Projects
Our Projects
Ongoing Research Projects
Thermal Battery
Grey Water Recycling
Biogas Systems
Off Grid iSolar
Biodome Caribbean is conducting research on a thermal energy battery that stores heat in winter and cold in summer, using geothermal and solar energy. It would employ phase-change materials and underground storage to retain and release thermal energy as needed, maintaining indoor comfort year-round. In winter, it captures and stores solar heat, while in summer, it absorbs and preserves cool energy, reducing reliance on external power. This system enhances the energy efficiency of our future domes, creating a self-sustaining, climate-resilient living environment adaptable to any region.
Biodome caribbean is researching a greywater recycling system to achieve zero water wastage, ensuring efficient reuse in our hydroponic and aquaponic food production systems. The system collects and filters wastewater from sinks and showers, purifying it through biological and mechanical filtration. Once treated, the nutrient-rich water is redirected to hydroponic crops and aquaponic fish tanks, creating a closed-loop ecosystem that maximizes water efficiency. This sustainable approach reduces freshwater demand, enhances food production, and supports self-sufficient, eco-friendly living in our biodomes.
Biodome Caribbean is conducting research on a biogas system that converts organic waste into renewable energy for cooking and heating. At its core, a biogas toilet processes human and organic waste through anaerobic digestion, producing methane-rich biogas while safely breaking down waste. This gas is then stored and used as a clean fuel source for cooking or heating the dome, reducing reliance on fossil fuels. The system also generates nutrient-rich fertilizer as a byproduct, which is integrated into our hydroponic and aquaponic food production. This closed-loop solution enhances energy independence and promotes sustainable, off-grid living.
Biodome Caribbean is researching an off-grid integrated solar system that seamlessly combines traditional solar panels within the dome’s structure and solar glass windows to maximize energy capture. This dual approach optimizes both photovoltaic efficiency and natural lighting, reducing the need for external power sources. The system ensures a constant renewable energy supply, storing excess energy for nighttime and low-sun conditions. By integrating solar technology directly into the dome’s design, this research aims to create a self-sustaining, energy-efficient habitat, ideal for off-grid living in any climate.