TEXEL Energy is working with infrastructure solutions that enable AI data centers to be powered by underutilized energy resources, including flare gas, landfill gas, and other stranded gas streams. By combining proprietary energy conversion technology with modular data center infrastructure located directly at the energy source, TEXEL transforms wasted energy into valuable computing capacity while reducing emissions and improving energy utilization.
Globally, enough gas is flared and wasted each year to generate energy equivalent to approximately 140 nuclear reactors operating around the clock—nearly matching the output of the world’s active nuclear fleet. While flaring converts methane into carbon dioxide, the energy itself is completely wasted.
At the same time, the rapid growth of artificial intelligence is creating unprecedented demand for electricity, while grid capacity and power availability remain the primary constraints on expansion.
Over more than 15 years, TEXEL has developed a patented technology that converts untreated flare gas into AI computing capacity. The technology is currently operating at Kikås Miljöstation, a landfill site outside Gothenburg, Sweden, where landfill gas is converted into electricity that powers integrated AI computing infrastructure.
By transforming waste gases into energy and computing power, TEXEL creates a circular system in which environmental liabilities become valuable assets.
TEXEL is unlocking a new source of sustainable energy and AI infrastructure by converting wasted methane and stranded gas resources into productive economic value—connecting lost energy with one of the fastest-growing sources of energy demand in the global economy.
