A tour of China’s space station
China’s establishment of a permanently crewed space station and the successful docking of the first three-person crew last week propels it into the league of space superpowers. Unlike the International Space Station (ISS), China’s Tiangong space station was designed and constructed by a single national space agency.
Given multi-fold advances in technology, the Tiangong is likely to be more efficient than the ISS in many respects. This was evident in the crew transfer. The flight to the station, followed by the transfer of the crew, took a total of about six hours — on average, the same process takes nearly 24 hours for the ISS. Chinese state media broadcast the whole process of launch and transfer live.
Space stations are built in modules, which can be stuck together much like gigantic high-tech Lego parts. The ISS has at least 160 modules and components, with five collaborative space agencies — the US Nasa, the European Space Agency, Russia’s Roscosmos, Japan’s JAXA and the Canadian Space Agency — providing different design inputs. It has a mass of more than 400 tonnes and at least six crew members in residence (there are seven beds but given shifts, more can be accommodated) at any given time. There are two major sections, one run by the Russians and the other being a collaborative effort.
The Tiangong will be much smaller. It will probably be around 80-100 tonnes in mass when completed. All operations are controlled from the Beijing Aerospace Centre. This station is actually Tiangong-3 and the culmination of a programme that started with the launch of Tiangong-1 in 2011.
Tiangong-1 was the first experimental attempt to put a crewed lab in orbit and it worked fine, with three crewed missions including female astronauts. Tiangong2 was a space laboratory. Both earlier versions have been decommissioned and helped China perfect automated docking procedures.
The station orbits in low-earth orbit between 340 and 450 km, much the same orbital distance as the ISS. Tiangong includes a core cabin module, Tianhe, which has living quarters for three crew members, and includes guidance and navigation controls. This module also has the power, propulsion and life support systems as well as the docking hub.
There is a robotic arm of Canadian design, for external work, and a backup arm is placed with one of the two other laboratory modules, Wentian and Mengtian. These two extra labs will also have additional navigation avionics and propulsion control as backup functions. All three modules have pressurised environments, allowing crew to move around without suits. Every waste product is recycled as well.
The power mainly comes from solar panels, with rocket fuel flown up from Earth and stored for the propulsion systems. Tiangong, like the ISS, will have to make constant little course corrections to avoid being hit by debris. There is a rocket with a space habitat docked there for emergency evacuation in case of a meteor strike or any disaster.
Experiments miles above Earth
Apart from demonstrating the ability to keep people alive and healthy for extended periods in a hostile environment, space stations can also conduct experiments that simply cannot be done, except in space.
Gravity is lower there, at around 90 per cent of Earth surface levels. But since the space station is continuously in motion, everything in it is actually in a state of freefall, which effectively makes it a micro-gravity environment.
We don’t know many things about the way human, plant and animal bio-systems respond to microgravity and varying gravity, so that in itself is a vast experiment with many ingenious scientists trying to figure out how various things function in such conditions. For example, there is an experiment designed to see how cancer cells respond to this environment. Presumably like the ISS, there will also be attempts to grow various plants, culture bacteria, etc.
Apart from this, we don’t fully understand the dynamics of fluid flows in microgravity, etc. In addition, the radiation is much higher there than under the protective umbrella of the atmosphere. This, too, is potentially lethal and certainly worth studying since Mars and the Moon are both high-radiation environments. Experiments may be done externally to test for responses to cosmic rays, solar winds (energised particles flowing from the sun) and hard vacuum as well.
It isn’t yet clear what the scope of Chinese experimentation will be, and they may add modules as time goes by. Tiangong is expected to host experiments from Belgium, France, Germany, India, Italy, Japan, Kenya, the Netherlands, Mexico, Peru, Russia, Saudi Arabia and Spain in addition to the China experiments. China also says it’s open to foreign crew members.
Unlike the International Space Station, China’s Tiangong space station was designed and constructed by a single national space agency