all is that we did a good job for NASA.”

This extra powerful new version of the Falcon 9 dubbed v1.1 is powered by a cluster of nine of SpaceX’s new Merlin 1D engines that are about 50% more powerful compared to the standard Merlin 1C engines. The nine Merlin 1D engines 1.3 million pounds of thrust at sea level rises to 1.5 million pounds as the rocket climbs to orbit.

Therefore the upgraded Falcon 9 can boost a much heavier cargo load to the ISS, low Earth orbit, geostationary orbit and beyond.

Indeed Dragon is loaded with nearly 5000 pounds of cargo, about double the weight carried previously.

If all goes well, Dragon will reach the ISS early on Easter Sunday morning after a two day orbital chase.

Station crew members Rick Mastracchio and Steven Swanson will grapple the Dragon cargo freighter with the 57 foot long Canadarm2 on Easter Sunday at about 7:14 a.m. and then berth it at the Earth-facing port of the Harmony module.

NASA TV coverage of the Easter Sunday grappling process will begin at 5:45 a.m. with berthing coverage beginning at 9:30 a.m. : http://www.nasa.gov/ntv

Stay tuned here for Ken’s continuing SpaceX, Orbital Sciences, commercial space, Orion, Chang’e-3, LADEE, Mars rover, MAVEN, MOM and more planetary and human spaceflight news.

Ken Kremer

Rising slowly from Pad 40, the fully loaded Dragon and Falcon 9 v1.1 vehicle begin the mission to ISS. Credit: nasatech.net
Rising slowly from Pad 40, the fully loaded Dragon and Falcon 9 v1.1 vehicle begin the mission to ISS. Credit: nasatech.net