will likely involve biological integration. Imagine a factory where the CO2 exhaust from the natural gas generator is piped into algae ponds. The algae eat the CO2, grow, and are turned into biofuel to power the miners. The heat from the miners keeps the algae warm in winter.
"We want to fix the natural gas wells you can't cap." "We want to take strain off the grid, not add to it." "We want to decarbonize industrial heating." Crypto Factory Mining 2.0
But the industry has hit a wall. Energy costs are soaring, hardware efficiency is plateauing, and global regulators are circling like sharks. We are now standing at the precipice of a new paradigm: will likely involve biological integration
To pipe heat into a factory, you need high temperatures. Air-cooled rigs produce 40°C air—too cold for industrial drying. Immersion cooling (dipping the ASICs in non-conductive fluid) captures heat at 60°C–70°C, which is perfect for radiant floor heating or pre-heating industrial boilers. The heat from the miners keeps the algae warm in winter