A Chinese cargo spacecraft carrying equipment and supplies successfully docked with the core module of the country's future space station on Sunday, state media said.
A Long March 7 rocket carrying the Tianzhou-2 cargo craft -- loaded with essentials such as food, equipment and fuel -- blasted off late Saturday from the Wenchang launch site on the tropical southern island of Hainan, the Xinhua news agency reported.
The docking with the space station's Tianhe core module was completed at 5:01 am Beijing time (2101 GMT Saturday), the agency said, citing the China Manned Space Agency (CMSA).
China will need to carry out around 10 missions in total to complete assembly of the space station -- named Tiangong, meaning "heavenly palace" -- in orbit.
The station is expected to become fully operational in 2022. Once completed, it is expected to remain in low Earth orbit for up to 15 years.
With the possible retirement of the International Space Station after 2028, Tiangong could become the only human outpost in Earth's orbit.
Now that the cargo craft has docked, China plans to begin preparations to send three astronauts up to unpack the goods, which include meals such as shredded pork with garlic sauce and Kung Pao chicken, the agency said.
"We will transport support materials, necessary spare parts and equipment first, and then our crew," Xinhua quoted CMSA director Hao Chun as saying.
- Space aspirations -
Beijing has pumped billions into its space programme in a bid to make up ground on pioneers Russia and the United States, with ambitious projects in Earth orbit and the landing of uncrewed craft on the Moon and Mars.
But it was heavily reprimanded by the United States and many experts for a potentially dangerous breach of space etiquette for letting a massive rocket segment free-fall to Earth earlier this month after launching the Tianhe core module.
Although Chinese authorities have said they are open to foreign collaboration on their space station, the scope of that cooperation is as yet unclear.
But the European Space Agency has already sent astronauts to China to train for work inside Tiangong when it is ready.
Earlier this month, China landed its Zhurong rover on Mars, becoming only the third nation to successfully land a craft on the red planet.
The rover has begun roaming to study Martian geology -- it is to spend around three months taking photos and harvesting data from a vast northern lava plain.
The United States and Russia are the only other countries to have reached Mars, and only the former has operated a rover on the surface.
The launch of the Tianzhou-2 was to have taken place just days after the Mars rover landing, but was postponed for technical reasons.
Related Links
The Chinese Space Program - News, Policy and Technology
China News from SinoDaily.com
| Tweet |
Thanks for being there;
We need your help. The SpaceDaily news network continues to grow but revenues have never been harder to maintain. With the rise of Ad Blockers, and Facebook - our traditional revenue sources via quality network advertising continues to decline. And unlike so many other news sites, we don't have a paywall - with those annoying usernames and passwords. Our news coverage takes time and effort to publish 365 days a year. If you find our news sites informative and useful then please consider becoming a regular supporter or for now make a one off contribution. | ||
SpaceDaily Monthly Supporter
$5+ Billed Monthly | SpaceDaily Contributor
$5 Billed Once credit card or paypal |
New advances inspire China's deep space exploration
Beijing (XNA) May 28, 2021
With news of achievements pouring in these days, China is pushing forward its deep space exploration, aiming to contribute its wisdom in humankind's peaceful utilization of outer space. On April 29, China sent into space the core module of its space station, kicking off a series of key launch missions that aim to complete the construction of the station by the end of next year. The successful launch of the Tianhe module marks that China's space station construction has entered the full imple ... read more