Featured image credit: China Academy of Launch Vehicle Technology (CALT) / Global Times
Lift Off Time
|November 12, 2022 – 02:03 UTC | 10:03 BJT|
|China Aerospace Science Corporation (CASC)|
|China National Space Administration (CNSA)|
|Long March 7|
|LC-201, Wenchang Satellite Launch Center, Hainan Island, China|
|Up to 6,500 kg (14,300 lb)|
Where did the spacecraft go?
|Low Earth orbit (LEO) – 370 km (230 mi), at a 41° inclination|
Did they attempt to recover the first stage?
|No, this is not a capability of the Long March 7|
Where did the first stage land?
|It crashed into the ocean|
Did they attempt to recover the fairings?
|No, this is not a capability of the Long March 7|
Were these fairings new?
This will be the:
|– 4th resupply mission for the Tiangong 3 Space Station |
– 5th launch of a Tianzhou spacecraft
– 10th mission of a Long March 7 rocket
– 157th orbital launch attempt in 2022
Where to re-watch
How Did It Go?
The China Aerospace Science Corporation (CASC) successfully launch its cargo resupply mission, the Tianzhou-5, to the Tiangong-3 Space Station, currently under construction in low Earth orbit (LEO). The Long March 7 rocket lifted off from LC-201, Wenchang Satellite Launch Center, in China.
The Tianzhou-5 mission is the fourth cargo resupply mission to the Tianhe Core Crew module (CCM) of China’s developing Tiangong-3 Space Station. The first cargo resupply mission was successfully launched on May 29, 2021.
The Tianzhou-5 mission delivered supplies for the upcoming Shenzhou-15 crewed mission, which is currently planned to launch in November. It also provided the Tianhe CCM with enough propellant to maintain its orbital altitude. In addition, the Tianzhou-5 mission carried five experiments and five CubeSats, including the Macao Student Science Satellite No.1 developed by CASC, the Sheng Xi Jishu Yanzheng Lianxing payload, and the Zhixing-3A SAR satellite.
The spacecraft autonomously docked with the Tiangong-3 Space Station two hours after its launch, at 04:10 UTC (12:10 BJT), which is the fastest time such an operation has ever been completed. This broke the record for the Russian spacecraft, which was around three hours.
The Tianzhou Spacecraft
The Tianzhou (which means “heavenly boat”) is an automated cargo spacecraft that will function as the main resupply vehicle for the Tiangong-3 Space Station. The spacecraft was developed from China’s first prototype space station, the Tiangong-1. The first Tianzhou spacecraft, Tianzhou-1, launched on a Long March 7 rocket from Wenchang in April 2017.
This spacecraft is 10.6 meters long and has a diameter of 3.35 meters. It consists of two main parts: a cargo cabin and a propulsion section.
The Tiangong-3 Space Station
The Tiangong-3 Space Station (meaning “heavenly palace”) is a space station currently under construction in LEO. When complete, the station will be roughly one-fifth the mass of the International Space Station. The Tiangong-3 Space Station will operate in orbit for at least ten years.
Construction began on April 29, 2021, when the core module, the Tianhe (“harmony of the heavens”), which is able to accommodate three crew members with a built-in life support system, was launched on a Long March 5B rocket. The Tianhe is 16.6 m long and has a diameter of 4.2 m. This module can also provide propulsion to maintain the orbital altitude of the station. Recently, it was joined by the two other modules, Mengtian and Wentian that host Chinese and international science experiments.
China’s aim is to construct the three-module space station with 11 launches across 2021-2022, which will include three module launches, four cargo spacecraft, and four crewed missions. The station is comprised of three modules, though it has the ability to expand to six, and it is expected to be operational for at least ten years.
The first crewed flight to the station took place on June 17, 2021. The three astronauts from that mission have already left the Tiangong-3 on September 16, 2021.
What is the Long March 7?
The Long March 7 is a three-stage medium-lift launch vehicle, capable of placing a 13,500 kg (~29,800 lb) payload into low earth orbit (LEO), or a 7,000 kg (~15,000 lb) payload into geostationary transfer orbit (GTO).
The basic version of the Long March 7 can be customized by varying the number of boosters, allowing it to be capable of reaching higher orbits or executing multiple orbital deployments.
Shao Yetao, chief designer of the Long March 7 carrier rocket, said that the rocket has some upgrades for the Tianzhou-3 mission. For example, its water- and moisture-proof function was improved to ensure a smooth launch in unfavourable weather conditions.
The center core of the Long March 7 can be supported by either 0, 2, or 4 boosters, which use refined kerosene (RP-1) and liquid oxygen (LOx) propellant. The boosters are powered by an oxidizer-rich staged combustion YF-100 engine. At sea level, each booster provides 1,200 kN (270,000 lbf) of thrust. This increases to 1,340 kN (300,000 lbf) of thrust in a vacuum.
The center core of the rocket is 3.35 meters in diameter and has two YF-100 engines. Like the boosters, this first stage uses refined kerosene (RP-1) and liquid oxygen (LOx). At sea level, this stage produces 2,400 kN (540,000 lbf) of thrust, increasing to 2,680 kN (600,000 lbf) in a vacuum.
Like the first stage, the second stage is also 3.35 meters in diameter and uses RP-1 and LOx. This stage is powered by four oxidizer-rich staged combustion YF-115 engines, two of which are fixed and two of which are able to gimble. The second stage offers 706 kN (159,000 lbf) of thrust in a vacuum.
The Long March 7 does not have a third stage in the basic configuration used for this mission, but the Long March 7A variant has an additional third stage powered by liquid hydrogen (LH2) and LOx. The stage uses 2 YF-75 engines, which produce 167 kN (37,580 lbf) of thrust and have an ISP of 438 s.
Article adapted from Claire Percival