Orion Points at the Moon with Launch Abort Tower

Teams with NASA’s Exploration Ground Systems (EGS) and contractor Jacobs integrated the launch abort system (LAS) with the Orion spacecraft inside the Launch Abort System Facility at NASA’s Kennedy Space Center in Florida on July 23, 2021.
Teams with NASA’s Exploration Ground Systems (EGS) and contractor Jacobs integrated the launch abort system (LAS) with the Orion spacecraft inside the Launch Abort System Facility at NASA’s Kennedy Space Center in Florida on July 23, 2021. Photo credit: NASA/Kim Shiflett

Ahead of the Artemis I lunar-bound mission, teams at NASA’s Kennedy Space Center joined the launch abort tower to the Orion spacecraft on July 23. Working inside the spaceport’s Launch Abort System Facility, engineers and technicians with Exploration Ground Systems and primary contractor, Jacobs, lifted the system above the spacecraft and coupled it with the crew module.

The launch abort system is designed to protect astronauts if a problem arises during launch by pulling the spacecraft away from a failing rocket. Although there will be no crew Artemis I, the launch abort system will collect flight data during the ascent to space and then jettison from the spacecraft.

Next, teams will install four ogives – the protective panels that shield the upper portion of the spacecraft during its entry into orbit. Once final checkouts are complete, Orion will be integrated with the Space Launch System rocket.

Teams Add Launch Abort System to Ready Orion for Artemis I

NASA's Orion spacecraft
The Orion spacecraft for the Artemis I mission arrives at Kennedy Space Center’s Launch Abort System facility on July 10, 2021, after being transported from the Florida spaceport’s Multi-Payload Processing Facility earlier in the day. Photo credit: NASA/Cory Huston

The Orion spacecraft for the Artemis I mission recently completed fueling and servicing checks while inside the Multi-Payload Processing Facility at NASA’s Kennedy Space Center in Florida. The capsule has now made it to its next stop on the path to the pad – the spaceport’s Launch Abort System Facility.

Crowning the spacecraft with its aerodynamic shape, the launch abort system is designed to pull crew away to safety from the Space Launch System (SLS) rocket in the event of an emergency during launch. This capability was successfully tested during the Orion Pad Abort and Ascent Abort-2 tests and approved for use during crewed missions.

Teams with Exploration Ground Systems and contractor Jacobs will work to add parts of the launch abort system onto the spacecraft. Technicians will install four panels that make up the fairing assembly and protect the spacecraft from heat, air, and acoustic environments during launch and ascent. A launch tower will top the fairing assembly to house the pyrotechnics and a jettison motor. The system will also be outfitted with instruments to record key flight data for later study.

With successful demonstration of the system during previous tests, the abort motor that pulls the spacecraft away from the rocket and attitude control motor that steers the spacecraft for a splashdown during an abort will not be functional for the uncrewed Artemis I mission. The jettison motor will be equipped to separate the system from Orion in flight once it is no longer needed, making Orion thousands of pounds lighter for the journey to the Moon.

Once the system’s integration is complete, teams will transport the spacecraft to the center’s Vehicle Assembly Building. There, it will join the already stacked flight hardware and be raised into position atop the SLS rocket, marking the final assembly milestone for the  Artemis rocket.

Launching in 2021, Artemis I will be a test of the Orion spacecraft and SLS rocket as an integrated system ahead of crewed flights to the Moon. Under Artemis, NASA aims to land the first woman and first person of color on the Moon and establish long-term lunar exploration.

View additional photos here.

Orion Spacecraft Adorned with Iconic NASA Worm Logo

The historic worm logo is visible on the Orion spacecraft's crew module adapter inside the Multi-Payload Processing Facility.
NASA’s iconic worm logo has been added to the outward-facing wall of Orion’s crew module adapter (CMA) inside the Multi-Payload Processing Facility (MPPF) at NASA’s Kennedy Space Center in Florida. In the background is the Space Launch System rocket’s Interim Cryogenic Propulsion Stage, undergoing fueling and servicing inside the MPPF alongside the CMA. Photo credit: NASA/Glenn Benson

The Orion spacecraft receives another iconic NASA “worm” logo ahead of the Artemis I mission. On April 28 teams with the agency’s Exploration Ground Systems and lead contractor Jacobs completed painting the retro insignia on the outboard wall of the spacecraft’s crew module adapter (CMA) – the piece of hardware connecting the crew module to the European-built service module – inside the Multi-Payload Processing Facility (MPPF) at NASA’s Kennedy Space Center in Florida.

While a decal of the historic logo was added to the underside of the CMA in September 2020, having it painted on the siding of the spacecraft will make it visible as the spacecraft is poised atop the Space Launch System (SLS) rocket, awaiting liftoff from Kennedy’s Launch Pad 39B.

The worm logo was officially introduced in 1975, retired in 1992, and then made a comeback in 2020, just as NASA entered a new era of human spaceflight. In addition to its appearance on the CMA, the bright red logo also was painted on the SLS twin solid rocket boosters in August 2020.

The Orion spacecraft and Interim Cryogenic Propulsion Stage (ICPS) – the upper stage of the rocket responsible for sending Orion on its journey around the Moon – are currently being fueled and serviced in the MPPF. Once fueling is complete, Orion will move to the Launch Abort System Facility for integration of its launch abort system, while the ICPS will move to the Vehicle Assembly Building to be stacked on the mobile launcher.

Artemis I will be the first integrated test of SLS and Orion and will pave the way for landing the first woman and first person of color on the lunar surface. The mission will be a stepping stone for deep space exploration, leading the agency’s efforts under the Artemis program for a sustainable presence on the Moon and preparing for human missions to Mars.

Click here for a video of the logo being added to the CMA.

Fueling Underway For Artemis I Launch

A view of the Interim Cryogenic Propulsion System in the Multi-Payload Processing Facility at NASA's Kennedy Space Center in Florida.
A view of the Interim Cryogenic Propulsion System inside the Multi-Payload Processing Facility at NASA’s Kennedy Space Center in Florida on Feb. 18, 2021. Photo credit: NASA/Glenn Benson

Teams with NASA’s Kennedy Space Center Exploration Ground Systems and primary contractor, Jacobs, are fueling the Orion service module ahead of the Artemis I mission. The spacecraft currently resides in Kennedy’s Multi-Payload Processing Facility alongside the Interim Cryogenic Propulsion System (ICPS), the rocket’s upper stage that will send Orion to the Moon. After servicing, these elements will be integrated with the flight components of the Space Launch System, which are being assembled in the Vehicle Assembly Building.

Technicians began loading Orion’s service module with oxidizer, which will power the Orbital Maneuvering System main engine and auxiliary thrusters on the European-built service module ahead of propellant loading. These auxiliary thrusters stabilize and control the rotation of the spacecraft after it separates from the ICPS. Once the service module is loaded, teams will fuel the crew module to support thermal control of the internal avionics and the reaction control system. These 12 thrusters steady the crew module and control its rotation after separation from the service module.

Once Orion servicing is complete, teams will fill the ICPS. This liquid oxygen/liquid hydrogen-based system will push the spacecraft beyond the Moon for the test flight under the agency’s Artemis program. In several weeks, when fueling is complete, Orion will move to the center’s Launch Abort System Facility to integrate its launch abort system, and the ICPS will move to the Vehicle Assembly Building to be stacked atop the mobile launcher.

Artemis I Boosters Reach New Heights

Space Launch System boosters for the Artemis I mission are stacked in the Vehicle Assembly Building.
In High Bay 3 of the Vehicle Assembly Building at NASA’s Kennedy Space Center in Florida, the left-hand and right-hand forward segments are secured on top of the center forward segments on the mobile launcher (ML) for the Space Launch System (SLS) on Feb. 24, 2021. Photo credit: NASA/Glenn Benson

NASA’s Space Launch System (SLS) solid rocket boosters have grown taller with the addition of the fifth and final pair of motor segments in preparation for the launch of Artemis I later this year. At NASA’s Kennedy Space Center in Florida, engineers with Exploration Ground Systems lowered the final solid rocket booster into place on the mobile launcher on Feb. 23. Up next, the nose assemblies will be placed atop the segments to complete the boosters. The twin boosters will power the first flight of the agency’s new deep space rocket during the launch of Artemis I. This mission is an uncrewed flight to test the SLS rocket and Orion spacecraft as an integrated system, preparing the way for Artemis II and other crewed flights to the Moon.

SLS Rocket Stage and Orion Share Space at Kennedy ahead of Artemis I

The ICPS is inside the Multi-Payload Process Facility at Kennedy Space Center on Feb. 18, 2021.
The Space Launch System (SLS) rocket’s interim cryogenic propulsion stage (ICPS) moved into the Multi-Payload Processing Facility February 18, 2021, at NASA’s Kennedy Space Center in Florida for the Artemis I mission. Photo credit: NASA/Glenn Benson

The Space Launch System (SLS) rocket’s interim cryogenic propulsion stage (ICPS) moved into the Multi-Payload Processing Facility February 18, 2021, at NASA’s Kennedy Space Center in Florida alongside one of its flight partners for the Artemis I mission, the Orion spacecraft. Both pieces of hardware will undergo fueling and servicing in the facility ahead of launch by teams from NASA’s Exploration Ground Systems and their primary contractor, Jacobs Technology. The rocket stage and Orion will remain close during their journey to space.

The ICPS is moved into the Multi-Payload Process Facility on Feb. 18, 2021 at Kennedy Space Center.
The interim cryogenic propulsion stage is in view inside the Multi-Payload Processing Facility on Feb. 18, 2021, at Kennedy Space Center. Photo credit: NASA/Glenn Benson

Built by United Launch Alliance and Boeing, the ICPS will be positioned above the core stage and will provide the power needed to give Orion the big push it needs to break out of Earth orbit on a precise trajectory toward the Moon during Artemis I.

This is the first time since the shuttle program that two pieces of flight hardware have been processed inside this facility at the same time. Once final checkouts are complete, the ICPS and Orion will part ways on the ground and be reunited in the Vehicle Assembly Building for integration onto the SLS rocket.

Artemis I will be an integrated flight test of the SLS rocket and Orion spacecraft ahead of the crewed flights to the Moon. Under the Artemis program, NASA will land the first woman and the next man on the lunar surface and establish a sustainable presence at the Moon to prepare for human missions to Mars.

View additional photos here.

NASA “Meatball” Insignia and ESA Logo Added to Artemis I Fairings

The NASA and ESA insignias are in view on the Orion spacecraft adapter jettison fairings in the MPPF at Kennedy Space Center.
Artemis I extends NASA and ESA’s (European Space Agency) strong international partnership beyond low-Earth orbit to lunar exploration with Orion on Artemis missions, as the ESA logo joins the historic NASA “meatball” insignia on the Artemis I spacecraft adapter jettison fairing panels that protect the service module during launch. Photo credit: NASA/Glenn Benson

NASA’s Artemis I Orion spacecraft is being outfitted with additional artwork as technicians began installing the logo for ESA (European Space Agency). ESA provided the European-built service module, which provides power and propulsion for the Orion spacecraft, and will also provide water and air for astronauts on future missions.

The NASA and ESA insignias are in view on the Orion spacecraft adapter jettison fairings in the MPPF at Kennedy Space Center.
The ESA (European Space Agency) logo joins the historic NASA “meatball” insignia on the Artemis I spacecraft adapter jettison fairing panels that protect the service module during launch. Orion is currently stationed at NASA’s Kennedy Space Center in the Multi-Payload Processing Facility. Photo credit: NASA/Glenn Benson

Artemis I extends NASA and ESA’s strong international partnership beyond low-Earth orbit to lunar exploration with Orion on Artemis missions. The ESA logo joins the historic NASA “meatball” insignia on the Artemis I spacecraft adapter jettison fairing panels that protect the service module during launch.

Orion is currently stationed at NASA’s Kennedy Space Center in the Multi-Payload Processing Facility, where it will undergo fueling and servicing by NASA’s Exploration Ground Systems and Jacobs Technology teams in preparation for the upcoming flight test with the Space Launch System rocket under the agency’s Artemis program.

Artemis I Boosters Take Shape

The Space Launch System solid rocket boosters are being stacked on the mobile launcher inside the Vehicle Assembly Building.
The twin solid rocket boosters for NASA’s Space Launch System (SLS) are being stacked on the mobile launcher inside the Vehicle Assembly Building at the agency’s Kennedy Space Center in Florida. The boosters will power SLS on the Artemis I mission. Photo credit: NASA/Kim Shiflett

Booster stacking continues! The second to last set of segments for NASA’s Space Launch System (SLS) solid rocket boosters were placed on the mobile launcher inside the Vehicle Assembly Building at NASA’s Kennedy Space Center. Engineers with Exploration Ground Systems and Jacobs transported the segments from the Rotation, Processing and Surge Facility, where they have been since June. Once fully stacked, each booster will stand nearly 17 stories tall. The twin boosters will power the first flight of the agency’s new deep space rocket during the Artemis I mission. This uncrewed flight later this year will test the SLS rocket and Orion spacecraft as an integrated system ahead of crewed flights.