Porous alkali-activated material from hypergolic coal gangue by microwave foaming for methylene blue removal

Overall, 100% hypergolic coal gangue (HCG)-based geopolymer foams were produced by a novel saponification-microwave foaming combined route. Microwave foaming with and without expired vegetable oil was first used to produce CG-based geopolymer foams. Macropores were mainly generated by microwave foaming, and mesopores were mainly obtained by the addition of expired soybean oil that underwent a saponification reaction. The effects of the oil content on the density, porosity, pore morphology, compression strength, and methylene blue adsorption properties were studied. High total porosity (85.9–89.0 vol%) and acceptable compression strength (0.46–1.1 MPa) HCG-based geopolymer foams were produced. Foams with 12.59 wt% oil exhibited the best adsorption properties, with an adsorption capacity up to 9.4 mg/g and high removal efficiency of about 95.3%. These solid-waste-based porous components are promising monolithic adsorbents for wastewater treatment.