Watch a replay of our live coverage of the countdown and launch of a United Launch Alliance Delta 4-Heavy rocket with a classified spy satellite for the National Reconnaissance Office from Space Launch Complex 37B at Cape Canaveral Space Force Station, Florida. Follow us on Twitter.
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After a one-day delay to resolve a valve problem, the second-to-last flight of United Launch Alliance’s Delta rocket is set to lift off from Cape Canaveral early Thursday on a mission to deliver a top secret spy satellite into orbit for the U.S. government, and snap the longest lull in launches in ULA’s history.
Liftoff of ULA’s 15th Delta 4-Heavy rocket, and 44th Delta 4 rocket overall, is set for 5:18 a.m. EDT (0918 UTC) Thursday from Pad 37B at Cape Canaveral Space Force Station. The mission, codenamed NROL-68, has a launch window that runs until just before 7:30 a.m. EDT. ULA’s launch team pushed back the launch time by more than 90 minutes Thursday after preparations fell behind schedule due to stormy weather.
Weather forecasters from the U.S. Space Force’s 45th Weather Squadron predict a 80% chance of favorable conditions for liftoff of the Delta 4-Heavy rocket early Thursday. The main weather concerns are cloud cover and the residual risk of lightning from evening thunderstorms, along with gusty ground winds at the Florida spaceport.
The 235-foot-tall (71.6-meter) Delta 4-Heavy rocket will haul into orbit a classified payload for the National Reconnaissance Office, the U.S. government’s spy satellite agency. The NRO does not officially disclose details about its satellites, but expert observers of military space missions believe the Delta 4 rocket will send a large spacecraft into orbit designed to intercept telephone calls, data transmissions, and other types of communication by U.S. adversaries.
The circumstances of Thursday’s launch, including its due east trajectory and the use of the Delta 4-Heavy, suggest it is carrying a type of satellite known publicly as an “Advanced Orion” or “Mentor” spy spacecraft. The Advanced Orion satellites fly in geosynchronous orbit, circling more than 22,000 miles (nearly 36,000 kilometers) and closely hugging the equator. In that orbit, the satellites fly in lock-step with Earth’s rotation, giving them fixed coverage areas over the same parts of the world 24 hours per day.
The Advanced Orion satellites require the combination of the Delta 4-Heavy rocket’s lift capability, long-duration upper stage, and huge 65-foot-long (19.8-meter) trisector payload fairing.
The official National Reconnaissance Office patch for the NROL-68 mission. Credit: NRO ULA’s launch team at the Delta Operations Center at Cape Canaveral will oversee the eight-and-a-half hour countdown beginning Wednesday night. Technicians will wheel the Delta 4’s 330-foot-tall service gantry away from the rocket around sunset, clearing the way for loading of super-cold liquid hydrogen and liquid oxygen into the rocket.
After ticking down the final minutes until liftoff, the Delta 4-Heavy rocket fire its three RS-68A engines supplied by Aerojet Rocketdyne and will fly east from Cape Canaveral powered by 2.1 million pounds of thrust. The hydrogen-fueled engines on the two side boosters of the Delta 4 will fire nearly four minutes, then the side boosters will drop away fro the Delta 4’s core booster. The engine on the core stage will be throttled down for the first few minutes of the flight to conserve propellant, then will power up to continue accelerating into space after jettison of the two side boosters.
Shutdown of the core stage is expected about five-and-a-half minutes into the mission, followed moments later by separation of the center booster and ignition of the Aerojet Rocketdyne RL10 engine on the Delta 4’s upper stage. The rocket’s metallic payload fairing, which covers the NRO spacecraft during the climb through the atmosphere, will jettison more than six-and-a-half minutes after liftoff to reveal the NRO’s newest spy satellite to space for the first time.
At that time, the mission will enter a government-imposed news blackout. ULA’s live launch broadcast will end, and the rest of the Delta 4’s climb to geosynchronous orbit will occur in secret. It will take about six hours for the Delta 4 to deploy the NRO spy satellite into a nearly circular geosynchronous orbit positioned more than 20,000 miles over the planet, likely requiring three burns by the upper stage RL10 engine.
The NRO’s Advanced Orion satellites are among the largest spacecraft ever sent into space. When viewed from Earth, they shine with the brightness of an 8th magnitude star, making them easily visible with small binoculars despite their distant orbits, according to Ted Molczan, an authoritative skywatcher who tracks satellite activity.
United Launch Alliance’s next-to-last Delta 4-Heavy rocket on its launch pad at Cape Canaveral Space Force Station. Credit: United Launch Alliance Four previous Delta 4-Heavy launches in 2009, 2010, 2012, 2016, and 2020 followed similar trajectories after taking off from Cape Canaveral, each carrying a classified cargo for the National Reconnaissance Office. Independent analysts believe all delivered top secret NRO eavesdropping satellites to space.
Before the launch in 2010 of a suspected Advanced Orion satellite, then-director of the NRO Bruce Carlson called the payload the “the largest satellite in the world.” The satellites are believed to carry giant antennas that unfurl to a diameter of up to 100 meters, or 328 feet, once in space.
The antenna can likely be tuned to listen in on communications among U.S. adversaries. It’s not known what part of the world the newest Advanced Orion satellite will cover, or whether the new spacecraft will replace an old satellite or expand the NRO’s eavesdropping web.
The Advanced Orion-series satellites began launching on Titan 4 rockets in 1995, following a pair of earlier NRO Orion payloads that launched in the 1980s on space shuttle missions. The NRO began using Delta 4-Heavy rockets for the Advanced Orion missions in 2009, following the retirement of the Titan 4 booster.
The NRO also has a fleet of sharp-eyed optical and radar spy satellites flying in orbits closer to Earth. Many of those were also launched on Delta 4 rockets.
The spy agency’s satellites collect imagery and intelligence data to help inform decisions by military commanders, senior policy makers, and the president.
ULA, a 50-50 joint venture between Boeing and Lockheed Martin, is retiring the Delta family of rockets in favor of the new-generation Vulcan launch vehicle, which is scheduled to make its first test flight later this year from Cape Canaveral. The Vulcan rocket will also replace ULA’s Atlas 5 launcher, which will fly 19 more times before retirement later in the 2020s.
The Atlas 5 and Delta 4 rockets currently flown by ULA show littleWatch a replay of our live coverage of the countdown and launch of a United Launch Alliance Delta 4-Heavy rocket with a classified spy satellite for the National Reconnaissance Office from Space Launch Complex 37B at Cape Canaveral Space Force Station, Florida. Follow us on Twitter.
SFN Live
After a one-day delay to resolve a valve problem, the second-to-last flight of United Launch Alliance’s Delta rocket is set to lift off from Cape Canaveral early Thursday on a mission to deliver a top secret spy satellite into orbit for the U.S. government, and snap the longest lull in launches in ULA’s history.
Liftoff of ULA’s 15th Delta 4-Heavy rocket, and 44th Delta 4 rocket overall, is set for 5:18 a.m. EDT (0918 UTC) Thursday from Pad 37B at Cape Canaveral Space Force Station. The mission, codenamed NROL-68, has a launch window that runs until just before 7:30 a.m. EDT. ULA’s launch team pushed back the launch time by more than 90 minutes Thursday after preparations fell behind schedule due to stormy weather.
Weather forecasters from the U.S. Space Force’s 45th Weather Squadron predict a 80% chance of favorable conditions for liftoff of the Delta 4-Heavy rocket early Thursday. The main weather concerns are cloud cover and the residual risk of lightning from evening thunderstorms, along with gusty ground winds at the Florida spaceport.
The 235-foot-tall (71.6-meter) Delta 4-Heavy rocket will haul into orbit a classified payload for the National Reconnaissance Office, the U.S. government’s spy satellite agency. The NRO does not officially disclose details about its satellites, but expert observers of military space missions believe the Delta 4 rocket will send a large spacecraft into orbit designed to intercept telephone calls, data transmissions, and other types of communication by U.S. adversaries.
The circumstances of Thursday’s launch, including its due east trajectory and the use of the Delta 4-Heavy, suggest it is carrying a type of satellite known publicly as an “Advanced Orion” or “Mentor” spy spacecraft. The Advanced Orion satellites fly in geosynchronous orbit, circling more than 22,000 miles (nearly 36,000 kilometers) and closely hugging the equator. In that orbit, the satellites fly in lock-step with Earth’s rotation, giving them fixed coverage areas over the same parts of the world 24 hours per day.
The Advanced Orion satellites require the combination of the Delta 4-Heavy rocket’s lift capability, long-duration upper stage, and huge 65-foot-long (19.8-meter) trisector payload fairing.
ULA’s launch team at the Delta Operations Center at Cape Canaveral will oversee the eight-and-a-half hour countdown beginning Wednesday night. Technicians will wheel the Delta 4’s 330-foot-tall service gantry away from the rocket around sunset, clearing the way for loading of super-cold liquid hydrogen and liquid oxygen into the rocket.
After ticking down the final minutes until liftoff, the Delta 4-Heavy rocket fire its three RS-68A engines supplied by Aerojet Rocketdyne and will fly east from Cape Canaveral powered by 2.1 million pounds of thrust. The hydrogen-fueled engines on the two side boosters of the Delta 4 will fire nearly four minutes, then the side boosters will drop away fro the Delta 4’s core booster. The engine on the core stage will be throttled down for the first few minutes of the flight to conserve propellant, then will power up to continue accelerating into space after jettison of the two side boosters.
Shutdown of the core stage is expected about five-and-a-half minutes into the mission, followed moments later by separation of the center booster and ignition of the Aerojet Rocketdyne RL10 engine on the Delta 4’s upper stage. The rocket’s metallic payload fairing, which covers the NRO spacecraft during the climb through the atmosphere, will jettison more than six-and-a-half minutes after liftoff to reveal the NRO’s newest spy satellite to space for the first time.
At that time, the mission will enter a government-imposed news blackout. ULA’s live launch broadcast will end, and the rest of the Delta 4’s climb to geosynchronous orbit will occur in secret. It will take about six hours for the Delta 4 to deploy the NRO spy satellite into a nearly circular geosynchronous orbit positioned more than 20,000 miles over the planet, likely requiring three burns by the upper stage RL10 engine.
The NRO’s Advanced Orion satellites are among the largest spacecraft ever sent into space. When viewed from Earth, they shine with the brightness of an 8th magnitude star, making them easily visible with small binoculars despite their distant orbits, according to Ted Molczan, an authoritative skywatcher who tracks satellite activity.
Four previous Delta 4-Heavy launches in 2009, 2010, 2012, 2016, and 2020 followed similar trajectories after taking off from Cape Canaveral, each carrying a classified cargo for the National Reconnaissance Office. Independent analysts believe all delivered top secret NRO eavesdropping satellites to space.
Before the launch in 2010 of a suspected Advanced Orion satellite, then-director of the NRO Bruce Carlson called the payload the “the largest satellite in the world.” The satellites are believed to carry giant antennas that unfurl to a diameter of up to 100 meters, or 328 feet, once in space.
The antenna can likely be tuned to listen in on communications among U.S. adversaries. It’s not known what part of the world the newest Advanced Orion satellite will cover, or whether the new spacecraft will replace an old satellite or expand the NRO’s eavesdropping web.
The Advanced Orion-series satellites began launching on Titan 4 rockets in 1995, following a pair of earlier NRO Orion payloads that launched in the 1980s on space shuttle missions. The NRO began using Delta 4-Heavy rockets for the Advanced Orion missions in 2009, following the retirement of the Titan 4 booster.
The NRO also has a fleet of sharp-eyed optical and radar spy satellites flying in orbits closer to Earth. Many of those were also launched on Delta 4 rockets.
The spy agency’s satellites collect imagery and intelligence data to help inform decisions by military commanders, senior policy makers, and the president.
ULA, a 50-50 joint venture between Boeing and Lockheed Martin, is retiring the Delta family of rockets in favor of the new-generation Vulcan launch vehicle, which is scheduled to make its first test flight later this year from Cape Canaveral. The Vulcan rocket will also replace ULA’s Atlas 5 launcher, which will fly 19 more times before retirement later in the 2020s.
The Atlas 5 and Delta 4 rockets currently flown by ULA show little resemblance to their forebears, but the names are steeped in history. The launch of the NROL-68 mission will be the 388th flight of a rocket bearing the Delta name since 1960.
The launch of the NRO’s NROL-68 mission on the second-to-last Delta rocket was delayed from April to allow time for ULA engineers to swap out a leaky hydrogen valve on the Delta 4’s upper stage. The troubleshooting required the NRO’s spy satellite to be removed from the rocket, resulting in about a two-month delay.
Wentz said engineers found a “really small, hard to see” piece of particulate on the sealing surface of the valve, which is used to pressurize the upper stage fuel tank. The debris caused the valve to leak.
ULA has procured spare parts to be able to respond to replace faulty components on the final two Delta 4 rockets, even though the launch vehicle is no longer in production. Parts obsolescence is a common concern for aerospace vehicles nearing retirement.
“We were able to secure, in our final order of parts, some additional critical spares, and we’ve kept those on hand,” Wentz said. “In a case like this with the valves, we were able to take the valves back and were able to rework those and put them back in stock as a spare part. So that’s been our strategy all along is identifying the critical components, particularly the ones that aren’t used in
What is the purpose of the United Launch Alliance Delta 4-Heavy rocket launch with a classified spy satellite from Cape Canaveral Space Force Station?
Relive the countdown and launch of a United Launch Alliance Delta 4-Heavy rocket with a classified spy satellite from Cape Canaveral Space Force Station in Florida. The launch, codenamed NROL-68, was delayed by one day due to a valve problem but successfully lifted off early Thursday morning. The mission aims to deliver a top-secret spy satellite for the National Reconnaissance Office into orbit. The launch marks the second-to-last flight of ULA’s Delta rocket and breaks the longest lull in ULA’s launch history. Although the NRO does not disclose details about its satellites, experts believe the Delta 4 rocket is carrying an “Advanced Orion” or “Mentor” spy spacecraft designed to intercept communications from U.S. adversaries. The launch window ran until just before 7:30 a.m. EDT, and the weather conditions were favorable for liftoff. The Delta 4-Heavy rocket has the capability to launch large satellites into geosynchronous orbit, providing fixed coverage areas over the same parts of the world 24 hours a day. The launch was followed by a news blackout, and the mission continued in secret for the next six hours, during which the NRO spy satellite was deployed into a nearly circular geosynchronous orbit.
The successful countdown and launch of the Delta 4-Heavy rocket with a top-secret spy satellite was a thrilling display of precision and cutting-edge technology. Watching the replay of this landmark mission is a must for space enthusiasts fascinated by the mysteries that lie beyond our atmosphere.