Space-Based Geothermal: Lunar and Martian Thermal Energy Systems By: Robert Buluma Space-based geothermal is one of the most compelling ideas in the future of space exploration. It does not mean building a traditional Earth-style geothermal plant on the Moon or Mars. Instead, it refers to using subsurface materials, thermal storage, and planetary heat-management systems to keep off-world bases alive, warm, and operational in extreme environments . On the Moon, the problem is surviving the long lunar night. On Mars, the problem is keeping habitats and equipment warm enough to function in a constant deep-cold environment . The topic sounds futuristic, but the engineering logic is real. NASA and other researchers have already studied lunar regolith as a thermal storage medium, and recent research continues to frame thermal energy architecture as a major part of sustainable lunar habitation [5][2]. For Mars, habitat studies emphasize thermal management as a core requirement, not a side det...
"Quaise Energy Raises $134M to Unlock Superhot Geothermal Power, Project Obsidian Targets 50 MW and Gigawatt Scale"
Earth's New Power Plant, Quaise Energy Raises $134M to Unlock Superhot Geothermal Energy By: Robert Buluma In a landmark moment for the renewable energy sector, Quaise Energy has secured $134 million in the first close of its Series B funding round, propelling the world's first commercial superhot geothermal power plant from blueprint to reality. This isn't just another funding announcement, it's a declaration that the era of limitless, clean, baseload energy from beneath our feet has officially begun. The Dawn of a New Energy Frontier The energy industry has been searching for the "holy grail" for decades: a source of power that is clean, reliable, and available everywhere. Quaise Energy believes it has found the answer, not in the sun or the wind, but deep within the Earth's crust. The company's ambitious Project Obsidian, located in Oregon's Deschutes National Forest, is set to become the world's first commercial power plant to harness sup...