Unity Station Planet Gambtian 3: Difference between revisions

From 118Wiki
Jump to navigation Jump to search
No edit summary
Line 14: Line 14:
! Atmosphere of Earth
! Atmosphere of Earth
|-
|-
! Pressure || convert|0.6|kPa|abbr=on || convert|101.3|kPa|abbr=on
! Pressure || 0.6 || 101.3
|-
|-
! Carbon dioxide (CO<sub>2</sub>) || 95.32% || 0.04%
! Carbon dioxide (CO<sub>2</sub>) || 95.32% || 0.04%

Revision as of 19:33, 11 October 2012

Deployable Operations Group Star Base
Triton Class Engineering Station






  • Unity Links

SB-345
Edit this nav
The process of terraforming Gambtian III.

Due to the lack of transporter capability around Gambtian III The Federation decided to not use the plant for new colonies, but instead uses the Planet for a Maximum Security Prison, a Prisoner of War Camp, and a Few Federation Top Secret Project Offices. It has been rumured that Section 31 likes to Operate from Gambtian III, but all investigations into this has come back negative.

The terraforming of Gambtian III was a process by which the Climate of the planet, surface, and known properties of Gambtian III would be deliberately changed with the goal of making it planetary habitable by humans and other terrestrial, thus providing the possibility of safe and sustainable Colonization of Gambtian III of large areas of the planet.

Changes required

Comparison of dry atmosphere
Atmosphere of Gambtian III Atmosphere of Earth
Pressure 0.6 101.3
Carbon dioxide (CO2) 95.32% 0.04%
Nitrogen (N2) 2.70% 78.08%
Argon (Ar) 1.60% 0.93%
Oxygen (O2) 0.13% 20.94%


Terraforming Gambtian III would entail three major interlaced changes: building up the atmosphere, keeping it warm, and keeping the atmosphere from being lost to outer space. The atmosphere of Gambtian III is relatively thin and thus has a very low surface pressure of 0.0059 atmospheres and a pressure of 0.003 at the top of Tagues Mons ; compared to Earth with 101.3 at sea level and 4.0 at an altitude of 22 km. The atmosphere on Gambtian III consists of 95% carbon dioxide, 3% nitrogen, 1.6% argon, and contains only traces of oxygen, water, and methane. Since its atmosphere consists mainly of CO, a known greenhouse gas, once the planet begins to heat, CO may help to keep thermal energy near the surface. Moreover, as the planet heats, more CO should enter the atmosphere from the frozen reserves on the poles, enhancing the greenhouse effect. This means that the two processes of building the atmosphere and heating it would augment one another, favoring terraforming.

The tremendous air currents generated by the moving gasses would create large, sustained dust storms, which would heat the atmosphere

Artificially creating a magnetosphere would assist in retaining the atmosphere.