Siloxane removal for biogas purification by low cost mineral adsorbent
Résumé
The potential use of raw and expanded perlite as low-cost adsorbents for biogas purification has been investigated. The thermal expansion of perlite causes a reduction in the density of silanol groups from 2515.43 to 653.75 OH/nm2; in contrast, the specific surface area of perlite increased two-fold due to the thermal expansion. To determine the equilibrium adsorption capacity and the adsorption kinetics batch experiments were conducted. The adsorption capacities are in the following order: activated carbon (6.8 mg/g) andgt; silica gel (6.6 mg/g) andgt; expanded perlite (5.8 mg/g) andgt; raw perlite (5.6 mg/g) when compared at the same experimental conditions. The equilibrium adsorption data showed that perlite can be used to reduce the octamethylcyclotetrasiloxane concentration below 28 mg/m3, as recommended by leading manufacturers. The adsorption kinetics of octamethylcyclotetrasiloxane onto raw and expanded perlite followed the Linear-Driving Force model suggesting that the mass transfer is the rate-controlling step. In addition to its low cost, expanded perlite has the advantage of requiring lower desorption temperature (200 °C) for regeneration in comparison to the reported values for activated carbon (andgt;400 °C) and fast desorption kinetics (20 min), which could contribute to a cleaner production of biogas.
Domaines
Chimie
Fichier principal
García et al. - 2020 - Siloxane removal for biogas purification by low co.pdf (4.79 Mo)
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