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Raumfahrt - Rocket Lab Successfully Launches 30th Electron Rocket & 150th Satellite to Space

15.09.2022

Rocket Lab preps for 30th launch, makes strides in engine reuse

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A kerosene-fueled Rutherford engine undergoing a test-firing. Credit: Rocket Lab

Rocket Lab is set to launch its 30th mission from New Zealand Thursday with a commercial Japanese radar remote sensing satellite. While the company does not plan to retrieve the Electron rocket on this mission, engineers recently test-fired an engine recovered from a flight earlier this year, another step toward Rocket Lab’s goal of reusing first stage boosters.

The launch this week was scheduled for Wednesday, but Rocket Lab said Tuesday the flight would be delayed 24 hours to wait for a better weather forecast at the company’s privately-owned spaceport on Mahia Peninsula on the North Island of New Zealand.

The 15-minute launch window opens at 4:30 p.m. EDT (2030 GMT) Thursday. Rocket Lab’s two-stage, 60-foot-tall (18-meter) Electron launcher will take off from Launch Complex 1B with the StriX 1 radar observation satellite for Synspective, a Japanese startup company planning a fleet of 30 radar imaging spacecraft.

StriX 1 will be the first commercial satellite for Synspective, following the launch of two demonstration satellites on Rocket Lab missions in 2022 and in February of this year. Heading south from New Zealand, Rocket Lab’s second stage will propel the commercial payload into a preliminary transfer orbit, then a kick stage will ignite a low-thrust engine to maneuver into a near-circular orbit for deployment of the StriX 1 spacecraft about 54 minutes after liftoff.

The mission will target a polar sun-synchronous orbit at an altitude of about 350 miles (563 kilometers). StriX 1 will be the 150th satellite satellite delivered to orbit by Rocket Lab.

Synspective’s fleet of satellites will provide high-frequency, high-resolution images worldwide. Radar imaging satellites can resolve Earth’s surface in darkness and through clouds, giving Synspective and other companies with similar constellations an all-weather observing capability. StriX 1, like the two predecessor demonstration satellites, weighs around 200 pounds (100 kilograms), according to Synspective.

Synspective’s StriX 1 radar satellite during pre-launch processing at Rocket Lab’s spaceport in New Zealand. Credit: Rocket Lab

Its deployable X-band radar antenna, measuring 16 feet (5 meters) across once unfurled, can see features on Earth’s surface as small as 3 feet, or 1 meter.

The antenna and the satellite’s solar arrays are stowed for launch to fit inside the Electron rocket’s payload fairing. Rocket Lab designed a custom design payload shroud to accommodate Synspective’s cube-shaped satellites, which comes close to the limit of Electron’s payload capacity.

The mission launching StriX 1 is the second launch in a bulk buy of three Rocket Lab flights.

“From launching Synspective’s first demonstration spacecraft to now helping to build their SAR (synthetic aperture radar) constellation with this launch of their first commercial StriX satellite, it’s an honor to once again be the trusted launch partner for Synspective,” said Peter Beck, Rocket Lab’s founder and CEO. “As the sole payload on this dedicated Electron launch, Synspective are able to build their constellation to a specific LTAN (local time of the ascending node) that couldn’t be achieved if StriX was launched on a rideshare mission with other satellites — a highly important differentiator when building a new satellite constellation.”

Synspective is one of numerous commercial companies developing remote sensing satellite constellations. The company says its radar satellites will provide near-real time imagery to help customers respond to natural disasters, survey natural resources, track urban activity, and monitor ship traffic, among other applications.

“Unlike the previous two satellites, which are classified as demonstration satellites, StriX 1 is our first pre-commercial satellite for full-scale business expansion,” Synspective said. “This is in anticipation of the production and operation of multiple satellites in the future, with improved batteries and faster downlink speeds to capture more data and meet the needs of a wide range of customers from government to the private sector.”

Rocket Lab’s Electron rocket on the launch pad in New Zealand during a dress rehearsal in August. Credit: Rocket Lab

Synspective said it will launch three more satellites after StriX 1 by the end of 2023. The company aims to have its full constellation of 30 satellites orbit by 2026.

Rocket Lab will not attempt recover the Electron booster stage on the StriX 1 mission, but engineers continue to make progress in testing to prepare for future recoveries, and eventually the reuse, of first stage boosters.

Engineers test-fired one of the nine Rutherford main engines from an Electron booster recovered from a launch in Day. That mission was the first time Rocket Lab caught a descending booster under parachute with a helicopter. The aircraft released the rocket for a soft splashdown in the Pacific Ocean, and Rocket Lab raised the booster from the sea for return to New Zealand.

Rocket Lab’s first stage is powered by nine Rutherford engines. Each Rutherford engine consumes kerosene and liquid oxygen propellants to generate about 5,600 pounds of thrust at sea level. The company builds new Rutherford engines at its headquarters in Long Beach, California.

The company announced Sept. 1 that it completed a full-duration, full-thrust test-firing of a refurbished engine from the launch in May. The engine passed all of the “rigorous acceptance tests” Rocket Lab performs for every engine, including 200 seconds of burn time and multiple restarts, the company said.

The refurbished engine “performed to the same standard of a newly-built Rutherford engine,” Rocket Lab said. The company doesn’t plan to fly the engine again, but will it will be a “life-leader” to support future Rutherford engine development.

“We’ve always been at the forefront of innovation with Electron, having pushed the boundaries of many technologies including carbon composites, electric turbo-pumps and 3D printed rocket engines. Now, we’re leading the pack once again bringing reusability to small launch vehicles,” Beck said.

“Being able to refly Electron with minimal refurbishment is the ultimate goal, and so the fact that the recovered components on this engine performed on the test stand with minimal rework is further validation that we’re on the right path,” Beck said. “If we can achieve this high level of performance from engine components recovered from the ocean, then I’m optimistic and incredibly excited about what we can do when we bring back dry engines under a helicopter next time.”

Rocket Lab plans to try again to catch an Electron booster on a mission later this year, with the goal of hauling the rocket back to land without releasing it into the ocean.

Quelle: SN

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Update: 16.09.2022

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Rocket Lab Successfully Launches 30th Electron Rocket & 150th Satellite to Space

Rocket Lab USA, Inc (Nasdaq: RKLB) (“Rocket Lab” or “the Company”), a leading launch and space systems company, has delivered its 30th mission and 150th satellite to orbit following its latest successful Electron launch earlier today.

“The Owl Spreads Its Wings” dedicated mission for Japanese Earth-observation company Synspective launched on the Electron rocket from Pad B at Rocket Lab Launch Complex 1 at 20:38 UTC, September 15, 2022. The mission successfully deployed a single spacecraft, the StriX-1 satellite, to a 563km circular Earth orbit, where it will join other StriX satellites launched by Rocket Lab in February 2022 and December 2020 as part of Synspective’s Earth-observation satellite constellation.

“The Owl Spreads Its Wings” is Rocket Lab’s seventh Electron launch this year with a 100% mission success rate for 2022. With today’s 30th Electron launch and 150thsatellite delivered to orbit, the mission also marked the 300th Rutherford engine flown to space on Electron. Designed and built by Rocket Lab, Rutherford is the world’s first 3D-printed, electric pump-fed orbital rocket engine. Earlier this month Rocket Lab successfully test fired a reused Rutherford first stage engine for the first time. This is a significant technical achievement as Rocket Lab develops Electron into the world’s first reusable orbital small rocket.

Among the Company’s scheduled missions on the 2022 manifest is another attempt at recovering an Electron rocket with a helicopter and the first Electron mission from Rocket Lab’s Launch Complex 2 in Wallops Island, Virginia.

+ About Rocket Lab

Founded in 2006, Rocket Lab is an end-to-end space company with an established track record of mission success. We deliver reliable launch services, satellite manufacture, spacecraft components, and on-orbit management solutions that make it faster, easier and more affordable to access space. Headquartered in Long Beach, California, Rocket Lab designs and manufactures the Electron small orbital launch vehicle and the Photon satellite platform and is developing the Neutron 13-ton payload class launch vehicle. Since its first orbital launch in January 2018, Rocket Lab’s Electron launch vehicle has become the second most frequently launched U.S. rocket annually and has delivered 150 satellites to orbit for private and public sector organizations, enabling operations in national security, scientific research, space debris mitigation, Earth observation, climate monitoring, and communications. Rocket Lab’s Photon spacecraft platform has been selected to support NASA missions to the Moon and Mars, as well as the first private commercial mission to Venus. Rocket Lab has three launch pads at two launch sites, including two launch pads at a private orbital launch site located in New Zealand and a second launch site in Virginia, USA which is expected to become operational in 2022.

Quelle: RocketLab

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Quelle: RocketLab

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