Magma contains immense energy, with temperatures soaring between 900-1200°C. These extreme temperatures are sustained by convection currents originating deep within the Earth, offering a greater energy output than any other geothermal system.
Our revolutionary Magma Power technology allows us to harness energy from magma just beneath the Earth’s crust. With its high energy density and exceptional ability to conduct, convection, and radiate heat, magma chambers are prime candidates for energy extraction. Magma Power’s innovation will enable large-scale, 24/7 energy production, delivering the density, longevity, and efficiency needed to make a transformative impact on the global energy transition.
Magma contains immense energy, with temperatures soaring between 900-1200°C. These extreme temperatures are sustained by convection currents originating deep within the Earth, offering a greater energy output than any other geothermal system.
Our revolutionary Magma Power technology allows us to harness energy from magma just beneath the Earth’s crust. With its high energy density and exceptional ability to conduct, convection, and radiate heat, magma chambers are prime candidates for energy extraction. Magma Power’s innovation will enable large-scale, 24/7 energy production, delivering the density, longevity, and efficiency needed to make a transformative impact on the global energy transition.
We access molten magma by drilling deep into the Earth, implementing our patented heat transfer technology.
We expand our renewable energy solutions at each location, ensuring a consistent and sustainable supply of green energy for producing green fuels.
Our patented closed-loop systems efficiently capture and convert energy from magma reservoirs.
Our green-energy technology offers distinct advantages over other forms of energy production, positioning it as a crucial contributor to the decarbonization of the energy sector.
Each well targets 25–50 MWe of output — up to 10x more than a conventional geothermal well — delivering power at a projected cost of $0.01–0.03/kWh.
Available 24/7. Sustainable for 30 plus years.
A single site can support 1 GW+ of installed capacity based on modeled well performance and resource size.
Uses only a fraction of land of other renewables – even less than traditional hydrothermal.
Closed–loop system minimizes water consumption
Closed–loop system avoids harsh chemistry, allowing emission–free operations
Research and experimentation on the properties of magma (e.g., Massachusetts Institute of Technology, Syracuse University, Ludwig–Maximilians Universitat Munchin) and the potential for energy extraction (e.g., Sandia National Labroratories, The Iceland Deep Drilling Program, the Krafla Magma Testbed participants) have been conducted by various organizations. As outlined in the figure below, this research has advanced the science and technology development through TRL 5.
