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Aeronautics and Aerospace Open Access Journal

Mini Review Volume 1 Issue 3

Progress of microgravity experimental satellite sj-10

WR Hu,1,2 BC Tang,3 Q Kang1,2

1Institute of Mechanics, Chinese Academy of Sciences, China
2School of Engineering Science, University of Chinese Academy of Sciences, China
3Chinese Academy of Space Technology, China

Correspondence: WR Hu, Institute of Mechanics, Chinese Academy of Sciences, Beijing 100190, China

Received: August 16, 2017 | Published: October 30, 2017

Citation: Hu WR, Tang BC, Kang Q. Progress of microgravity experimental satellite sj-10. Aeron Aero Open Access J. 2017;1(3):125-127. DOI: 10.15406/aaoaj.2017.01.00016

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Abstract

The program SJ-10 is one of the scientific satellite programs in the Strategic Priority Research Program on Space Science, the Chinese Academy of Sciences, and was launched in April 6, 2016. There are totally 19 scientific payloads with a payload of multi-function furnace for 8 materials research missions and a payload of three-dimensional cell culture for the neural stem cell mission and the hematopoietic stem cell mission respectively etc. (WR Hu et al.).1 The recoverable satellite consists mainly of two capsules: a recoverable capsule had been recovered at April 18, 2016 with all payloads of life science in addition of the payload of the multi-function furnace and the payload for measurements of Soret coefficients of crude oil (SCCO), and an un-recoverable capsule had persisted to work in additional 8 days of all other physical payloads. The experiments were operated via tele-operations, and all experimental data were received by 3 ground stations. The data and recoverable samples have been analyzed by the teams of experimental program.

Keywords: scientific satellite, SJ-10, microgravity science, space life science, recoverable satellite

Introduction

Microgravity experiments for long period, which could be performed only in the space orbit vehicle such as space station, space shuttle, and satellite, are essential for the development of microgravity science and space life science. The recoverable satellite is a useful and efficient tool for space experiments in the microgravity environment,2,3 and such kind of satellites have been launched successfully 23 times in China.3 Space microgravity experiments in China have been completed mainly aboard the recoverable satellites since the late 1980’s4 and the spaceships Shenzhou since the late 1990’s. The launch of the satellite SJ-8 was a turn point of transportation the mission purpose from earth observation mainly to microgravity experiments. The main scientific results of SJ-8 missions were published in a special issue of Microgravity Science and Technology.2 The space experiments of microgravity fluid physics, including one in cooperation with the Russian scientists aboard the Mir space station, were summarized by Hu et al.5 The program of SJ-10 satellite was organized by the Chinese National Space Administration (CNSA) in the middle of 2000’s. 10 experiments of microgravity science and 10 experiments of space life science were selected from more than 200 applications of SJ-10 mission in the early of 2005. The mission proposal of space experiments was reviewed in the October of 2005. The engineering proposal of satellite platform was reviewed in May of 2006 by the CNSA. Then, the demonstration working group on “recoverable satellite of scientific experiments for space environment utilization” was formally organized, and the mission was determined as SJ-10. Unfortunately, the demonstrative phase was stopped after one year due to the reform of CNSA, and re-started when the government of China determined to move the national management of scientific satellite from CNSA to the Chinese Academy of Sciences (CAS) in 2011. The re-started demonstration phase was completed in the end of 2012, and the engineering phase of program SJ-10 was started since the beginning of 2013. Then, the satellite was launched at April 6, 2016. In the SJ-10 program, there are 6 experiments in the field of microgravity fluid physics, 3 in microgravity combustion, 8 in space material science, 3 in radiation biology, 3 in gravitational biology, and 4 in space biotechnology. Main scientific purposes of these experiments may be summarized as follows.

  1. To promote the basic research of fluid physics and biology experiments;
  2. To support the manned space flight for fire safety research;
  3. To improve the human health by biotechnology studies;
  4. To develop the high-technology by experiments of coal combustion, materials processing and biotechnology.

The issues of selected space experiments are listed respectively in Table 1 for microgravity science and Table 2 for space life science.

S.no

Title

Institution

PI

1

A1-1. Microgravity A1-1 Space experiment
of evaporation and Fluid physics fluid
interfacial effects.

Inst. Mech., CAS

Q.S. Liu

2

A1-2. Phase separation and dynamic
clustering in granular gas.

Inst. Phys., CAS

M.Y. Hou

3

A1-3. Thermal dynamical behavior of
vapor bubble during pool boiling.

Inst. Mech., CAS

J.F. Zhao

4

A1-4. Space experimental on surface wave of
thermocapillary convection.

Inst. Mech., CAS

Q. Kang

5

A1-5. Study on the colloidal assembling.

Inst. Mech., CAS

Y.R. Wang

6

A1-6. Soret coefficients of crude oil (SCCO).

ESA,Inst. Mech.,
CAS

A. Verga and Z.W. Sun

7

A2-1. Combustion on ignition, soot
emission and smoke distribution of wire
insulations by overload.

Eng. Inst. Thermophys.,
CAS

W.J. Kong

8

A2-2/3. Investigation of the coal
combustion and pollutant formation
characteristics under microgravity.

Tsinghua Univ.  Huazhong
Sci. & Tech. Univ.

H. Zhang and
M.H. Xu

9

A2-4. Ignition and burning of solid
materials in microgravity.

Inst. Mech., CAS

S.F. Wang

10

A3. Solidification and crystal
growth in space.

Inst. Semiconductor,
CSA, et al

X.W. Zhang et al.

Table 1 List of microgravity science experiments

S.no

Title

Institution

PI

1

B1-1. Molecular biology mechanism of space
radiation mutagenesis

Dalian Maritime Univ

Y.Q. Sun

2

B1-2. Roles of space radiation on genomic
DNA and its genetic effects

Inst. Biophysics, CAS

H.Y. Hang

3

B1-3 Effects of space environment on silkworm embryo
development and mechanism of mutation & Ecology

Inst. Plant Physiology, CAS

Y.P. Huang

4

B2-1. Biological effects and the signal transduction of
microgravity stimulation in plants

Inst. Plant Physiology, CAS

W.M. Cai

5

B2-2. Biomechanics of mass transport of cell
interactions under microgravity

Inst. Mech., CAS

M. Long

6

B2-3. Photoperiod-controlling flowering of Arabidopsis
and rice in microgravity

Inst. Plant Physiology &
Ecology, CAS

H.Q. Zheng

7

B3-1. Three-dimensional cell culture of neural stem
cells in space

Inst. Genetics & Developmental
Biology, CA

J.W. Dai

8

B3-2. Three-dimensional cell culture of hematopoietic
stem cells in space

Inst. Zoology, CAS

Y. Zhao

9

B3-3. Development of mouse early embryos in space

Inst. Zoology, CAS

E.Q. Duan

10

B3-4. Potential and molecular mechanism of osteogenic
differentiation from human bone mesenchymal stem cells

Zhejiang Univ

J.F. Wang

Table 2 List of space life science experiments

The recoverable satellite is a very useful spacecraft for microgravity experiments and the satellite of SJ-10 is the 25th recoverable satellite of China. The structure of SJ-10 satellite is shown in Figure 1. The SJ-10 satellite is flight in a circle orbit, and its main parameters are given as follows (Table 3).

Figure 1 Schematics of SJ-10 satellite, the satellite structure is in left part, and recoverable capsule and un-recoverable capsule are shown respectively in the right upper and right lower part.

The residual gravity acceleration is shown in Figure 2 for 2500s after 3 days of launch. And the pressure change in unrecovered capsule is shown in Figure 3 for 18days.

Figure 2 residual gravity acceleration

1

Total mass

≤3600kg

2

Orbital Inclination

43°

3

Orbital altitude

~ 255 km

4

Life span

12 + 8 days

5

Gravitation level

Better than 10-3g

6

Payload

• 270kg(recovery capsule)
• 280kg(unrecovered capsule)

7

Rocket

CZ-2D

8

Launch date

6-Apr-16

Table 3 Properties of SJ-10 satellite

Figure 3 Profile of the pressure in unrecovered capsule

Flight experimental phase was in the period April 6, 2016 to April 25, 2016, and the operation was successful as

  1. The flight was in the designed orbit;
  2. The perform the space science experiment was operated in order, and transferred the scientific data to the ground station;
  3. Analyze the scientific data of space experiments online in the command and control center of science application system;
  4. Analyze the scientific results from the recoverable facilities in laboratory.

Conclusion

The method of tele-science was used during the space experimental period. The space experiments were operated by the command control center of science application system, and the PIs can adjust the experimental parameters during the experimental period. The recoverable satellite is the useful infrastructure for microgravity science and space life science, and the missions of microgravity experimental satellite SJ-10 were very successful.

Acknowledgements

The present study is supported financially by the Strategic Priority Research Program on Space Science, the Chinese Academy of Sciences under the grant of XDA04020000, XDA04020400 and the National Natural Science Foundation.

Conflicts of Interest

Author declares that there is no conflict of interest.

References

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