China Focus: More details of China's space station unveiled

Source: Xinhua| 2020-05-18 21:24:31|Editor: huaxia

File photo of a full-size model of the core module of China's space station Tianhe. (Xinhua/Liang Xu)

The space station, expected to be completed around 2022, will operate in the low-Earth orbit at an altitude from 340 km to 450 km for more than 10 years.

BEIJING, May 18 (Xinhua) -- After the successful maiden flight of the Long March-5B large rocket and the testing of China's new-generation manned spaceship, more details of China's space station have been unveiled.

The space station, expected to be completed around 2022, will operate in the low-Earth orbit at an altitude from 340 km to 450 km for more than 10 years, supporting large-scale scientific, technological and application experiments, according to a report in the People's Daily.

File photo of a full-size model of the core module of China's space station Tianhe. (Xinhua/Liang Xu)

WHAT DOES IT LOOK LIKE?

The space station Tiangong, meaning Heavenly Palace, will be able to accommodate three astronauts in normal circumstances and up to six during a crew replacement.

The station will be a T shape with the core module at the center and a lab capsule on each side. Each of the modules will be over 20 tonnes, with the total mass of the station about 66 tonnes, said Zhou Jianping, chief designer of China's manned space program.

If China's Tiangong-1 and Tiangong-2 space labs are like one-bedroom apartments, the space station is equivalent to an apartment with three bedrooms, a living room, a dining room and a storage room, said Zhu Guangchen, deputy chief designer of the space station from China Academy of Space Technology (CAST).

The core module of the station, named Tianhe, has a total length of 16.6 meters, a maximum diameter of 4.2 meters and a takeoff mass of 22.5 tonnes, and is currently the largest spacecraft developed by China.

The Tianhe core module will be the management and control center and the main living space of the crew, and will support some scientific and technological experiments.

The living space in the core module is about 50 cubic meters. Combined with the two lab capsules, the whole living space could be up to 110 cubic meters, according to CAST.

The core module has two berth ports connecting to the two lab capsules, and three docking ports for the crew spacecraft, cargo and other craft. It also has an exit for astronauts to conduct extravehicular activities.

The first lab capsule, named Wentian, will be mainly used for scientific and technological experiments, as well as working and living space and shelter in emergency.

This capsule is equipped with a special airlock chamber to support extravehicular activities and a small mechanical arm for automatic installation and operation of extravehicular instruments.

It possesses some key functions of the core module, which means it can perform the management and control of the space station if needed, according to CAST.

The second lab capsule, named Mengtian, has functions similar to the first lab capsule. It is equipped with a special airlock chamber to support the entry and exit of cargo and instruments with the help of astronauts and mechanical arms.

The Long March-2F carrier rocket and Shenzhou manned spacecraft will be used to transport crew and some materials between Earth and the space station. The Shenzhou can carry three astronauts and be used as a rescue spacecraft in emergency.

The Long March-7 rocket and Tianzhou cargo spacecraft will be used to transport materials, propellants and instruments for the station.

The Long March-5B rocket will carry into space the core module and lab capsules, as well as a capsule holding a 2-meter-caliber optical telescope, which will fly in the same orbit as the space station.

The telescope capsule, named Xuntian, is expected to provide observation data for astronomical and physical studies to help scientists better understand the universe. During its expected 10-year operation, it will be able to observe over 40 percent of the sky, said Zhou.

The capsule can dock with the space station for maintenance and refueling.

China's space station can be expanded and upgraded according to research needs, and will give full play to the role of people in space, said Zhou.

China's new large carrier rocket Long March-5B blasts off from Wenchang Space Launch Center in south China's Hainan Province, May 5, 2020. (Xinhua/Zhao Yingquan)

HOW TO CONSTRUCT IT?

Twelve flight missions are planned to construct the station. After the maiden flight of the Long March-5B, the core module and the two lab capsules will be launched for assembly in orbit. Four manned and four cargo craft will also be launched, said Lin Xiqiang, deputy director of the China Manned Space Agency (CMSA).

China will face great challenges and complexities in the coming high-density launch missions, said Zhou Jianping.

Chinese astronauts will shoulder many tasks in the construction of the space station. They will conduct many complex extravehicular tasks, and work with mechanical arms to complete the installation, testing, adjustment and upgrading of the payloads in orbit.

One astronaut can operate the mechanical arm inside the capsule while another works outside. The space station will have two kinds of mechanical arms, and the cooperation between astronauts and mechanical arms will enable the construction and maintenance of the station, said Zhou.

Because of the high cost of transporting materials into space, the ability to recycle as much as possible is a major technological issue, Zhou said.

The longest stay in space so far by Chinese astronauts is 33 days. The water and oxygen they needed were taken into space. To enable astronauts to stay longer, the station will be equipped with a renewable life support system.

The hydrogen produced in electrolytic oxygen production and the carbon dioxide exhaled by astronauts can generate oxygen through chemical reaction, which can supplement oxygen for the space station.

The power system includes two pairs of flexible solar panels, with each panel about 30 meters long. The station will also use electric propulsion technology to maintain its course.

China's new large carrier rocket Long March-5B blasts off from Wenchang Space Launch Center in south China's Hainan Province, May 5, 2020. (Xinhua/Pu Xiaoxu)

SCIENTIFIC EXPERIMENTS

Science facilities on the station could support hundreds of research projects in fields such as astronomy, space life science, biotechnology, microgravity, basic physics and space materials.

More than a dozen advanced experiment racks will be installed, and an extravehicular experiment platform will be built. Each rack is regarded as a lab that can support various space experiments.

Scientists will also conduct space life science and biotechnology experiments on the station to study how human beings might live in space for long periods.

The crew to construct the station has been selected and is being trained. China's third group of reserve astronauts will be selected around July, according to the CMSA.

Previously, Chinese astronauts were selected from air force pilots. However, the station needs different kinds of astronauts such as engineers and scientists.

The third group of astronauts is selected from not only air force pilots but also relevant industrial sectors and research institutes and universities, said Yang Liwei, China's first astronaut and deputy chief designer of the manned space program.

Their time in orbit will be extended from one month to three months, half a year or even longer. They will be required to complete a large amount of work outside the spacecraft during the construction, said Huang Weifen, deputy chief designer of the astronaut system of China's manned space program.

KEY WORDS:
EXPLORE XINHUANET
010020070750000000000000011102121390671331