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This innovative Lunar Habitation Module integrates solar panels for power, hydroponic greenhouse for food, and communal spaces for socializing. Radiation shielding, emergency bunker, nanobots, and advanced health monitoring ensure safety. Construction and life-support systems are optimized for sustainable living on the Moon.
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Living Module Solar panelsProvide all power. (aprox. 1500W) LiftWith exterior ladder in case of power outage. Hydroponic greenhouse BLOCK: BACK VIEW 9.5m Modular design allows several modules to be joined as a block, sharing communal facilities. 8m Windows made from lead glass with BNNT film SINGLE MODULE: FRONT VIEW 2.5m Communal gym/garden Windows Triple-glazed with vacuum separation for thermal insulation. Airlock Airlock is washed down each time it is used to mitigate the effects of lunar dust. Also contains spacesuits. Access by palm scan. Configurable wall panelsAllow each module to be customised to suit personal styles. Emergency underground bunker With food, water and power reserves. Communal lobby Encourages socialising. FLOOR PLANDimensions: 8x9.5x2.5m Open-plan layout allows for personalisation, and makes the module feel more spacious
Structure Superadobe (15cm) Provides structural integrity. Made airtight by nanobots Radiation Shielding • Primary shielding provided by external (settlement- or neighbourhood-wide) electrostatic barriers which deflect charged alpha and beta radiation using two Halbach arrays. • Secondary shielding provided by RFX1 polyethylene layers absorbs the remaining gamma radiation. • In the event that the primary shielding fails or there is high solar activity, the module’s occupants can evacuate to the bunker. • The heating effect of radiation is used as a source of heat during the Lunar night. Internal wall Layered boron nitride nanotubes and lead glass (2.5cm)Absorbs radiation and provides pressure integrity. Triple glazed. Pressure • Internal pressure of 0.8atm – comfortable but less resource demanding. • In the event of a loss of pressure, nanobots will use rapidly-expanding aerogel to plug the breach. • Walls will be checked regularly to monitor the effects of lunar dust and micrometeoroid impacts. Transparent AMOLED screen Allows internal windows to act as screens and modulate day/night cycles ??? Windows Piping/wiring Silica-aerogel vacuum insulation (2cm)Maintains internal temperature through extreme Lunar variations RFX1 polyethylene and boron nitride nanotube (BNNT) composite (5cm)Lighter and more effective than lead. MirrorReflects light but not radiation
Construction • Bunker and foundations are dug. • Regolith is cut with lasers, reduced to rubble with a thermic lance, and then scooped and stored inside the robot. • The base is laid and the module frame created. • Excavated regolith is compacted and processed to create Superadobe bags which are built around the frame. • Radiation shielding, utilities and internal surfaces are fitted. • One module takes two robots aprox. 10 hours to fully build and fit, including time for pressure seals to be checked. • Each completed module is lifted into place and secured by a crane robot. • Total cost per module is aprox. $200,000. Camera & sensors Solar panel Construction equipment Storage Thruster Tracks Dimensions: 1mx1mx1m Created on-site from Lunar titanium (TiO2). Extendablecranes Electromagnetic clamp Dimensions: 1mx2mx1m
Life-support Water Filtering Process Oxygen • Air supply provided by settlement. • Self-regulating greenhouse provides O2/CO2 cycle to reduce demand on the main settlement. • Module contains reserve tanks, and in emergency situations moon rocks (LiO2) can be placed in an electrolysis chamber and be used as a source of Oxygen. Water • Water is initially provided by the settlement and then recycled as much as possible to reduce top-up requirements. • Module contains reserve tanks for emergency situations. Waste • Organic waste is used as garden compost. • Inorganic waste is sent to the settlement for processing. Power • Outside of module has solar panels (aprox. 6m2) made from Lunar silicon with a power output of aprox. 1500W • Batteries store power for use during lunar-night. Collection tank Sieve to remove large organic materials Reverse osmosis UV lamp to kill microbes Purified water collection tank Safety Built-in safety systems that detect problems (fire, pressure loss etc.), alert occupants and emergency services, and can seal off affected areas.
Health & Wellbeing Diet • High in protein and calcium to prevent bone and muscle degeneration • Vitamins A & C help protect against radiation • Vitamin D to compensate for the lack of sunlight • Fluid levels must be maintained to prevent dehydration and blood loss. • Daily calorific intake should be aprox. 2250 for adults and aprox. 1750 for children. Active exercise • 1 hour of exercise per day covering all muscle groups - can be split into shorter periods. • Energy produced by use of gym-equipment (bikes, rowing machine etc.) can be sent back to the grid. • Passive exercise • Weighted clothing with built-in resistance bands mean muscles are constantly being worked. • Optional electrical muscle stimulation suits send tiny electrical impulses into the skin causing muscles to contract and relax, keeping them active and strong. • Health Monitoring • Health monitoring will be done either by nanobots injected into the bloodstream or through a monitoring bracelet (depending on individual preferences). • Computer systems provide tailored advice on how to stay healthy and reminders for check-ups.
Settlement Life support server Moduleserver Emergencies Doctor ModuleManagement Robopet Personal storage Health Household appliances AI Computers Phones Nanobots/Bracelet Automation & Computing Smart AI Table-top Computer • Transparent AMOLED windows create a home cinema, and allow Earth landscapes to be shown for psychological relief. • Holographic projectors mounted in each room allow any surface to become interactive. • The module has voice-activated computer assistance. • Household appliances (fridge, oven etc.) are linked to create a ‘Smart house’ that anticipates the user’s needs. • Internal high speed wi-fi is linked to settlement internet. • Palm –scan acts as primary security. Internallyheated Syntheticfur • Robopet • Exact simulation of a pet • No drain on life-support • Can sense emotions and act accordingly • Can detect hazards