Evaluating low-cost permeable adsorptive barriers for the removal of benzene from groundwater: Laboratory experiments and numerical modelling
Date
2022
Journal Title
Journal ISSN
Volume Title
Publisher
Journal of Contaminant Hydrology
Abstract
A B S T R A C T
Permeable adsorptive barriers (PABs) consisting of individual (compost, zeolite, and brown coal) and composite
(brown coal-compost and zeolite-compost) adsorbents were evaluated for their hydraulic performance and
effectiveness in removing aqueous benzene using batch and column experiments. Different adsorption isotherms
and kinetic models and different formulations of the equilibrium advection-dispersion equation (ADE) were
evaluated for their capabilities to describe the benzene sorption in the media. The batch experiments showed that
the adsorption of benzene by the adsorbents was favourable and could be adequately described by the Freundlich
and Langmuir isotherms and the pseudo-second-order kinetic model. Particle attrition and structural reorganization
occurred in the columns, possibly introducing preferential flow paths and resulting in slight changes in the
final hydraulic conductivity values (4.3 × 10 5 cm s 1–1.7 × 10 3 cm s 1) relative to the initial values (4.2 ×
10 5 cm s 1–2.14 × 10 3 cm s 1). Despite the fact that preferential flow appeared to have an impact on the
performance of the investigated adsorbents, the brown coal-compost mixture proved to be the most effective
adsorbent. It significantly delayed benzene breakthrough (R = 29), indicating that it can be applied as a low-cost
effective adsorbent in PABs for sustainable remediation of benzene-contaminated groundwater. The formulated
transport models could fairly describe the behaviour of benzene in the investigated media under dynamic flow
conditions; however, model refinement and additional experimental studies are needed before pilot/full-scale
applications to improve the fits and verify the benzene removal processes. Our results generally demonstrate
how such studies can be useful in evaluating potential reactive barrier materials.
Description
Research Article
Keywords
Permeable sorption barrier, Compost, Brown coal, Zeolite, Benzene, Analytical modelling