Dream Chaser for CEV requirement

[Forest Green]

View: https://www.youtube.com/watch?v=mH_K5tYxcEg

 

[FighterJock]

Brilliant news. Dream Chaser has been a long time coming, let's wait and see if they can succeed with it.

 

[Flyaway]

https://twitter.com/x/status/1788995909738439011

View: https://twitter.com/SierraSpaceCo/status/1788995909738439011

Dream Chaser, aptly named for its tenacity, is the first of a planned fleet of spaceplanes. This pioneering spacecraft is scheduled for a 2024 launch, embarking on the first of seven missions to the @Space_Station
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@IntEngineering

Dream Chaser: Sierra Space’s super spacecraft passes crucial tests

Dream Chaser spaceplane aces shock, vibration, and thermal testing. Prepping for Florida launch site for a historic space supply mission.

interestingengineering.com

 

[Flyaway]

The Pentagon is considering allowing United Launch Alliance (ULA) to launch a mass simulator on its next Vulcan Centaur rocket flight if its planned payload, Sierra Space’s Dream Chaser, is not ready by year’s end, according to a defense official.

ULA could fly dummy payload on next Vulcan launch if Dream Chaser is delayed

ULA could fly dummy payload on next Vulcan launch if Dream Chaser is delayed

spacenews.com

 

[Flyaway]

NASA, Sierra Space Deliver Dream Chaser to Florida for Launch Preparation

As part of NASA’s efforts to expand commercial resupply in low Earth orbit, Sierra Space’s uncrewed spaceplane arrived at NASA’s Kennedy Space Center in Florida ahead of its first flight to the International Space Station.

The Dream Chaser spaceplane, named Tenacity, arrived at Kennedy on May 18 inside a climate-controlled transportation container from NASA’s Neil Armstrong Test Facility in Sandusky, Ohio, and joined its companion Shooting Star cargo module, which arrived on May 11.

Before arriving at Kennedy, the spaceplane and its cargo module underwent vibration testing atop the world’s highest capacity and most powerful spacecraft shaker system inside the agency’s Space Environments Complex, exposing the stack to vibrations like those it will experience during launch and re-entry to the Earth’s atmosphere. Following vibration testing, the duo moved to NASA’s In-Space Propulsion Facility and was exposed to low ambient pressures and temperatures ranging from -150 to 300 degrees Fahrenheit.

Upon arrival at Kennedy, teams moved Dream Chaser Tenacity to the high bay inside the Space Systems Processing Facility, where it will undergo final testing and prelaunch processing ahead of its launch scheduled for later this year.

The spaceplane will lift off aboard a ULA (United Launch Alliance) Vulcan rocket from Space Launch Complex-41 at Cape Canaveral Space Force Station and is set to deliver 7,800 pounds of cargo to the orbiting laboratory.

The remaining pre-flight activities at Kennedy include acoustic and electromagnetic interference and compatibility testing, completion of work on the spaceplane’s thermal protection system, and final payload integration.

Dream Chaser is a lifting body design spaceplane that measures 30 feet long by 15 feet wide. The unique winged design allows it to transport cargo to and from low Earth orbit and maintain the ability to land on a runway in the style of NASA’s space shuttle. The 15-foot Shooting Star module can carry up to 7,000 pounds of cargo internally and features three unpressurized external payload mounts.

The partially reusable transportation system will perform at least seven cargo missions to the space station as part of the agency’s efforts to expand commercial resupply services in low Earth orbit. Future missions may last as long as 75 days and deliver as much as 11,500 pounds of cargo.

While the Dream Chaser spacecraft is reusable and can return up to 3,500 pounds of cargo to Earth, the Shooting Star module is designed to be jettisoned and burn up during reentry, creating the opportunity to dispose of up to 8,500 pounds of trash with each mission.

Dream Chaser Tenacity is the first in a planned fleet of Sierra Space spaceplanes to help carry out these missions.

As part of the process to certify the vehicle system for future agency resupply missions, NASA and Sierra Space will put the spaceplane through its paces once in-orbit. As Dream Chaser Tenacity approaches the space station, it will conduct a series of demonstrations to prove attitude control, translational maneuvers, and abort capabilities. After completing the maneuverability demonstration, space station astronauts will use the Canadarm2 robotic arm to grapple the spacecraft and dock it to an Earth-facing port.

After remaining at the orbiting laboratory for about 45 days, the spaceplane will be released from the station and return for a landing at Kennedy’s Launch and Landing Facility. After landing, Dream Chaser is powered down, and the Sierra Space team will transfer it back to the processing facility to perform necessary inspections, offload remaining NASA cargo, and begin the process of preparing it for its next mission.

 

[Flyaway]

Dream Chaser Tenacity Spaceplane Arrives at NASA's Kennedy Space Center

View: https://www.youtube.com/watch?v=qw3MVT83_B0

 

[NMaude]

So does this mean that the Dream Chaser will be stacked on its' LV soon?

 

[The K2]

So does this mean that the Dream Chaser will be stacked on its' LV soon?

I don’t think so. Much of the thermal tiles are still missing on the vehicle.

 

[NMaude]

I don’t think so. Much of the thermal tiles are still missing on the vehicle.

I was under the impression that all of its' thermal-tiles had been attached.

 

[TomS]

I was under the impression that all of its' thermal-tiles had been attached.

Just watch the video. Everything orange is not covered with thermal tiles, so easily 75% of the vehicle is still untiled.