Header Ads Widget

Ticker

6/recent/ticker-posts

Japan Launches H3 Rocket, Destroys It Over 2nd-Stage Failure

Japan’s space agency intentionally destroyed a new H3 rocket minutes after its launch Tuesday because the ignition failed for the second stage of the country’s first new rocket series in more than two decades.

Coming three weeks after an aborted launch due to a separate glitch, the H3’s failure was a setback for Japan’s space program – and possibly for its missile detection program – and a disappointment for space fans who were rooting for Tuesday’s retrial.

The H3 rocket with a white head blasted off and soared into the blue sky from the Tanegashima Space Center in southern Japan as fans and local residents cheered. It followed its planned trajectory and the second stage separated as designed, but the ignition for it failed, the Japan Aerospace Exploration Agency said.

JAXA officials apologized for the failure, and said it sent a command to destroy the rocket about 14 minutes after liftoff, as there was no hope for it to complete its mission.

Funo Yasuhiro, JAXA director for launch implementation, said the second stage and its payload fell into the deep sea off the eastern coast of the Philippines. He said the rocket, which was not going to enter the targeted orbit while carrying a lot of fuel, was unsafe and had to be destroyed.

Enjoying this article? Click here to subscribe for full access. Just $5 a month.

No damages or injuries were reported from the destruction of the rocket or its falling debris.

The rocket was carrying an Advanced Land Observation Satellite, or ALOS-3, tasked primarily with Earth observation and data collection for disaster response and mapmaking, and an experimental infrared sensor developed by the Defense Ministry that can monitor military activity including missile launches.

There is no plan for an alternative satellite launch to replace the earlier generation of ALOS, said Hara Katsuhiko, Education, Culture, Sports, Science and Technology minister. He did not say if or how the delay could affect disaster and missile detection capability.

The failure is the second in six months since a smaller Epsilon-series solid-fueled rocket designed to launch scientific satellites failed in October.

The H3 launch had also been held up more than two years because of an engine development delay. During a launch attempt in February, an electrical glitch after the main engine ignition aborted the launch just before its liftoff and narrowly saved the rocket.

Further delay is expected, but JAXA officials said analyzing the malfunction and rebuilding trust comes first.

“Our top priority is to do everything we can to find the cause and regain the trust in our rockets,” said JAXA President Yamakawa Hiroshi at a joint news conference. “We need to figure out what we should do to successfully achieve the next launch.”

Yamakawa said global competitiveness is still important. “Delays and additional costs are both burdens, but we will achieve international overall competitiveness from the perspectives of cost and user friendliness in delivering satellites.”

The H3 rocket – Japan’s first new series in more than 22 years – was developed at a cost of 200 billion yen ($1.47 billion) by JAXA and Mitsubishi Heavy Industries as a successor to Japan’s H-2A rocket, which is due to retire after its upcoming 50th launch.

The H3, about 60 meters (196 feet) long, can carry larger payloads than the 53-meter (174-foot) H-2A. But its launch cost has been slashed approximately in half to about 50 million yen ($368,000) by simplifying its design, manufacturing, and operation in an effort to win more commercial launch customers. The hydrogen-fueled main engine is newly developed and uses fewer parts by altering the combustion method.

Enjoying this article? Click here to subscribe for full access. Just $5 a month.

The space launch business has become increasing competitive, with major players including SpaceX and Arianespace.



Japan Launches H3 Rocket, Destroys It Over 2nd-Stage Failure
Source: Frappler

Post a Comment

0 Comments