When it comes to the space industry, it is always amazing to take a step forward. And Rocket Lab just managed to deliver a passel of satellites to orbit. This step is huge when it comes to the booster reusability. Experts are eager to monitor the results of the massive rocket launches and how powerful their operations are compared to a single launch. 

The Rocket Lab’s Electron Booster in the two-stage took off from the Company in New Zealand with 30 spacecraft to low earth orbit. This launch is under the “Return to Sender” mission. It kicked off with the first stage flight, where the Electron’s first stage returned to get a guided Parachute-aided splashdown in the Pacific Ocean. This area is about 400 miles from the New Zealand Coast. Two hours after the takeoff, scientists fished a booster out of a drink for the recovery ship. Rocket Lab is expected to haul the booster to the shore to analyze and inform if the Electron’s first stage is reusable.

Rocket Lab founder and CEO Peter Beck explained to reporters during a teleconference that once the booster is back in the factory, we keep it as a CS1, Crime Scene investigation. He further stated that experts would pull the booster apart and understand how each component has done its job. According to Beck, achieving their reusability goal will make Electron missions less expensive for the customers and the company. However, the reusability feature’s main benefit is to achieve frequent launches and increase rocket production rates. Beck also highlighted how important it is for a factory not to build more vehicles regardless if the economy is neutral.

According to experts, the Rocket Lab plans on snagging failing electrons out of the sky with the helicopters’ help. This technique has been seen in action in the past March using a dummy booster. Rocket Lab has monitored and guided the Electron’s first stages to Earth in a special and well-controlled fashion. The “Return to Sender” mission may be the 16th Electron Flight, but it marks the first time Rocket Lab has used a parachute and have recovered a booster post-flight.

The booster recovery was exciting, and their main aim of getting the 30 payloads aloft was also successful after an hour after takeoff. These thirty satellites were from different companies and with different purposes. Some satellites will provide communication services; others will test the technology to alleviate the Earth’s growing maritime surveillance constellation and discover the link between disturbances and earthquakes.

Many space experts hope that the reusability goal can save resources and maintain satellites’ efficiency. Time will tell how effective the reusability function works. And after achieving this goal, satellite launching can become more affordable for various companies.


By admin

Leave a Reply

Your email address will not be published. Required fields are marked *