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Nations
United States of America
United States of America
Agencies
ULA
ULA
Space Force
Space Force
Date: 2024
Time: not yet determined

This goes

to space

Classified Payload

This is a classified mission for the United States Space Force.

On this

rocket

Vulcan Centaur

United Launch Alliance's brand new launch vehicle, Vulcan Centaur is a two-stage-to-orbit, heavy-lift launch vehicle. It will replace both of ULA's existing launchers (Atlas V and Delta IV Heavy) which are retiring.

Specs

Height: 61.6 m (202 ft)

Diameter: 5.4 m (18 ft)

Mass: 546,700 kg (1,205,300 lb)

Stages: 2 and 0, 2, 4 or 6 boosters

Capacity

Payload to low Earth orbit (28.7°): Mass: 27,200 kg (60,000 lb)

Payload to geostationary transfer orbit (27.0°): Mass 14,400 kg (31,700 lb)

Payload to geostationary orbit: Mass 7,200 kg (15,900 lb)

Payload to trans-lunar injection: Mass 12,100 kg (26,700 lb)

On Monday, January 8th, 2024, United Launch Alliance successfully launched the maiden flight of its new Vulcan rocket from Cape Canaveral Space Force Station in Florida. The new launcher is powered by Blue Origin's BE-4 engines and marks the first time the Bezos-owned company's hardware has flown an orbital mission.

United Launch Alliance has a proven and uninterrupted record of launching many of NASA's flagship science missions like the Perseverance Mars rover, the Parker Solar Probe, and sample return mission OSIRIS-REx. Just to name a few.

ULA Chief Tory Bruno remarked on the seemingly perfect maiden launch by noting that the only problem that arose was a broken coffee machine in launch control. It was fixed by a nearby rocket scientist before liftoff.

Praise came from across the industry, and included was a congratulatory reply on X from Bruno's nemesis SpaceX CEO Elon Musk. Many expect Vulcan to provide some competition in the Falcon-dominated launch market.

Configurations

Vulcan is available in four standard offering configurations including zero, two, four, and six solid rocket booster (SRB) variants.

Payload Fairings

The spacecraft is encapsulated in a 5.4-m- (17.7-ft-) diameter payload fairing (PLF), a sandwich composite structure made with a vented aluminum-honeycomb core and graphite-epoxy face sheets. The bisector (two-piece shell) PLF encapsulates the spacecraft. The payload attach fitting (PAF) is a similar sandwich composite structure creating the mating interface from the spacecraft to the second stage and payload fairing. The PLF separates using a debris-free horizontal and vertical separation system with spring packs and frangible joint assembly. The payload fairing comes in the 15.5-m (51-ft) standard and 21.3-m (70-ft) long configurations.

Multi-Manifest
With multi-manifest, two or more spacecraft are integrated into a launch vehicle — optimizing mass to orbit and enabling missions. Depending on the size of the spacecraft, multi-manifesting on a Vulcan rocket can be done in several ways. The Aft Bulkhead Carrier (ABC) interfaces at the aft end of the Centaur upper stage and can carry up to 24U CubeSats weighing 80 kg each. The Secondary Payload Adapter (ESPA Ring) is located between the upper stage and the primary payload and can accommodate 4-6 payload modules weighing up to 318 kg each. Finally, for small satellites exceeding the mass of an ESPA capability, the Multi-Payload Canister System is a load-bearing separating canister that can be utilized to enclose an aft small satellite while supporting a forward traditional large satellite.

Main Engine

Booster propulsion is provided by a pair of BE-4 engines, manufactured by Blue Origin.

Solid Rocket Boosters

Vulcan integrates up to six Northrop Grumman Graphite Epoxy Motor (GEM) 63XL Solid Rocket Boosters (SRBs). They are constructed out of a graphite-epoxy composite with the throttle profile designed into the propellant grain.

Upper Stage

Vulcan will rely on two RL10C engines to power its second stage. Logging a record of nearly 400 successful flights and nearly 700 firings in space, RL10 engines, manufactured by Aerojet Rocketdyne, harness the power of high-energy liquid hydrogen. The RL10 boasts a precision control system and restart capability to accurately place payloads into orbit.

Courtesy of ULA

From this

launch site

SLC-41 - Cape Canaveral Space Force Station, Florida

Space Launch Complex 41 (SLC-41) is a significant launch site located at Cape Canaveral Space Force Station (CCSFS) in Florida. Originally built in the 1960s, SLC-41 was designed to support the Titan III and Titan IV rocket programs. Throughout its history, the pad has been used for various missions, including the deployment of military and reconnaissance satellites. A notable launch from SLC-41 was the Cassini spacecraft mission, which began its journey to Saturn in 1997.

In the early 2000s, SLC-41 was repurposed to support the Atlas V rocket, operated by United Launch Alliance (ULA). This transition involved extensive upgrades to the pad’s infrastructure and the installation of new ground support equipment to accommodate the Atlas V. These modifications ensured that SLC-41 could meet the requirements of modern space missions.

Under ULA’s management, SLC-41 has hosted a range of important launches, including the Mars Science Laboratory mission, which successfully landed the Curiosity rover on Mars in August 2012, and the launch of GPS III satellites, enhancing global positioning capabilities. The pad has also supported Boeing's CST-100 Starliner capsule, which is part of NASA’s Commercial Crew Program. The Starliner capsule, designed to transport astronauts to and from the International Space Station, has been launched from SLC-41 to support crewed missions.

Looking to the future, SLC-41 is set to support ULA’s Vulcan Centaur rocket. The Vulcan Centaur is intended to replace the Atlas V and Delta IV rockets, marking a new era in ULA’s launch capabilities with enhanced performance and cost-efficiency. The pad’s infrastructure will be further updated to accommodate this next-generation rocket.

Vulcan Photo

Print

Vulcan Ignition Print

High-quality prints selected from the Supercluster team’s spaceflight photography are now available in our shop.

Our prints are produced on 10 mil (0.25 mm) thick, slightly glossy, fingerprint-resistant photo paper sourced from Japan.

Begin your collection with a striking image: Erik Kuna’s iconic capture of the ignition during the very first Vulcan rocket launch.

Here's where to view USSF-106

Viewing Sites
  • Alan Shepard Park
  • A. Max Brewer Parkway Bridge
  • Apollo Saturn V Center / Banana Creek
  • Cherie Down Park
  • Cocoa Beach Pier
  • Jetty Park
  • Kennedy Space Center Visitor Complex
  • LC-39 Observation Gantry
  • Lori Wilson Park
  • Playalinda Beach
  • Rotary Riverfront Park
  • Sand Point Park
  • Sidney Fischer Park
  • Spaceview Park

Space is for everyone. Here’s a link to share the launch with your friends.