SAM is a dynamic platform and infrastructure for ever expanding research and experiential learning. It is our goal to provide visiting teams a rich personal and team experience both inside and outside of the Test Module (greenhouse) and crew quarters. Hi-fidelity, fully operational equipment and systems mirror those employed now or in near-future flight and habitation systems. The following details some of the integral components incorporated into the design of the total SAM facility.
In 1987 Test Module was built as a prototype to the Biosphere 2. This hermetically sealed space proved atmospheric and water recycling, food production, waste management, and mitigation of atmospheric pressure changes. The Test Module serves as the Controlled Environment where hydroponic and grow bed experiments are conducted, food cultivated, and waste recycled in an integrated bioregenerative life support system. Learn more …
The Test Module lung is composed of a 3,800 pound steel pan floats on a cushion of air by means of a flexible membrane attached to the lung’s lower chamber. The mass of the pan exerts a continuous, downward pressure on the column of air which continues into the Test Module. This maintains an internal pressure over ambient atmospheric pressure without the use of power or machinery. Learn more …
SAM crew have at their disposal the use of two pressure suits for all EVA missions into the Mars yard. Developed by Dr. Cameron Smith of Smith Aerospace Garments, these high fidelity systems incorporate a pressurized bladder (1-4 psi over ambient) and cover-all garment for a realistic experience. The regulated airflow source can be an umbilical chord to SAM or a self-contained Mars cart with compressed air (SCUBA tank). Learn more …
Automatic Pressure Regulation System
In the fall of 2020 Biosphere 2 Deputy Director John Adams and SAM Director Kai Staats engaged a University of Arizona Engineering 498 Capstone team in the design and fabrication of a working prototype of an automated pressure regulation system for the SAM crew quarters. The functional components of this prototype will be integrated into a fully functional internal pressure regulation system. Learn more …
SAM incorporates a regulated pass-through airlock for movement between the Mars yard and entry to the crew quarters. This airlock does not integrate a vacuum, rather it will move a specified quantity of air from the crew quarters through the airlock, over a specified period of time, to approximate a full air exchange.
Originally designed by Paragon Space Development Corporation for NASA, this full-scale prototype is designed to remove CO2 from a sealed atmosphere for 1-7 persons. Trent Tresch of the SAM team is leading adaptation of this equipment from soda lime to zeolites and ultimately, introducing a desorb process, enabling full recycling of the adsorption medium.
In a partnership with world renowned CemRock of Tucson and the Arizona State University JMARS team, SAM will incorporate a massive 6,400 square foot (600 square meter) scaled model of a Mars crater. This dynamic arena for both human and robotic exploration will enable the experiential testing of both human skill and robotic systems across a diversity of terrains.
A 12 foot (~4 meter) radius, 30 foot (~9 meter) long synthetic recreation of a lava tube will enable both human and robotic vehicles to repel through a skylight to the tube floor, simulate exploration, then navigate back to walk- or drive-out opening. As humans are very likely to build long-stay habitats beneath the surface of Mars, lava tubes are predicted to provide a safe construction site, radiation shielding and potential pressurization in place.
Gravity Offset Rig
Co-designed by Hollywood stunt coordinator Christopher Leps and SIMOC project lead Ezio Mellotti, this 3-axis crane and and rig will provide finite control of perceived gravity, enabling users to experience “reduced gravity” during boots on-the-ground exploration of the SAM Mars yard and scaled crater. Learn more …
Mission Control Center
SAM will soon include a 1,200 sq-ft Mission Control Center (MCC), a building separate from the SAM habitat and Mars yard but on campus at the Biosphere 2. The MCC will include a projection screen for real-time data and communications monitoring, workstations, small workshop for on-site repair of equipment, break room to prepare simple meals, and a private conference room for outside communication and virtual meetings.