Artist's concept of the deployment of the eight Cyclone Global Navigation Satellite System (CYGNSS) microsatellite observatories in space. Credits: NASA
Artist’s concept of the deployment of the eight Cyclone Global Navigation Satellite System (CYGNSS) microsatellite observatories in space. Credits: NASA
KENNEDY SPACE CENTER, FL – An exciting new chapter in hurricane monitoring and forecasting intensity prediction is due to open Monday morning at NASA’s Kennedy Space Center when a new constellation of microsatellites dubbed CYGNSS are slated to be deployed from an air-launched Orbital ATK Pegasus XL rocket.
The fleet of eight identical spacecraft comprising the Cyclone Global Navigation Satellite System (CYGNSS) system will be delivered to Earth orbit by an Orbital ATK Pegasus XL rocket.
The Pegasus/CYGNSS vehicle is attached to the bottom of the Orbital ATK L-1011 Stargazer carrier aircraft.
“The CYGNSS constellation consists of eight microsatellite observatories that will measure surface winds in and near a hurricane’s inner core, including regions beneath the eyewall and intense inner rainbands that previously could not be measured from space,” according to a NASA factsheet.
The data obtained by studying the inner core of tropical cyclones “will help scientists and meteorologists better understand and predict the path of a hurricane.”
Improved hurricane forecasts can help protect lives and mitigate property damage in coastal areas under threat from hurricanes and cyclones.
The Orbital ATK L-1011 Stargazer aircraft at the Skid Strip at Cape Canaveral Air Force Station in Florida. Attached beneath the Stargazer is the Orbital ATK Pegasus XL with NASA’s CYGNSS payload on board, being processed for launch on Dec. 12, 2016. Credit: Ken Kremer/kenkremer.com
CYGNSS is an experimental mission to demonstrate proof-of-concept that could eventually turn operational in a future follow-up mission if the resulting data returns turn out as well as the researchers hope.
The Pegasus XL rocket with the eight observatories are tucked inside the nose cone will be air-launched by dropping them from the belly of Orbital’s modified L-1011 carrier aircraft, nicknamed Stargazer, after taking off from the “Skid Strip” runway at Cape Canaveral Air Force Station in Florida.
If all goes well, the rocket will be dropped from Stargazer’s belly for the launch currently planned for Monday, Dec. 12 at 8:24 a.m. EST.
Five seconds after the rocket is deployed at 39,000 feet, the solid fueled Pegasus XL first stage engine with ignite for the trip to low earth orbit.
They will be deployed from a dispenser at an altitude of about 510 km and an inclination of 35 degrees above the equator.
Technician works on Orbital ATK Pegasus XL rocket with NASA’s CYGNSS payload on board on Dec. 10, 2016 in this rear side view showing the first stage engine. They are mated to the bottom of the Orbital ATK L-1011 Stargazer aircraft at the Skid Strip at Cape Canaveral Air Force Station in Florida. Launch is slated for Dec. 12, 2016. Credit: Ken Kremer/kenkremer.com
The launch window lasts 1 hour with the actual deployment timed to occur 5 minutes into the window.
NASA’s Pegasus/CYGNUS launch coverage and commentary will be carried live on NASA TV – beginning at 6:45 a.m. EDT
Live countdown coverage on NASA’s Launch Blog begins at 6:30 a.m. Dec. 12.
The weather forecast from the Air Force’s 45th Weather Squadron at Cape Canaveral is currently predicting a 40% chance of favorable conditions on Monday Dec 12.
The primary weather concerns are for flight through precipitation and cumulus clouds.
The Pegasus rocket cannot fly through rain or clouds due to a negative impact on the thermal protection system.
In the event of a delay, the range is also reserved for Tuesday, Dec. 13 where the daily outlook increases significantly to an 80% chance of favorable weather conditions.
After Stargazer takes off from the Skid Strip early Monday morning around 6:30 a.m. EST, it will fly north to a designated point about 126 miles east of Daytona Beach, Florida over the Atlantic Ocean. The crew can search for a favorable launch point if needed.
The rocket will be dropped for a short freefall of about 5 seconds. It launches horizontally in midair with ignition of the first stage engine burn, and then tilts up to space to begin the trek to LEO.
The $157 million CYGNSS constellation works in coordination with the Global Positioning System (GPS) satellite constellation.
The eight satellite CYGNSS fleet “will team up with the Global Positioning System (GPS) constellation to measure wind speeds over Earth’s oceans and air-sea interactions, information expected to help scientists better understand tropical cyclones, ultimately leading to improved hurricane intensity forecasts.”
They will receive direct and reflected signals from GPS satellites.
“The direct signals pinpoint CYGNSS observatory positions, while the reflected signals respond to ocean surface roughness, from which wind speed is retrieved.”
“Forecasting capabilities are going to be greatly increased,” NASA Launch Manager Tim Dunn said at the prelaunch media briefing at the Kennedy Space Center on Dec. 10. “As a Floridian, I will really appreciate that, certainly based on what we had to do this fall with Hurricane Matthew.”
The nominal mission lifetime for CYGNSS is two years but the team says they could potentially last as long as five years or more if the spacecraft continue functioning.
Pegasus launches from the Florida Space Coast are infrequent. The last once took place over 13 years ago.
Typically they take place from Vandenberg Air Force Base in California or the Reagan Test Range on the Kwajalein Atoll.
CYGNSS counts as the 20th Pegasus mission for NASA.
Flight deck of the Orbital ATK L-1011 Stargazer aircraft that will launch the Orbital ATK Pegasus XL rocket carrying NASA’s CYGNSS payload to low Earth orbit. Credit: Julian Leek
The CYGNSS spacecraft were built by Southwest Research Institute in San Antonio, Texas. Each one weighs approx 29 kg. The deployed solar panels measure 1.65 meters in length.
The Space Physics Research Laboratory at the University of Michigan College of Engineering in Ann Arbor leads overall mission execution in partnership with the Southwest Research Institute in San Antonio, Texas.
The Climate and Space Sciences and Engineering Department at the University of Michigan leads the science investigation, and the Earth Science Division of NASA’s Science Mission Directorate oversees the mission.
Stay tuned here for Ken’s continuing Earth and Planetary science and human spaceflight news.
An Orbital ATK technician checks the installation of two of the eight the CYGNSS microsatellites on their deployment module at Vandenberg Air Force Base in California. Credits: Photo credit: USAF Flight crew for the Orbital ATK L-1011 Stargazer aircraft at the Skid Strip at Cape Canaveral Air Force Station in Florida who will drop and deploy Orbital ATK Pegasus XL rocket delivering NASA’s CYGUS micro satellites to LEO. Credit: Ken Kremer/kenkremer.com
Blastoff of revolutionary NASA/NOAA GOES-R weather satellite on ULA Atlas V on Nov. 19, 2016 - as seen from remote camera at Space Launch Complex 41 (SLC-41) on Cape Canaveral Air Force Station, Florida. GOES-R will deliver a quantum leap in America’s weather forecasting capabilities. Credit: Ken Kremer/kenkremer.com
Blastoff of revolutionary NASA/NOAA GOES-R weather satellite on ULA Atlas V on Nov. 19, 2016 – as seen from remote camera at Space Launch Complex 41 (SLC-41) on Cape Canaveral Air Force Station, Florida. GOES-R will deliver a quantum leap in America’s weather forecasting capabilities. Credit: Ken Kremer/kenkremer.com
KENNEDY SPACE CENTER, FL – The fire and fury of the mighty ULA Atlas V got the gorgeous NASA/NOAA GOES-R weather observatory to geostationary orbit just days ago – as a ‘Thanksgiving’ present to all the people of Earth through the combined efforts of the government/industry/university science and engineering teams of hard working folks who made it possible.
Check out this dazzling photo and video gallery from myself and several space journalist colleagues showing how GOES got going – from prelaunch to launch atop a United Launch Alliance Atlas V rocket from Space Launch Complex 41 (SLC-41) Cape Canaveral Air Force Station at 6:42 p.m. EST in the evening on Saturday, Nov. 19, 2016.
Three and a half hours after liftoff, the bus sized spacecraft successfully separated from the Atlas Centaur upper stage and deployed its life giving solar arrays.
ULA Atlas V rocket and GOES-R weather observatory streak to orbit from launch pad 41 at Cape Canaveral, Florida. Credit: Julian Leek
GOES-R is the most advanced and powerful weather observatory ever built and will bring about a ‘quantum leap’ in weather forecasting.
It’s dramatic new imagery will show the weather in real time enabling critical life and property forecasting, help pinpoint evacuation zones and also save people’s lives in impacted areas of severe weather including hurricanes and tornadoes.
Here’s a pair of beautiful launch videos from space colleague Jeff Seibert and myself:
Video Caption: 5 views from the launch of the NOAA/NASA GOES-R weather satellite on 11/19/2016 from Pad 41 CCAFS on a ULA Atlas. Credit: Jeff Seibert
Video Caption: Launch of the NOAA/NASA GOES-R weather observatory satellite on Nov. 19, 2016 from pad 41 on Cape Canaveral Air Force Station on a ULA Atlas V rocket – as seen in this remote video taken at the pad. Credit: Ken Kremer/kenkremer.com
GOES-R is the first in a new series of revolutionary NASA/NOAA geostationary weather satellites that will soon lead to more accurate and timely forecasts, watches and warnings for the Earth’s Western Hemisphere when it becomes fully operational in about a year.
Ignition of ULA Atlas V rocket and GOES-R weather observatory at launch pad 41 at Cape Canaveral, Florida. Credit: Julian Leek
GOES-R, which stands for Geostationary Operational Environmental Satellite – R Series – is a new and advanced transformational weather satellite that will vastly enhance the quality, speed and accuracy of weather forecasting available to forecasters for Earth’s Western Hemisphere.
The 11,000 pound satellite was built by prime contractor Lockheed Martin and is the first of a quartet of four identical satellites – comprising GOES-R, S, T, and U – at an overall cost of about $11 Billion. This will keep the GOES satellite system operational through 2036.
Blastoff of revolutionary NASA/NOAA GOES-R weather satellite on ULA Atlas V on Nov. 19, 2016 – as seen from remote camera at Space Launch Complex 41 (SLC-41) on Cape Canaveral Air Force Station, Florida. Credit: Ken Kremer/kenkremer.com
The science suite includes the Advanced Baseline Imager (ABI) built by Harris Corporation, the Geostationary Lightning Mapper (GLM) built by Lockheed Martin, Solar Ultraviolet Imager (SUVI), Extreme Ultraviolet and X-Ray Irradiance Sensors (EXIS), Space Environment In-Situ Suite (SEISS), and the Magnetometer (MAG).
ABI is the primary instrument and will collect 3 times more spectral data with 4 times greater resolution and scans 5 times faster than ever before – via the primary Advanced Baseline Imager (ABI) instrument – compared to the current GOES satellites.
Atlas V and GOES-R aloft after Nov. 19, 2016 liftoff of the powerful NASA/NOAA weather observatory on ULA Atlas V from pad 41 on Cape Canaveral Air Force Station, Florida – as seen from the VAB roof. Credit: Ken Kremer/kenkremer.com
GOES-R launched on the massively powerful Atlas V 541 configuration vehicle, augmented by four solid rocket boosters on the first stage.
The payload fairing is 5 meters (16.4 feet) in diameter. The first stage is powered by the Russian built duel nozzle RD AMROSS RD-180 engine. And the Centaur upper stage is powered by a single-engine Aerojet Rocketdyne RL10C engine.
This was only the fourth Atlas V launch employing the 541 configuration.
ULA Atlas V rocket and GOES-R weather observatory at launch pad 41 at Cape Canaveral, Florida. Credit: Dawn Leek Taylor
Stay tuned here for Ken’s continuing Earth and Planetary science and human spaceflight news.
Track mobile used to push ULS Atlas V and NASA/NOAA GOES-R to pad 41 from VIF processing facility. Credit: Lane HermannLaunch of NASA/NOAA GOES-R weather observatory on ULA Atlas V on Nov. 19, 2016 from pad 41 on Cape Canaveral Air Force Station, Florida, as seen from Playalinda beach. Credit: Jillian LaudickAtlas V/GOES-R launch as seen rising over neighbor houses in Titusville, Florida on Nov. 19, 2016. Credit: Melissa BaylesAtlas V rocket and GOES-R nighttime launch soars over the swimming pool at the Quality Inn Kennedy Space Center in Titusville, Florida on Nov. 19, 2016. Credit: Wesley BaskinThe NASA/NOAA GOES-R (Geostationary Operational Environmental Satellite – R Series) being processed at Astrotech Space Operations, in Titusville, FL, in advance of launch on a ULA Atlas V on Nov. 19, 2016. GOES-R will be America’s most advanced weather satellite. Credit: Ken Kremer/kenkremer.com
The NASA/NOAA GOES-R (Geostationary Operational Environmental Satellite - R Series) being processed at Astrotech Space Operations, in Titusville, FL, in advance of launch on a ULA Atlas V on Nov. 19, 2016. GOES-R will be America’s most advanced weather satellite. Credit: Ken Kremer/kenkremer.com
The NASA/NOAA GOES-R (Geostationary Operational Environmental Satellite – R Series) being processed at Astrotech Space Operations, in Titusville, FL, in advance of planned launch on a ULA Atlas V slated for Nov. 19, 2016. GOES-R will be America’s most advanced weather satellite. Credit: Ken Kremer/kenkremer.com
KENNEDY SPACE CENTER, FL – After an ironic detour due to Hurricane Matthew, liftoff of the game changing NASA/NOAA next generation GOES-R geostationary weather observation satellite offering a “dramatic leap in capability” is finally on track for this weekend on Nov. 19 from the Florida Space Coast.
And Universe Today recently got an up close look and briefing about the massive probe inside the cleanroom processing facility at Astrotech Space Operations in Titusville, Fl.
“We are bringing the nation a new capability .. that’s a dramatic leap .. to scan the entire hemisphere in about 5 minutes,” said Greg Mandt, NOAA GOES-R program manager during a briefing in the Astrotech cleanroom.
“GOES-R has both weather and space weather detection capabilities!” Tim Gasparrini, GOES-R program manager for Lockheed Martin, told Universe Today during a cleanroom interview.
Astrotech is located just a few miles down the road from NASA’s Kennedy Space Center and the KSC Visitor Complex housing the finest exhibits of numerous spaceships, hardware items and space artifacts.
The NASA/NOAA GOES-R (Geostationary Operational Environmental Satellite – R Series) being processed at Astrotech Space Operations, in Titusville, FL, in advance of planned launch on a ULA Atlas V slated for Nov. 19, 2016. GOES-R will be America’s most advanced weather satellite. Credit: Ken Kremer/kenkremer.com
GOES-R, which stands for Geostationary Operational Environmental Satellite – R Series – is a new and advanced transformational weather satellite that will vastly enhance the quality, speed and accuracy of weather forecasting available to forecasters for Earth’s Western Hemisphere.
Liftoff of the NASA/NOAA GOES-R weather satellite atop a United Launch Alliance (ULA) Atlas V rocket is now scheduled for Saturday, Nov. 19 at 5:42 p.m. from Space Launch Complex 41 (SLC-41) on Cape Canaveral Air Force Station, shortly after sunset.
The launch window extends for an hour from 5:42-6:42 p.m. EST.
GOES-R is the first in a new series of American’s most powerful and most advanced next generation weather observation satellites. It is designed to last for a 15 year orbital lifetime.
Once in orbit it will be known as GOES-16. TV viewers are presently accustomed to seeing daily streams of imagery from the GOES-East and GOES-West weather observation satellites currently in orbit.
What’s the big deal about GOES-R?
Audiences will notice big changes from GOES-R once it becomes operational because it will provide images of weather patterns and severe storms as regularly as every five minutes or as frequently as every 30 seconds.
“These images can be used to aid in weather forecasts, severe weather outlooks, watches and warnings, lightning conditions, maritime forecasts and aviation forecasts.
“It also will assist in longer term forecasting, such as in seasonal predictions and drought outlooks. In addition, space weather conditions will be monitored constantly, including the effects of solar flares to provide advance notice of potential communication and navigation disruptions. It also will assist researchers in understanding the interactions between land, oceans, the atmosphere and climate.”
GOES-R was built by prime contractor Lockheed Martin and is the first of a four satellite series – comprising GOES-R, S, T, and U that will be keep the GOES satellite system operational through 2036.
All four of the revolutionary 11,000 pound satellites are identical. The overall cost is about $11 Billion.
“This is a very exciting time,” explained Greg Mandt, the NOAA GOES-R program manager during the Astrotech cleanroom briefing.
“This is the culmination of about 15 years of intense work for the great team of NOAA and NASA and our contractors Lockheed Martin and Harris.”
“We are bringing the nation a new capability. The GOES program has been around for about 40 years and most every American sees it every night on the weather broadcasts when they see go to the satellite imagery. And what’s really exciting is that for the first time in that 40 years we are really end to end replacing the entire GOES system. The weather community is really excited about what we are bringing.”
“It’s a dramatic leap in capability – like moving from black and white TV to HDTV.”
“We will be able to scan the entire hemisphere in about 5 minutes and do things so much faster with double the resolution.”
The NASA/NOAA/Lockheed Martin/Harris GOES-R team gives a big thumbs up for the dramatic leap in capability this next gen weather observation satellite will provide – during media briefing at Astrotech Space Operations, in Titusville, FL. Launch is set for Nov. 19, 2016. Credit: Ken Kremer/kenkremer.com
It was built in facilities in Bucks County, Pennsylvania and Denver, Colorado. It arrived at Astrotech in August for final processing and checkouts of the spacecraft and instruments.
The gigantic school bus sized satellite is equipped with a suite of six instruments or sensors that are the most advanced of their kind. They will be used for three types of observations: Earth sensing, solar imaging, and space environment measuring. They will point to the Earth, the Sun and the in-situ environment of the spacecraft.
The suite includes the Advanced Baseline Imager (ABI), Geostationary Lightning Mapper (GLM), Solar Ultraviolet Imager (SUVI), Extreme Ultraviolet and X-Ray Irradiance Sensors (EXIS), Space Environment In-Situ Suite (SEISS), and the Magnetometer (MAG).
The two Earth-pointing instruments are on the top of the spacecraft – namely ABI and GLM.
“ABI is the premier instrument on the spacecraft. When you turn on the news and see a severe storm picture, that’s the one it comes from. It takes pictures in the visible as well as the infrared (IR), near infrared (IR),” Tim Gasparrini, GOES-R program manager for Lockheed Martin, told Universe Today during a cleanroom interview.
“It is looking for things like moisture, vegetation, aerosols and fire. So it looks across a broad spectrum to determine the environmental conditions on Earth.”
ABI offers 3 times more spectral channels with 4 times greater resolution and scans 5 times faster than ever before, compared to the current GOES satellites.
The GOES-R ABI will view the Earth with 16 different spectral bands (compared to five on current GOES), including two visible channels, four near-infrared channels, and ten infrared channels, according to the mission fact sheet.
It will also carry the first operational lightning mapper ever flown in space – GLM – built by Lockheed Martin. It has a single-channel, near-infrared optical transient detector.
“This is the first lightning mapper in space and at geostationary orbit.”
“GLM takes a picture of a scene on the Earth 500 times per second. And it compares those images for a change in the scene that can detect lightning, using an algorithm,” Gasparrini told me.
“The importance of that is lightning is a precursor to severe weather. So they are hoping that GLM will up to double the tornado warning time. So instead of 10 minutes warning you get 20 minutes warning, for example.”
GLM will measure total lightning (in-cloud, cloud-to-cloud and cloud-to-ground) activity continuously over the Americas and adjacent ocean regions with near-uniform spatial resolution of approximately 10 km.
Side view of NASA/NOAA GOES-R next gen weather observation satellite showing solar panels and instruments inside Astrotech Space Operations cleanroom, in Titusville, FL. Launch is set for Nov. 19, 2016. Credit: Ken Kremer/kenkremer.com
“The two solar pointing instruments are located on a platform that constantly points them at the sun – SUVI (built by Lockheed Martin and EXIS. SUVI looks at the sun in the ultraviolet and EXIS looks at the x-ray wavelengths.”
The instruments work in concert.
“SUVI detects a solar flare on he sun and EXIS measures the intensity of the flare. As it comes towards the Earth, NOAA then uses the DSCOVR satellite [launched last year] as sort of a warning buoy about 30 minutes before the Earth. This gives a warning that a geomagnetic storm is heading toward the Earth.”
“When the storm reaches the Earth, the magnetometer instrument (MAG) on GOES-R then measures the influence of the magnetic storm on the magnetic field of the Earth.”
“Then the SEISS instrument, a charged particle detector, measures the charged particle effect of the storm on the Earth at geostationary orbit.”
“So GOES-R has both weather and space weather detection capabilities!” Gasparini elaborated.
The huge bus sized satellite measures 6.1 m x 5.6 m x 3.9 m (20.0 ft x 18.4 ft x 12.8 ft) with a three-axis stabilized spacecraft bus.
It has a dry mass of 2,857 kg (6,299 lbs) and a fueled mass of 5,192 kg (11,446 lbs) at launch.
The instruments are very sensitive to contamination and the team is taking great care to limit particulate and molecular contaminants in the cleanroom. Some of the instruments have contamination budget limits of less than 10 angstroms – smaller than the diameter of a typical molecule. So there can’t even be a single layer of molecules on the instruments surface after 15 years on orbit.
GOES-R can also multitask according to a NASA/NOAA factsheet.
“It can scan the Western Hemisphere every 15 minutes, the Continental U.S. every 5 minutes and areas of severe weather every 30-60 seconds. All at the same time!”
GOES-R will blastoff on a ULA Atlas V in the very powerful 541 configuration, augmented by four solid rocket boosters on the first stage. The payload fairing is 5 meters (16.4 feet) in diameter and the upper stage is powered by a single-engine Centaur.
It will be launched to a Geostationary orbit some 22,300 miles above Earth.
The Atlas V booster has been assembled inside the Vertical Integration Facility (VIF) at SLC-41 and will be rolled out to the launch pad Friday morning, Nov. 18 with the GOES-R weather satellite encapsulated inside the nose cone.
The weather forecast shows a 80 percent chance of favorable weather conditions for Saturday’s sunset blastoff.
GOES-R logo. Credit: NASA/NOAA
Stay tuned here for Ken’s continuing Earth and Planetary science and human spaceflight news.
Learn more about GOES-R weather satellite, Heroes and Legends at KSCVC, OSIRIS-REx, InSight Mars lander, ULA, SpaceX and Orbital ATK missions, Juno at Jupiter, SpaceX AMOS-6 & CRS-9 rocket launch, ISS, ULA Atlas and Delta rockets, Orbital ATK Cygnus, Boeing, Space Taxis, Mars rovers, Orion, SLS, Antares, NASA missions and more at Ken’s upcoming outreach events:
Nov 17-20: “GOES-R weather satellite launch, OSIRIS-Rex, SpaceX and Orbital ATK missions to the ISS, Juno at Jupiter, ULA Delta 4 Heavy spy satellite, SLS, Orion, Commercial crew, Curiosity explores Mars, Pluto and more,” Kennedy Space Center Quality Inn, Titusville, FL, evenings
GOES-R infographicTim Gasparinni, GOES-R program manager for Lockheed Martin, and Ken Kremer/University Today pose with GOES-R revolutionary weather satellite inside Astrotech Space Operations cleanroom, in Titusville, FL, and built by NASA/NOAA/Lockheed Martin/Harris. Credit: Ken Kremer/kenkremer.com
SpaceX Falcon 9 rocket moments after catastrophic explosion destroys the rocket and Amos-6 Israeli satellite payload at launch pad 40 at Cape Canaveral Air Force Station, FL, on Sept. 1, 2016. A static hot fire test was planned ahead of scheduled launch on Sept. 3, 2016. Credit: USLaunchReport
SpaceX Falcon 9 rocket moments after catastrophic explosion destroys the rocket and Amos-6 Israeli satellite payload at launch pad 40 at Cape Canaveral Air Force Station, FL, on Sept. 1, 2016. A static hot fire test was planned ahead of scheduled launch on Sept. 3, 2016. Credit: USLaunchReport
Musk further indicated in the Nov. 4 interview with CNBC that they have discovered the problem that suddenly triggered the catastrophic Falcon 9 launch pad explosion that suddenly destroyed the rocket and $200 million Israeli Amos-6 commercial payload during a routine fueling and planned static fire engine test on Sept. 1.
“I think we’ve gotten to the bottom of the problem,” Musk said. “It was a really surprising problem. It’s never been encountered before in the history of rocketry.”
Musk said the issue related to some type of interaction between the liquid helium bottles , carbon composites and solidification of the liquid oxygen propellant in the SpaceX Falcon 9 second stage.
“It basically involves a combination of liquid helium, advanced carbon fiber composites, and solid oxygen, Musk elaborated.
“Oxygen so cold that it enters the solid phase.”
“Turning out to be the most difficult and complex failure we have ever had in 14 years,” Musk previously tweeted on Sept. 9.
“It’s never happened before in history. So that’s why it took us awhile to sort it out,” Musk told CNBC on Nov. 4.
SpaceX founder and CEO Elon Musk. Credit: Ken Kremer/kenkremer.com
The explosion took place without warning as liquid oxygen and RP-1 propellants were being loaded into the second stage of the 229-foot-tall (70-meter) Falcon 9 during a routine fueling test and engine firing test at SpaceX’s Space Launch Complex-40 launch facility at approximately 9:07 a.m. EDT on Sept. 1 on Cape Canaveral Air Force Station, Fl.
But the rocket blew up during the fueling operations and the SpaceX launch team never even got to the point of igniting the first stage engines for the static fire test.
Launch of the AMOS-6 comsat from pad 40 had been scheduled to take place two days later.
In company updates posted to the SpaceX website on Sept. 23 and Oct 28, the company said the anomaly appears to be with a “large breach” in the cryogenic helium system of the second stage liquid oxygen tank – but that the root cause had not yet been determined.
“The root cause of the breach has not yet been confirmed, but attention has continued to narrow to one of the three composite overwrapped pressure vessels (COPVs) inside the LOX tank.”
“Through extensive testing in Texas, SpaceX has shown that it can re-create a COPV failure entirely through helium loading conditions.”
The helium loading is “mainly affected by the temperature and pressure of the helium being loaded.”
“This was the toughest puzzle to solve that we’ve ever had to solve,”Musk explained to CNBC.
After the Sept. 1 accident, SpaceX initiated a joint investigation to determine the root cause with the FAA, NASA, the US Air Force and industry experts who have been “working methodically through an extensive fault tree to investigate all plausible causes.”
“We have been working closely with NASA, and the FAA [Federal Aviation Administration] and our commercial customers to understand it,” says Musk.
SpaceX is renovating Launch Complex 39A at the Kennedy Space Center for launches of the Falcon Heavy and human rated Falcon 9. Credit: Ken Kremer/kenkremer.com
Musk was not asked and did not say from which launch pad the Falcon 9 would launch or what the payload would be.
“It looks like we’re going to be back to launching around mid-December,” he replied.
SpaceX maintains launch pads on both the US East and West coasts.
“Pending the results of the investigation, we continue to work towards returning to flight before the end of the year. Our launch sites at Kennedy Space Center, Florida, and Vandenberg Air Force Base, California, remain on track to be operational in this timeframe,” SpaceX said on Oct 28.
At KSC launches will initially take place from pad 39A, the former shuttle pad that SpaceX has leased from NASA.
Pad 40 is out of action until extensive repairs and testing are completed.
Aerial view of pad and strongback damage at SpaceX Launch Complex-40 as seen from the VAB roof on Sept. 8, 2016 after fueling test explosion destroyed the Falcon 9 rocket and AMOS-6 payload at Cape Canaveral Air Force Station, FL on Sept. 1, 2016. Credit: Ken Kremer/kenkremer.com
The Sept. 1 calamity was the second Falcon 9 failure within 15 months time and will call into question the rockets overall reliability.
The first Falcon 9 failure involved a catastrophic mid air explosion in the second stage about two and a half minutes after liftoff, during the Dragon CRS-9 cargo resupply launch for NASA to the International Space Station on June 28, 2015 – and witnessed by this author.
Although both incidents involved the second stage, SpaceX maintains that they are unrelated – even as they continue seeking to determine the root cause.
SpaceX must determine the root cause before Falcon 9 launches are allowed to resume. Effective fixes must be identified and effective remedies must be verified and implemented.
Overview schematic of SpaceX Falcon 9. Credit: SpaceX
Stay tuned here for Ken’s continuing Earth and Planetary science and human spaceflight news.
A United Launch Alliance (ULA) Atlas V rocket carrying the Orbital ATK Cygnus 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 Orbital ATK Cygnus 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
At the time, Orbital ATK officials told Universe Today they were working towards efforts for the next Cygnus to launch from Wallops on the OA-7 resupply mission sometime next spring – tentatively in March 2017.
“Following a successful Antares launch for the recent OA-5 Commercial Resupply Services mission and subsequent rendezvous and berthing of the Cygnus spacecraft with the International Space Station, Orbital ATK has responded to NASA’s needs for enhanced schedule assurance for cargo deliveries and maximum capacity of critical supplies to the space station in 2017 by once again partnering with United Launch Alliance to launch Cygnus aboard an Atlas V for the upcoming OA-7 mission in the spring timeframe,” Orbital ATK said in a statement to Universe Today.
“We anticipate the earliest we may need a NASA commercial resupply mission is early 2017. We mutually agreed with Orbital ATK to use an Atlas V for the company’s seventh contracted cargo resupply mission to the space station in the spring. We will provide additional details at a later date,” NASA HQ public affairs told Universe Today for this story.
The Orbital ATK Antares rocket topped with the Cygnus cargo spacecraft launches from Pad-0A, Monday, Oct. 17, 2016 at NASA’s Wallops Flight Facility in Virginia. Orbital ATK’s sixth contracted cargo resupply mission with NASA to the International Space Station. Credit: Ken Kremer/kenkremer
The ULA Atlas V would launch from Space Launch Complex-41 on Cape Canaveral Air Force Station.
Cygnus OA-7 will be processed and loaded at NASA’s Kennedy Space Center in Florida for later integration with the Atlas V.
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
When Cygnus launches on Atlas from KSC it can carry roughly over 300 pounds more to orbit vs. using Antares from Virginia.
The Cygnus OA-5 spaceship is currently still berthed at the million pound station and carried about 5100 pounds to orbit.
Thus the ISS is in good shape overall at this time from a supplies standpoint.
“Supplies and research investigations are at good levels aboard the International Space Station. In addition to Orbital ATK’s recent successful commercial resupply services mission to station in October, a Russian Progress and Japanese HTV will carry additional cargo to the orbiting laboratory before the end of the year,” NASA public affairs elaborated for this story.
Installation complete! Orbital ATK’s Cygnus cargo spacecraft was attached to the International Space_Station at 10:53 a.m. EDT on 23 Oct. 2016 after launching atop Antares rocket on 17 Oct. 2016 from NASA Wallops in Virginia. Credit: NASA
Last month’s ‘Return to Flight’ liftoff of the upgraded Antares took place two years after its catastrophic failure moments after launch on October 28, 2014 with another Cygnus cargo ship bound for the International Space Station (ISS) that was destroyed along with all its precious contents.
NASA must have a robust and steady train of cargo ships flying to the ISS to keep it fully operational and stocked with research and provisions for the international crews to maximize the stations science output.
“NASA is continuously working with all our partners on range availability, space station traffic and other factors to ensure we operate station in a safe and effective way as we use it for preparing for longer duration missions farther into the solar system,” NASA PAO told me.
The Atlas V built by competitor United Launch Alliance (ULA) enjoys a 100% record of launch success and was recently employed by Orbital ATK to launch a pair of Cygnus vessels to the International Space Station in the past year – in Dec. 2015 on the OA-4 mission and March 2016 on the OA-6 mission.
Orbital ATK contracted ULA to launch Cygnus spacecraft to the ISS as an interim measure to fulfill their obligations to NASA to keep the station fully operational.
Orbital ATK Vice President Frank Culbertson had previously told me that Orbital ATK could readily launch future Cygnus spaceships on the ULA Atlas V again, if the need arose.
Seeking some near term launch stability NASA has apparently decided that that need has now arisen.
Both Atlas/Cygnus cargo missions went off without a hitch and provide a ready and working template for the upcoming OA-7 cargo ship to be processed again at KSC and launched from Cape Canaveral in the spring of 2017.
Orbital ATK says that follow on Cygnus craft will again return to the Antares rocket for Virginia launches later in 2017.
“Orbital ATK’s remaining missions to be conducted in 2017 and 2018 under the CRS-1 contract will launch aboard the company’s Antares rockets from NASA Wallops Flight Facility in Virginia.”
On-Ramp to the International Space Station (ISS) with Orbital ATL Antares rocket and Cygnus cargo freighter which launched on 17 Oct. 2016 and berthed at the Unity docking port on 23 Oct. 2016. Credit: Ken Kremer/kenkremer
Altogether a trio of Cygnus vessels might launch in 2017.
“The company will be ready to support three cargo resupply missions to the station next year, and will work with NASA to finalize the flight schedule,” the company said.
“The schedule provides margin flexibility for the entire Antares workforce, who worked tirelessly for the past several months to prepare and successfully launch the upgraded rocket from Wallops Island on the OA-5 mission.”
Cygnus was designed from the start to launch on a variety of launch vehicles – in addition to Antares.
“This plan also allows NASA to again capitalize on the operational flexibility built into Orbital ATK’s Cygnus spacecraft to assure the space station receives a steady and uninterrupted flow of vital supplies, equipment and scientific experiments.”
Under the Commercial Resupply Services (CRS) contract with NASA, Orbital ATK will deliver approximately 28,700 kilograms of cargo to the space station. OA-5 is the sixth of these missions.
It is not clear at this time who will shoulder the added cost of launching Cygnus OA-7 on Atlas instead of Antares.
Watch for Ken’s Antares/Atlas/Cygnus mission and launch reporting. He was reporting from on site at NASA’s Wallops Flight Facility, VA during the OA-5 launch campaign and previously from KSC for the OA-4 and OA-6 liftoffs.
Stay tuned here for Ken’s continuing Earth and Planetary science and human spaceflight news.
Cygnus cargo spacecraft atop Orbital ATK Antares rocket on Pad-0A prior to blastoff on Oct. 17, 2016 from NASA’s Wallops Flight Facility in Virginia on Orbital ATK’s sixth contracted cargo resupply mission with NASA to the International Space Station. Credit: Ken Kremer/kenkremer
SpaceX Falcon 9 rocket moments after catastrophic explosion destroys the rocket and Amos-6 Israeli satellite payload at launch pad 40 at Cape Canaveral Air Force Station, FL, on Sept. 1, 2016. A static hot fire test was planned ahead of scheduled launch on Sept. 3, 2016. Credit: USLaunchReport
SpaceX Falcon 9 rocket moments after catastrophic explosion destroys the rocket and Amos-6 Israeli satellite payload at launch pad 40 at Cape Canaveral Air Force Station, FL, on Sept. 1, 2016. A static hot fire test was planned ahead of scheduled launch on Sept. 3, 2016. Credit: USLaunchReport
“The Accident Investigation Team continues to make progress in examining the anomaly on September 1 that led to the loss of a Falcon 9 and its payload at Launch Complex 40 (LC-40), Cape Canaveral Air Force Station, Florida,” SpaceX announced in an Oct. 28 update.
The company had previously said in a statement issued on Sept. 23 that investigators had determined that a “large breach” in the cryogenic helium system of the second stage liquid oxygen tank likely triggered the catastrophic Falcon 9 launch pad explosion that suddenly destroyed the rocket and Israeli Amos-6 commercial payload during the routine fueling test almost two months ago.
“The root cause of the breach has not yet been confirmed, but attention has continued to narrow to one of the three composite overwrapped pressure vessels (COPVs) inside the LOX tank,” SpaceX explained in the new statement issued on Oct. 28.
“Through extensive testing in Texas, SpaceX has shown that it can re-create a COPV failure entirely through helium loading conditions.”
The helium loading is “mainly affected by the temperature and pressure of the helium being loaded.”
And SpaceX CEO and Founder Elon Musk had previously cited the explosion as “most difficult and complex failure” in the firms history.
“Turning out to be the most difficult and complex failure we have ever had in 14 years,” Musk tweeted on Friday, Sept. 9.
Aerial view of pad and strongback damage at SpaceX Launch Complex-40 as seen from the VAB roof on Sept. 8, 2016 after fueling test explosion destroyed the Falcon 9 rocket and AMOS-6 payload at Cape Canaveral Air Force Station, FL on Sept. 1, 2016. Credit: Ken Kremer/kenkremer.com
The helium loading procedures may well need to be modified, as an outcome of the accident investigation, to enable safe loading conditions.
SpaceX is conducting a joint investigation of the Sept. 1 anomaly with the FAA, NASA, the US Air Force and industry experts who have been “working methodically through an extensive fault tree to investigate all plausible causes.”
The explosion also caused extensive damage to launch pad 40 as well as to the rockets transporter erector, or strongback, that holds the rocket in place until minutes before liftoff, and ground support equipment (GSE) around the pad – as seen in my photos of the pad taken a week after the explosion during the OSIRIS-REx launch campaign.
Fortunately, many other pad areas and infrastructure survived intact or in good condition.
Overview schematic of SpaceX Falcon 9. Credit: SpaceX
The company is conducting an extensive series of ground tests at the firms Texas test site to elucidate as much information as possible as a critical aid to investigators.
“We have conducted tests at our facility in McGregor, Texas, attempting to replicate as closely as possible the conditions that may have led to the mishap.”
The explosion took place without warning at SpaceX’s Space Launch Complex-40 launch facility at approximately 9:07 a.m. EDT on Sept. 1 on Cape Canaveral Air Force Station, Fl, during a routine fueling test and engine firing test as liquid oxygen and RP-1 propellants were being loaded into the 229-foot-tall (70-meter) Falcon 9. Launch of the AMOS-6 comsat was scheduled two days later.
Both the $60 million SpaceX rocket and the $200 million AMOS-6 Israeli commercial communications satellite payload were completely destroyed in a massive fireball that erupted suddenly during the planned pre-launch fueling and hot fire engine ignition test at pad 40 on Sept. 1. There were no injuries since the pad had been cleared.
The rocket disaster was coincidentally captured as it unfolded in stunning detail in a spectacular up close video recorded by my space journalist colleague Mike Wagner at USLaunchReport.
Watch this video:
Video Caption: SpaceX – Static Fire Anomaly – AMOS-6 – 09-01-2016. Credit: USLaunchReport
SpaceX continues to work on root cause and helium loading procedures.
“SpaceX’s efforts are now focused on two areas – finding the exact root cause, and developing improved helium loading conditions that allow SpaceX to reliably load Falcon 9.”
The company also still hopes to resume Falcon 9 launches before the end of 2016.
“Pending the results of the investigation, we continue to work towards returning to flight before the end of the year. Our launch sites at Kennedy Space Center, Florida, and Vandenberg Air Force Base, California, remain on track to be operational in this timeframe.”
At KSC launches will initially take place from pad 39A, the former shuttle pad that SpaceX has leased from NASA.
Pad 40 is out of action until extensive repairs and testing are completed.
SpaceX is renovating Launch Complex 39A at the Kennedy Space Center for launches of the Falcon Heavy and human rated Falcon 9. Credit: Ken Kremer/kenkremer.com
The Sept. 1 calamity was the second Falcon 9 failure within 15 months time and will call into question the rockets overall reliability.
The first Falcon 9 failure involved a catastrophic mid air explosion in the second stage about two and a half minutes after liftoff, during the Dragon CRS-9 cargo resupply launch for NASA to the International Space Station on June 28, 2015 – and witnessed by this author.
Although both incidents involved the second stage, SpaceX maintains that they are unrelated – even as they continue seeking to determine the root cause.
SpaceX must determine the root cause before Falcon 9 launches are allowed to resume. Effective fixes must be identified and effective remedies must be verified and implemented.
Stay tuned here for Ken’s continuing Earth and Planetary science and human spaceflight news.
Up close view of top of mangled SpaceX Falcon 9 strongback with dangling cables (at right) as seen on Sept. 7 after prelaunch explosion destroyed the rocket and AMOS-6 payload and damaged the pad at Space Launch Complex-40 at Cape Canaveral Air Force Station, FL on Sept. 1, 2016 . Credit: Ken Kremer/kenkremer.comMangled SpaceX Falcon 9 strongback after prelaunch explosion destroyed the rocket and AMOS-6 payload and damaged the pad. Credit: Ken Kremer/kenkremer.com
SpaceX is renovating Launch Complex 39A at the Kennedy Space Center for launches of the Falcon Heavy and human rated Falcon 9. Credit: Ken Kremer/kenkremer.com
SpaceX is renovating Launch Complex 39A at the Kennedy Space Center for launches of the Falcon Heavy and human rated Falcon 9. Credit: Ken Kremer/kenkremer.com
“Hurricane Matthew caused some damage to the exterior of SpaceX’s payload processing facility [PPF] at Space Launch Complex-40 at Cape Canaveral Air Force Station,” SpaceX spokesman John Taylor told Universe Today.
The payload processing facility (PPF) is the facility where the satellites and payloads are processed to prepare them for flight and launches on the firm’s commercial Falcon 9 rockets.
Some exterior panels were apparently blown out by the storm.
The looming threat of a direct hit by the Category 4 storm Hurricane Matthew on Friday, Oct. 7, on Cape Canaveral and the Kennedy Space Center (KSC) forced the closure of both facilities before the storm hit. They remained closed over the weekend except to emergency personal.
The deadly storm also caused some minor damage to the Kennedy Space Center and USAF facilities on the base.
Meanwhile competitor ULA also told me their facilities suffered only minor damage.
The PPF is located on Cape Canaveral Air Force Station, a few miles south of the Falcon 9 launch pad at Space Launch Complex-40 (SLC-40).
The PPF is inside the former USAF Solid Motor Assembly Building (SMAB) used for the now retired Titan IV rockets.
Fortunately, SpaceX has another back-up facility at pad 40 where technicians and engineers can work to prepare the rocket payload for flight.
“The company has a ready and fully capable back-up for processing payloads at its SLC-40 hangar annex building,” Taylor elaborated.
SpaceX Falcon 9 rocket on pad 40 with backup processing hanger visible, prior to launch of SES-9 communications satellite in March 2016 at Cape Canaveral Air Force Station, FL. Credit: Ken Kremer/kenkremer.com
And except for the minor damage to the PPF facility where payloads are processed, SpaceX says there was no other damage to infrastructure at pad 40 or to Launch Complex 39A at the Kennedy Space Center.
“There was no damage the company’s facilities at Pad 39A at Kennedy Space Center,” Taylor told me.
SpaceX Falcon 9 rocket moments after catastrophic explosion destroys the rocket and Amos-6 Israeli satellite payload at launch pad 40 at Cape Canaveral Air Force Station, FL, on Sept. 1, 2016. A static hot fire test was planned ahead of scheduled launch on Sept. 3, 2016. Credit: USLaunchReport
However SLC-40 is not operational at this time, since it was heavily damaged during the Sept. 1 launch pad disaster when a Falcon 9 topped with the Israeli Amos-9 comsat exploded on the launch pad during a routine prelaunch fueling operation and a planned first stage static fire engine test.
Mangled SpaceX Falcon 9 strongback with dangling cables (at right) as seen on Sept. 7 after prelaunch explosion destroyed the rocket and AMOS-6 payload at Space Launch Complex-40 at Cape Canaveral Air Force Station, FL on Sept. 1, 2016. Credit: Ken Kremer/kenkremer.com
As SpaceX was launching Falcon 9 rockets from pad 40, they have been simultaneously renovating and refurbishing NASA’s former shuttle launch pad at Launch Complex 39A at the Kennedy Space Center (KSC) which they leased from NASA.
SpaceX plans to start launching their new Falcon Heavy booster from pad 39A in 2017 as well as human rated launches of the Falcon 9 with the Crew Dragon to the ISS.
However, following the pad 40 disaster, SpaceX announced plans to press pad 39A into service for commercial Falcon 9 satellite launches as well.
SpaceX President Gwynne Shotwell recently said that the company hoped to resume launches in November while they search for a root cause to the pad 40 catastrophe – as I reported here.
Speaking at the annual meeting of the National Academy of Engineering in Washington, D.C. on Oct. 9 Shotwell indicated that investigators are making progress to determine the cause of the mishap.
“We’re homing in on what happened,” she said, according to a story by Space News. “I think it’s going to point not to a vehicle issue or an engineering design issue but more of a business process issue.”
Space News said that she did not elaborate further.
Stay tuned here for Ken’s continuing Earth and Planetary science and human spaceflight news.
The NASA/NOAA GOES-R (Geostationary Operational Environmental Satellite - R Series) being processed at Astrotech Space Operations, in Titusville, FL, in advance of launch on a ULA Atlas V on Nov. 19, 2016. GOES-R will be America’s most advanced weather satellite. Credit: Ken Kremer/kenkremer.com
The NASA/NOAA GOES-R (Geostationary Operational Environmental Satellite – R Series) being processed at Astrotech Space Operations, in Titusville, FL, in advance of the planned launch on a ULA Atlas V likely delayed from Nov 4, 2016 by Hurricane Matthew. GOES-R will be America’s most advanced weather satellite. Credit: Ken Kremer/kenkremer.com
Next month’s launch of GOES-R – a new and advanced transformational weather satellite that will vastly enhance the quality, speed and accuracy of weather forecasting – will likely be delayed a few days due to lingering storm related effects of deadly Hurricane Matthew on launch preparations at Cape Canaveral Air Force Station and the Kennedy Space Center (KSC), Universe Today confirmed with launch provider United Launch Alliance (ULA).
Liftoff of the NASA/NOAA GOES-R (Geostationary Operational Environmental Satellite – R Series) weather satellite atop a United Launch Alliance (ULA) Atlas V rocket had been scheduled for Nov. 4 at 5:40 p.m. from Space Launch Complex 41 (SLC-41) on Cape Canaveral Air Force Station.
GOES-R is the first in a new series of American’s most powerful and most advanced next generation weather observation satellites.
It’s ironic that awful weather is impacting the launch of this critical weather satellite.
It’s not known how long any postponement would be – perhaps only a few days since preliminary indications are that the base suffered only minor damage and there are no reports of major damage.
“Our teams are still doing a damage assessment. So we don’t have a status about all of our infrastructure yet,” Chassagne told me.
“A preliminary assessment shows that we have some minor damage to a few of our facilities. We had no rockets on the pads. So there is no damage to hardware.”
Damage assessment teams are evaluating the launch pad and launch facilities in detail right now.
“Since we still have emergency response teams in assessing, we don’t know how long the delay will be until we get those assessments.”
The NASA/NOAA GOES-R (Geostationary Operational Environmental Satellite – R Series) being processed at Astrotech Space Operations, in Titusville, FL, in advance of the planned launch on a ULA Atlas V likely delayed from Nov 4, 2016 by Hurricane Matthew. GOES-R will be America’s most advanced weather satellite. Credit: Ken Kremer/kenkremer.com
The looming threat of a direct hit on Cape Canaveral and KSC from the Category 4 storm Hurricane Matthew on Friday, Oct. 7, forced the closure of both facilities before the storm hit. They remained closed this weekend except to emergency personal.
“Got in today to assess. Light to moderate damage to our facilities. No damage to any flight assets,” tweeted ULA CEO Tory Bruno.
The base closures therefore also forced a halt to launch preparations at the Cape and pad 41.
The storm grazed by the Kennedy Space Center (KSC), Cape Canaveral Air Force Station (CCAFS) and the major population centers along the Florida Space Coast with wind gusts up to 107 mph – rather than making a direct impact as feared.
“Hurricane Matthew passed Cape Canaveral and Kennedy Space Center …. with sustained winds of 90 mph with gusts to 107 mph,” on Friday, NASA officials reported.
The storm passed “the space center about 26 miles off the tip of Cape Canaveral.”
Cat 4 Hurricane Matthew track during the late evening of 6 Oct 2016. Credit: NASA/NOAA
The launch ULA facilities are now being thoroughly inspected before any launch preparation can proceed.
The satellite is in the final stages of preparation at the Astrotech Space Operations Facility in Titusville, FL as I recently observed during an up close visit in the High Bay cleanroom.
Check out this amazing rooftop video showing the high winds pummeling Titusville during Hurricane Matthew just a few miles away from Astrotech and the GOES-R satellite – from my space colleague Jeff Seibert.
Video caption: Before we bailed out on Thursday afternoon, I clamped one of my launch pad remote cameras to the power service post on our roof. Wind is blocked a lot by trees but none fell on the house. The highest recorded wind speed was 51mph at 7:30AM on Oct. 7, 2016. The minimum barometric pressure was 28.79″ from 8:20 – 9 AM. We got 5.9″ of rain. The ridge line faces due east. We never lost power. Credit: Jeff Seibert
Lockheed Martin is the prime contractor for GOES-R.
United Launch Alliance Atlas V rocket lifts off from Space Launch Complex 41 at Cape Canaveral Air Force Station carrying NASA’s Origins, Spectral Interpretation, Resource Identification, Security-Regolith Explorer, or OSIRIS-REx spacecraft on the first U.S. mission to sample an asteroid on September 8, 2016. GOES-R launch on an Atlas V planned for Nov. 4 is likely delayed due to Hurricane Matthew. Credit: Ken Kremer/kenkremer.com
Whenever it does launch, GOES-R will blast off on a ULA Atlas V in the very powerful 541 configuration, augmented by four solid rocket booster on the first stage.
It will be launched to a Geostationary orbit some 22,300 miles above Earth.
But ULA has not yet begun assembling the Atlas V booster inside the Vertical Integration Facility (VIF) at SLC-41 due to the storm.
Because of Hurricane Matthew, the first stage arrival had to be postponed. The second stage is already in port at the Delta operations center and being integrated.
“The first stage booster is not yet at the Cape,” Chassagne confirmed.
However, conditions at the Cape have improved sufficiently for the US Air Force to clear its shipment into port, as of this evening.
“We just cleared CCAFS to be able to accept a booster for the GOES-R launch–how appropriate that GOES is a weather satellite!” wrote Brig. Gen. Wayne Monteith, commander of the Air Force’s 45th Space Wing at Patrick Air Force Base, in a Facebook update late today, Oct. 9.
“We are returning to full mission capability and our status as the World’s Premier Gateway to Space.”
Artists concept for NASA/NOAA GOES-R (Geostationary Operational Environmental Satellite – R Series) advanced weather satellite in Earth orbit. Credit: NASA/NOAA
Stay tuned here for Ken’s continuing Earth and Planetary science and human spaceflight news.
Aerial view of the Vehicle Assembly Building (VAB) at NASA’s Kennedy Space Center (KSC) on Oct. 8, 2016 by damage assessment and recovery team surveying the damage at KSC the day after Hurricane Matthew passed by Cape Canaveral on Oct. 7, 2016 packing sustained winds of 90 mph with gusts to 107 mph. Credit: NASA/Cory Huston
Aerial view of the Vehicle Assembly Building (VAB) at NASA’s Kennedy Space Center (KSC) on Oct. 8, 2016 by damage assessment and recovery team surveying the damage at KSC the day after Hurricane Matthew passed by Cape Canaveral on Oct. 7, 2016 packing sustained winds of 90 mph with gusts to 107 mph. Credit: NASA/Cory Huston
Although some of the base and Space Coast coastal and residential areas did suffer significant destruction most were very lucky to have escaped the hurricanes onslaught in relatively good shape, when it stayed at sea rather than making the forecast direct hit.
KSC’s iconic 525 foot tall Vehicle Assembly Building (VAB), the Complex 39 launch pads and the active launch pads at CCAFS are all standing and intact – as damage evaluations are currently underway by damage assessment and recovery teams from NASA and the US Air Force.
As Hurricane Matthew approached from the south Friday morning Oct. 7 along Florida’s Atlantic coastline, it wobbled east and west, until it finally veered ever so slightly some 5 miles to the East – thus saving much of the Space Coast launch facilities and hundreds of thousands of home and businesses from catastrophic damage from the expected winds and storm surges.
“Hurricane Matthew passed Cape Canaveral and Kennedy Space Center …. with sustained winds of 90 mph with gusts to 107 mph,” on Friday, NASA officials reported.
The storm passed “the space center about 26 miles off the tip of Cape Canaveral.”
Cat 4 Hurricane Matthew track during the late evening of 6 Oct 2016. Credit: NASA/NOAA
KSC and CCAFS did suffer some damage to buildings, downed power lines and some flooding and remains closed.
The Damage Assessment and Recovery Teams have entered the facilities today, Oct. 8, and are surveying the areas right now to learn the extent of the damage and report on when they can reopen for normal operations.
“After the initial inspection flight Saturday morning, it was determined that the center received some isolated roof damage, damaged support buildings, a few downed power lines, and limited water intrusion,” NASA reported late today.
Hurricane force wind from Hurricane Matthew throw a concession stand up against the Spaceflight Now building at the LC 39 Press Site at the Kennedy Space Center in Florida on Oct. 7, 2016. Credit: NASA/Cory Huston
Inspection teams are methodically going from building to building this weekend to assess Matthew’s impact.
“Since safety is our utmost concern, teams of inspectors are going from building-to-building assessing damage.”
It will take time to determine when the center can resume operations.
“Due to the complexity of this effort, teams need time to thoroughly inspect all buildings and roads prior to opening the Kennedy Space Center for regular business operations.”
Not until after a full inspection of the center will a list of damaged buildings and equipment be available. The next update will be available no earlier than Sunday afternoon.
A “ride-out team” of 116 remained at KSC and at work inside the emergency operations center in the Launch Control Center located adjacent to the VAB during the entire Hurricane period.
View of the Vehicle Assembly Building (VAB), Launch Control Center and Mobile Launcher from the KSC Launch Complex 39 Press Site. NASA is upgrading the VAB with new platforms to assemble and launch NASA’s Space Launch System rocket at the Kennedy Space Center in Florida. Credit: Ken Kremer/kenkremer.com
It took until Friday afternoon for winds to drop below 40 knots start preliminary damage assessments.
“KSC is now in a “Weather Safe” condition as of 2 p.m. Friday. While there is damage to numerous facilities at KSC, it consists largely roof damage, window damage, water intrusion, damage to modular buildings and to building siding.”
Teams are also assessing the CCAFS launch pads, buildings and infrastructure. Some buildings suffered severe damage.
“We have survived a catastrophic event that could have easily been cataclysmic. It is only by grace and a slight turn in Matthew’s path that our base and our barrier island homes were not destroyed or covered in seven feet of water,” wrote Brig. Gen. Wayne Monteith, commander of the Air Force’s 45th Space Wing at Patrick Air Force Base, in a Facebook update.
“There is a lot of debris throughout the base.”
“We are still experiencing deficiencies in critical infrastructure, consistent power, emergency services, communications and hazardous material inspections that make portions of our base uninhabitable or potentially dangerous.”
Severely damaged building on Cape Canaveral Air Force Station. Credit: 45th Space Wing
Of particular importance is Space Launch Complex 41 (SLC-41) where the next scheduled liftoff is slated for Nov. 4.
The launch involves America’s newest and most advanced weather satellite on Nov 4. It’s named GOES-R and was slated for blastoff from Cape Canaveral Air Force Station pad 41 atop a United Launch Alliance (ULA) Atlas V rocket.
The launch facilities will have to be thoroughly inspected before the launch can proceed.
The satellite is in the final stages of preparation at the Astrotech Space Operations Facility in Titusville, FL as I recently observed during an up close visit in the High Bay cleanroom.
The NASA/NOAA GOES-R (Geostationary Operational Environmental Satellite – R Series) being processed at Astrotech Space Operations, in Titusville, FL, in advance of the planned launch on a ULA Atlas V on Nov 4, 2016. GOES-R will be America’s most advanced weather satellite. Credit: Ken Kremer/kenkremer.com
The major Space Coast cities in Brevard county suffered much less damage then feared, although some 500,000 residents lost power.
Local government officials allowed most causeway bridges to the barrier islands to be reopened by Friday evening, several local colleagues told me.
Here’s some images of damage to the coastal piers, town and a destroyed house from the Melbourne Beach and Satellite Beach areas from my space colleague Julian Leek.
Home destroyed by fire in Satellite Beach. Credit: Julian LeekHome destroyed by fire in Satellite Beach. Credit: Julian LeekLocal damage in South Melbourne Beach. Credit: Julian Leek
Stay tuned here for Ken’s continuing Earth and Planetary science and human spaceflight news.
Navaho missile on display at the CCAFS south gate suffered severe damage from Hurricane Matthew and crumpled to the ground. Credit: 45th Space WingLocal damage in South Melbourne Beach. Credit: Julian LeekLocal damage in South Melbourne Beach. Credit: Julian Leek
Cat 4 Hurricane Matthew track during the late evening of 6 Oct 2016. Credit: NASA/NOAA
Cat 4 Hurricane Matthew track during the late evening of 6 Oct 2016. Credit: NASA/NOAA
The imminent impact of the already deadly Category 4 Hurricane Matthew along the Florida Space Coast tonight, Thursday, October 6, has forced the closure of NASA’s Kennedy Space Center (KSC) and mass evacuations along the US East coast from Florida, to Georgia to the Carolinas.
“Hurricane Matthew, currently an extremely dangerous Category 4 storm on the Saffir-Simpson Hurricane Wind Scale, continues to bear down on the southeastern United States,” says NASA in an update today.
NASA has closed KSC for today and tomorrow, at a minimum and the center has entered HurrCon 1 status.
“Under the current storm track, peak winds are forecast to be 125 mph sustained with gusts to 150 mph, however a shift in the track even slightly could improve the wind forecast somewhat,” wrote NASA’s Brian Dunbar.
“The Kennedy Space Center is closed today, Oct. 6, and Friday for Hurricane Matthew. Kennedy Space Center is now in HurrCon 1 status, meaning a hurricane is imminent.”
The Kennedy Space Center on Florida’s Space Coast is home to the iconic Vehicle Assembly Building (VAB) – the most well known building at NASA – as well as Launch Complex’s 39 A and B which launched American astronauts to Moon and thereafter Space Shuttles for three decades.
The launch pads sit precariously close to the Atlantic Ocean shoreline – just a few hundred yards (meters) away!
View of the VAB and Mobile Launcher from the KSC Launch Complex 39 Press Site. NASA is upgrading the VAB with new platforms to assemble and launch NASA’s Space Launch System rocket at the Kennedy Space Center in Florida. Credit: Ken Kremer/kenkremer.com
“Across the spaceport, essential personnel are preparing facilities for the storm’s arrival,” according to George Diller, NASA Kennedy Space Center Public Affairs Officer.
“Hurricane Matthew is expected to make its closest approach to the Cape Canaveral/Kennedy area overnight Thursday and into Friday morning, bringing with it the potential for heavy rain, storm surge and hurricane-force winds.”
The last time a major Hurricane impacted near KSC and the Space Coast was in 2004. The VAB suffered some outside damage.
Hurricane Matthew is bearing down on the US East Coast right now at Florida’s Peninsula and is tracking north.
This visible image on Oct. 6 at 1:00 p.m. EDT from NOAA’s GOES-East satellite shows Hurricane Matthew as it regained Category 4 Hurricane Status. Credits: NASA/NOAA GOES Project
Herein is the latest satellite imagery from NASA and NOAA of this evening.
Mass evacuations have been ordered and States of Emergencies declared by the Governors of Florida, Georgia and North and South Carolina.
The high winds, storm surge of potentially 5 to 11 feet, drenching rains and extensive flooding is expected to cause massive damage and devastation to homes, businesses and infrastructure.
Cat 4 Hurricane Matthew track during the late evening of 6 Oct 2016. Credit: NASA/NOAA
Hundreds of thousands of folks have left their home over the past 2 days. Many gas stations are dry and grocery store shelves emptied.
Matthew will cause a wide swath of destruction and potentially deaths along hundreds of miles of US shoreline and inland areas as the massive storm hugs the coast like none before in recorded history.
Furthermore, hundreds of thousands of folks are expected to lose power as well, for days and perhaps weeks.
Hundreds of deaths and massive destruction in Haiti, Cuba and elsewhere in the Caribbean can already be blamed on Hurricane Matthew – a storm like none other and by far the worst since Superstorm Sandy and Hurricane Katrina.
After the storm passes KSC will evaluate all its facilities.
“Once the storm has passed, center facilities and infrastructure will be assessed and employees will be cleared to return when it is safe to do so,” Diller.
Indeed NASA was preparing to launch America’s newest and most advanced weather satellite on Nov 4. It’s named GOES-R and was slated for blastoff from Cape Canaveral Air Force Station atop a ULA Atlas V on Nov. 4.
The launch facilities will have to be thoroughly inspected before the launch can proceed.
The satellite is in the final stages of preparation at the Astrotech Space Operations Facility in Titusville, FL as I recently observed during an up close visit in the High Bay cleanroom.
Titusville and Astrotech could suffer a direct hit from Matthew. But the satellite has been secured.
The NASA/NOAA GOES-R (Geostationary Operational Environmental Satellite – R Series) being processed at Astrotech Space Operations, in Titusville, FL, in advance of the planned launch on a ULS Atlas V on Nov 4, 2016. GOES-R will be America’s most advanced weather satellite. Credit: Ken Kremer/kenkremer.com
Here is the latest Advisory from the National Hurricane Center (NHC) as of 8 PM EDT Oct 6.
At 800 PM EDT (0000 UTC), the eye of Hurricane Matthew was located over the western end of Grand Bahama Island near latitude 26.6 North, longitude 78.9 West. The hurricane is moving toward the northwest near 13 mph (20 km/h), and this general motion is expected to continue tonight with a turn toward the north-northwest early Friday. On the forecast track, the eye of Matthew should move away from Grand Bahama Island during the next few hours, and move close to or over the east coast of the Florida peninsula through Friday night.
Reports from a NOAA Hurricane Hunter aircraft indicate that maximum sustained winds are now near 130 mph (210 km/h) with higher gusts. Matthew is a category 4 hurricane on the Saffir-Simpson Hurricane Wind Scale. Some fluctuations in intensity are likely while the hurricane moves toward the coast of Florida.
Hurricane-force winds extend outward up to 60 miles (95 km) from the center and tropical-storm-force winds extend outward up to 185 miles (295 km). Settlement Point in the Bahamas recently reported a sustained wind of 79 mph (128 km/h) with a gust of 105 mph (169 km/hr). The Lake Worth Pier near Palm Beach, Florida, recently reported a sustained wind of 46 mph (74 km/h) and a wind gust of 60 mph (96 km/h).
The minimum central pressure estimated from NOAA Hurricane Hunter data is 939 mb (27.73 inches).
…….
The latest weather briefing indicates that “tropical storm force winds beginning at Cape Canaveral tonight at midnight with hurricane force winds starting at about 6 a.m.
A hurricane ride-out crew of 116 has arrived at KSC this evening to prepare for Matthew.
“All facilities at Kennedy Space Center and Cape Canaveral Air Force Station have been secured.”
SpaceX is currently renovating and refurbishing pad 39A to launch their commercial Falcon 9 and Falcon Heavy rockets as well the Crew Dragon with astronauts on mission to the ISS.
The eye of the storm is barreling towards KSC at this moment. Stay tuned for the outcome.
SpaceX is renovating Launch Complex 39A at the Kennedy Space Center for launches of the Falcon Heavy and human rated Falcon 9. Credit: Ken Kremer/kenkremer.com
Stay tuned here for Ken’s continuing Earth and Planetary science and human spaceflight news.
