Delta III rocket

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Delta III
A Delta III rocket on the launch pad
A Delta III rocket on the launch pad
Fact sheet
Function Orbital launch vehicle
Manufacturer Boeing
Country of origin USA
Size
Height 35 m (114 ft)
Diameter 4 m (13.1 ft)
Mass 301,450 kg (664,580 lb)
Stages 2
Capacity
Payload to LEO 8,290 kg (18,280 lb)
Payload to
GTO
3,810 kg (8,390 lb)
Launch History
Status Retired
Launch Sites LC-17, Cape Canaveral
Total launches 3
Successes 1
Failures 2
Maiden flight August 27, 1998
Last flight August 23, 2000
Boosters (Stage 0)
No boosters 9 Nº
Engines 1 GEM 46
Thrust 628.3 kN (141,250 lbf)
Specific Impulse 273 s (2.68 kN·s/kg) (sea level)
Burn time 75 seconds
Fuel solid
First Stage
Engines 1 Rocketdyne RS-27A
Thrust 1085.79 kN (244,094 lbf)
Specific Impulse 254 s (2.49 kN·s/kg) (sea level)
Burn time 320 seconds
Fuel LOX/kerosene
Second Stage - Centaur
Engines 1 Pratt & Whitney RL-10B
Thrust 110.03 kN (24,736 lbf)
Specific Impulse 462 s (4.53 kN·s/kg)
Burn time 700 seconds
Fuel LOX/LH2

The Delta III rocket was an expendable launch vehicle made by Boeing. The first Delta III launch was on August 26, 1998. Of its three flights, the first two were failures, and the third—which succeeded—carried only a dummy (inert) payload. Delta III had the capability to deliver 8,400 pounds (3,800 kilograms) of cargo to geostationary transfer orbit, twice the payload of its predecessor in the Delta rocket family, the Delta II.

[edit] History

Throughout the 1990s, satellite masses were growing steadily. It was apparent that the Delta II could not lift many upcoming payloads. In addition, the Delta was a relatively complex launch vehicle, designed for mission flexibility and low development costs rather than low operating cost. Boeing felt the need to maintain market position, through increased capacity, more competitive pricing, and expedited launch-site operations.

The inaugural launch on 27 August 1998 from Cape Canaveral Air Force Station ended in failure, when software adapted from the Delta II caused a guidance failure during first-stage flight. The failure and subsequent vehicle motion depleted the hydraulic fluid used for steering. Upon loss of control, the vehicle was destroyed. The Galaxy X satellite (Hughes HS601 HP type) crashed in the Atlantic Ocean.

The second launch on 4 May 1999, also from Cape Canaveral, also ended in failure. The second stage engine experienced a pressure anomaly and rupture, and shut down while its second burn was underway. The Orion 3 satellite (Hughes HS601 model) was stranded in a useless orbit.

The third flight on 23 August 2000, launched the DM-F3 payload. This was a dummy designed to mimic an HS601 communications satellite, and equipped with sensors to monitor vehicle characteristics. Final orbit was slightly low (20,600 km instead of 26,000), but was considered a success. However, with the combining factors of a declining satellite launch market, low customer confidence following the two consecutive failures, and the advent of Boeing's new Delta IV, this would prove to be the Delta III's final launch.

[edit] Vehicle description

The Delta III had the kerosene/oxygen first stage of a Delta II. However, the complex and less-efficient stack of upper stages was replaced with a more advanced hydrogen/oxygen stage. The boosters were noticeably larger. The new fairing fit larger payloads; the first stage has been modified to accommodate the larger stack.

Upper stage of a Delta III
Upper stage of a Delta III

The upper stage burned high-performance cryogenic fuel in a proven Pratt & Whitney RL-10 engine design. The liquid-hydrogen tank was 4 meters in diameter, covered in insulation derived from that of the Space Shuttle External Tank, and built by Mitsubishi Heavy Industries. The separate liquid-oxygen tank retained the 2.4 m diameter of previous Deltas. Both were structurally stable. The RL-10 engine, from the Centaur upper stage, was in the new RL-10B-2 configuration, with an extending nozzle. The nozzle fit in the vehicle stack for launch, then extended in space to increase expansion ratio and improve efficiency. The extending segments were uncooled carbon composites, made by SEP of France.

The solid rocket boosters were Alliant GEM-46s, sometimes referred to as GEM LDXL (Large Diameter Extended Length). These were 14.7 meters length and 46 inches diameter, versus 13 meters and 40 inches for the GEMs on Delta II. Six were ignited on the launch pad, three are lit in flight. To maintain steering authority, three of the boosters had vectoring nozzles.

The payload fairing was a new design in composite materials, matching the upper stage hydrogen tank at 4 meters diameter.

To keep the vehicle at a reasonable length and avoid steering problems in high-altitude crosswinds, the first stage was shortened. The kerosene (RP-1) fuel tank, formerly 8 feet in diameter like the liquid oxygen tank, was a squat 4 meters, like the hydrogen tank. It too was made by Mitsubishi Heavy Industries. The new length also minimized changes to the launch tower.

In keeping with the 4-digit designation system from the Delta II, the Delta III is technically referred to as the 8930.

Overall, payload to GTO (Geostationary-Transfer Orbit) was doubled versus the Delta II, with reasonable program costs and streamlined operations. However, the consecutive failures of the initial Delta IIIs, combined with the more-advanced Delta IV program and the successful Sea Launch venture, left the Delta III as an interim vehicle. However, technologies and components from the Delta III contributed to the development of the Delta IV.

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