Landers
The Shazbotdom Imperial Space Administration currently utilizes 1 Out of Earth Atmosphere (OoEA) Lander, with two more currently in development.
Psi-class Lunar Lander
The Lander has undergone a rigerous testing phase with multiple Static Fire Testing and three SubOrbital Flight Tests to ready it for operation. This testing process was completed on the 3rd of June, 2023 with a successful Lauch and Landing at the SubOrbital Flight Testing Center.
At one time, a total of Four Lunar Landers will be assigned to the Transfer Station at any one point in time.
The two side segments of the lander are the only segments that hold Fuel and Oxidizer for operation. The center segment includes seating for 28 individuals with a command chair near the nosecone. The lowest section of the middle has the main egress door to unload after landing as well as the loading ports for the fuel and oxidizer needed. Although, the system is designed that it can make multiple trips to and from the lunar Surface before it needs to be refueled.
Chi-class Martian/Venusian Lander
The Martian/Venusian Astronaut Lander's design is a result of meticulous planning and innovation. The Imperial Space Administration of Shazbotdom developed this spacecraft with a primary focus on safety, efficiency, and adaptability. The integration of six vacuum engines and six sea-level engines ensures optimal performance in both the vacuum conditions of space and the dense atmospheres of Mars and Venus.
The six vacuum engines, designed to operate in the absence of air, are powered by a combination of liquid oxygen and liquid hydrogen propellant. These engines allow precise control and maneuverability during the initial stages of the spacecraft's descent and ascent. The vacuum engines work in conjunction with the six sea-level engines, which employ a different propellant mixture to operate efficiently within Mars' atmospheric conditions.
The Martian/Venusian Astronaut Lander's functionality and capabilities are a testament to the Imperial Space Administration's technical prowess. The spacecraft's propulsion system, consisting of twelve engines, allows for a controlled descent onto the Martian surface, ensuring a soft touchdown with minimal disruption to the environment.
Tau-class Crop Transport Lander
The primary objective of this modified lander is to ensure the safe and efficient transportation of crops from the Hydroponics Farm Colonies to the Populated Colonies. The docking port, strategically placed at the bottom of the lander, serves as a secure entry point for crops at the end of the journey.
By having the docking port at the bottom, the lunar lander can minimize the risk of exposure to the vacuum of space and Atmosphere of Venus and Mars, which could potentially damage or compromise the crops. The docking port is equipped with advanced sealing technology and reinforced materials, providing an airtight seal and shielding the crops from the harsh conditions of space.
Additionally, the modified lunar lander utilizes state-of-the-art navigation systems and propulsion mechanisms to ensure precise landing and takeoff capabilities. These advancements, coupled with the docking port's protective features, guarantee a safe and reliable transportation process for the crops.
