Harvesting low-grade heat energy using thermo-osmotic vapour transport through nanoporous membranes

Low-grade heat from sources below 100 C o ers a vast quantity of energy. The ability to extract this energy, however, is limited with existing technologies as they are not well-suited to harvest energy from sources with variable heat output or with a small temperature di erence between the source and the environment. Here, we present a process for extracting energy from low-grade heat sources utilizing hydrophobic, nanoporous membranes that trap air within their pores when submerged in a liquid. By driving a thermo-osmotic vapour flux across the membrane from a hot reservoir to a pressurized cold reservoir, heat energy can be converted to mechanical work. We demonstrate operation of air-trapping membranes under hydraulic pressures up to 13 bar, show that power densities as high as 3.53 ± 0.29Wm are achievable with a 60 C heat source and a 20 C heat sink, and estimate the e ciency of a full-scale system. The results demonstrate a promising process to harvest energy from low-temperature di erences (<40 C) and fluctuating heat sources.