The Mars Wind Tunnel at Tohoku University is a low-density tunnel that can simulate Martian atmospheric flight condition. Up to the present, this tunnel has been operated using air as the working gas. To expand the capability of this tunnel and to study the effects of compressibility on airfoil performance at low Reynolds number, a modification has been made to allow the tunnel to be operated using CO 2, that is the main constituent of the Martian atmosphere. In this study, the operational characteristics as well as the flow quality in the test section are investigated in CO2 mode and compared with the results obtained in air mode. It is found that a higher Mach number can be achieved in CO 2 mode than in air mode as the speed of sound decreases with the molecular weight. No negative effect of CO 2 such as freezing inside the ejector nozzles has been observed over the entire operational conditions of the tunnel. Mach number profile is found to be uniform over a wide range of Reynolds number except inside the boundary layers on the walls. The static pressure gradient along the test section is almost zero at the total pressure of 1kPa. These results prove that the Mars Wind Tunnel has a capability to simulate the real Martian atmospheric condition.
[1]
Per Nornberg,et al.
An environmental simulation wind tunnel for studying Aeolian transport on mars
,
2008
.
[2]
M. L. Henderson,et al.
Low-speed single-element airfoil synthesis
,
1979
.
[3]
Keisuke Asai,et al.
Development of Low Density Wind Tunnel to Simulate Atmospheric Flight on Mars
,
2009
.
[4]
Mark D. Guynn,et al.
Evolution of a Mars Airplane Concept for the ARES Mars Scout Mission
,
2003
.
[5]
S. B. Calcutt,et al.
A wind tunnel for the calibration of Mars wind sensors
,
2008
.
[6]
Akira Oyama,et al.
A Study on Airfoil Design for Future Mars Airplane
,
2006
.
[7]
Robert D. Braun,et al.
Design of the ARES Mars Airplane and Mission Architecture
,
2006
.
[8]
B. R. White,et al.
A low-density boundary-layer wind tunnel facility
,
1987
.