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Study of H2S Removal Capability from Simulated Biogas by Using Waste-Derived Adsorbent Materials

Hua Lun Zhu, Davide Papurello, Marta Gandiglio, Andrea Lanzini, Işıl Akpınar, Paul R. Shearing, George Manos, Dan J. L. Brett, Ye Shui Zhang

2020Processes35 citationsDOIOpen Access PDF

Abstract

Three waste-derived adsorbent materials (wood-derived biochar, sludge-derived activated carbon and activated ash) were pre-activated at the laboratory scale to apply them for the removal of H2S from a biogas stream. The H2S removal capabilities of each material were measured by a mass spectrometer, to detect the H2S concentration after the adsorption in an ambient environment. The activated ash adsorbent has the highest removal capacity at 3.22 mgH2S g−1, while wood-derived biochar has slightly lower H2S removal capability (2.2 mgH2S g−1). The physicochemical properties of pristine and spent materials were characterized by the thermogravimetric analyzer, elemental analysis, X-ray fluorescence spectroscopy and N2 adsorption and desorption. Wood-derived biochar is a highly porous material that adsorbs H2S by physical adsorption of the mesoporous structure. Activated ash is a non-porous material which adsorbs H2S by the reaction between the alkaline compositions and H2S. This study shows the great potential to apply waste-derived adsorbent materials to purify a biogas stream by removing H2S.

Topics & Concepts

BiocharAdsorptionBiogasActivated carbonThermogravimetric analysisMesoporous materialWaste managementDesorptionChemical engineeringPorosityMaterials scienceHydrogen sulfideChemistryPulp and paper industryPyrolysisComposite materialOrganic chemistrySulfurCatalysisEngineeringIndustrial Gas Emission ControlCarbon Dioxide Capture TechnologiesOdor and Emission Control Technologies