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Development of a novel type hierarchical porous composite from coal gasification fine slag for CO2 capture

Zekai Miao, Jianjun Wu, Yanjie Niu, Zhenkun Guo, Fanhui Guo, Yixin Zhang

2022Chemical Engineering Journal80 citationsDOIOpen Access PDF

Abstract

A novel type hierarchical porous composite is successfully synthesized through chemical activation followed by the hydrothermal treatment using coal gasification fine slag (FS) as the raw material. This study realized pore structure development for the porous composite through taking the advantage of slag particles to achieve further better CO 2 adsorption capacity. The hierarchical porous carbon (FSHPC) prepared from FS by chemical activation has obvious macropore structure. After being treated by hydrothermal synthesis method, FSHPC formed a well-developed pore structure and the surface area increased by 735 m 2 /g. Among (1–16)-FSHPC-NM samples, 4- FSHPC -NM sample has the largest surface area of 1713 m 2 /g, higher than that of porous carbon whose mineral matter is almost entirely removed (1524 m 2 /g). The mechanisms for the enhancement of pore structure by hydrothermal treatment are: (1) the decrease of the content of slag particles (SP) which acted as a ballast and blocked the pore of FSHPC; (2) the silicate/aluminosilicate film covering the meso-/macro-pores surface and the pores transformed into micro-/ meso -pore. The FSHPC-NM samples showed remarkable CO 2 adsorption performance. The 4-FSHPC-NM sample exhibits the highest CO 2 uptake of 2.97 mol/kg and 1.23 mol/kg at 25 °C and 50 °C, respectively. Compared with the CO 2 adsorption capacity of FSHPC, the CO 2 adsorption capacity increased by 1.03 mol/kg after hydrothermal treatment, due to the developed pore structure and more active sites (metallic cations) for CO 2 adsorption. 4-FSHPC-NM sample has the best CO 2 adsorption rate, whose CO 2 adsorption equilibrium is achieved within 5 min. CO 2 uptake of the 4-FSHPC-NM sample was well maintained after 15 cycles. All these results suggest that hierarchical porous composite has an enormous potential to be reused for practical and industrial CO 2 adsorption applications.

Topics & Concepts

AdsorptionHydrothermal circulationChemical engineeringMaterials sciencePorositySpecific surface areaComposite numberCarbon fibersSlag (welding)CoalZeoliteMineralogyChemistryMetallurgyComposite materialCatalysisOrganic chemistryEngineeringZeolite Catalysis and SynthesisCarbon Dioxide Capture TechnologiesMembrane Separation and Gas Transport
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