UPDATE: United Launch Alliance Atlas V Rocket Launch from Cape Canaveral Delayed Due to Hurricane Idalia
By Space Coast Daily // August 29, 2023
coverage of the launch can be seen on Space Coast Daily TV
ABOVE VIDEO: The launch of the United Launch Alliance Atlas V SILENTBARKER/NROL-107 mission for the National Reconnaissance Office (NRO) and the U.S. Space Force’s Space Systems Command (SSC) has been delayed due to the impending hurricane.
BREVARD COUNTY • CAPE CANAVERAL, FLORIDA – The launch of the United Launch Alliance Atlas V SILENTBARKER/NROL-107 mission for the National Reconnaissance Office (NRO) and the U.S. Space Force’s Space Systems Command (SSC) has been delayed due to the impending hurricane.
Out of an abundance of caution for personnel safety, a critical national security payload and the approaching Hurricane Idalia, the team made the decision to return the rocket and payload to the vertical integration facility (VIF).
“We will work with our customer and the range to confirm our next launch attempt and a new date will be provided once it is safe to launch,” said a ULA spokesperson on Tuesday.
The mission is a joint National Reconnaissance Office (NRO) and U.S. Space Force (USSF) capability to improve space domain awareness.
A joint NRO and Space Force Space Domain Awareness (SDA) mission, SILENTBARKER/NROL107 meets the Department of Defense and Intelligence Community (IC) space protection needs by providing the capability to search, detect and track objects from a space-based sensor for timely custody and event detection.
Surveillance from space augments and overcomes existing ground sensor limitations with timely 24-hour above-the-weather collection of satellite metric data only possible with a space-based sensor and then communicates its findings to satellite operators, analysts, and other mission users.
The NRO and the USSF have a shared interest to strengthen the nation’s SDA and Indication & Warning (I&W) capabilities to enable timely decision making and unity of effort to defend the DoD and IC critical capabilities against current and projected threats.
SILENTBARKER/NROL107 will strengthen the NRO’s ability to provide a wide range of timely intelligence information to national decision makers, warfighters and intelligence analysts to protect the nation’s vital interests and support humanitarian efforts worldwide.
The mission is encapsulated in a 17.7-ft (5.4-m) diameter short payload fairing produced in the advanced Out-of-Autoclave manufacturing process. The 5-m PLF is a sandwich composite structure made with a vented aluminum-honeycomb core and graphite-epoxy face sheets. The bisector (two-piece shell) PLF encapsulates both the Centaur and the spacecraft. The vehicle’s height with the 5-meter short PLF is approximately 196 ft (59.7 m).
The Centaur second stage is 10 ft (3 m) in diameter and 41.5 ft (12.6 m) in length. Its propellant tanks are pressure-stabilized and constructed of corrosion-resistant stainless steel.
Centaur is a cryogenic vehicle, fueled with liquid hydrogen and liquid oxygen, powered by an RL10C-1-1 engine producing 23,825 lbs (106 kilo-Newtons) of thrust. The cryogenic tanks are insulated with a combination of helium-purged blankets, radiation shields and spray-on foam insulation (SOFI). The Centaur forward adapter (CFA) provides structural mountings for the fault-tolerant avionics system and structural and electrical interfaces with the spacecraft.
The booster is 12.5 ft (3.8 m) in diameter and 106.5 ft (32.5 m) in length. The booster’s tanks are structurally rigid and constructed of isogrid aluminum barrels, spun-formed aluminum domes and intertank skirts. Booster propulsion is provided by the RD-180 engine system (a single engine with two thrust chambers).
The RD-180 burns RP-1 (Rocket Propellant-1 or highly purified kerosene) and liquid oxygen and delivers 860,200 lbs (3.83 mega-Newtons) of thrust at sea level. Five solid rocket boosters (SRBs) generate the additional power required at liftoff, with each providing 371,550 lbs (1.6 mega-Newtons) of thrust. The Centaur avionics system, provides guidance, flight control and vehicle sequencing functions during the booster and Centaur phases of flight.