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Accelerated flushing of contaminants from MSW landfill at the field scale using a fill-and-draw method

Accelerated flushing of contaminants from MSW landfill at the field scale using a fill-and-draw method
Accelerated flushing of contaminants from MSW landfill at the field scale using a fill-and-draw method
A fill-and-draw flushing test on a landfill cell containing MSW waste was carried out to examine the operational viability of this method for accelerating the flushing of contaminants and landfill stabilisation.

During the fill cycle, 800 m3 of water containing the tracer bromide was pumped into the base of a 0.44 ha landfill cell, resulting in the estimated saturation of 9,400 m3 of waste. Abstraction took place in two phases, during which 1,100 m3 of tracer/leachate was recovered. Samples of leachate were analysed for the tracer, electrical conductivity and indigenous solutes chloride and ammonia. Tracer recovery was between 63 and 72% for bromide. An estimated 227 kg of ammonia and 575 kg of chloride were removed.

Test data was used to calibrate a 1D, dual-porosity model involving advection in a mobile zone, and diffusion into ‘blocks’ of a less mobile zone. The model fitted well to the early time data, whereas later data appears to have been affected by recharge.

The results of this trial demonstrate the possibilities of the ‘fill-and-draw’ concept using the basal leachate drainage system of landfills as a potential accelerated landfill remediation technique. However, modelling results suggest low contaminant removal efficiency. Including a pause between the fill and the draw cycles improves mass removal.
0956-053X
176-187
Rees-White, Tristan
852278dd-f628-4d98-a03a-a34fea8c75d6
Beaven, Richard
5893d749-f03c-4c55-b9c9-e90f00a32b57
Barker, John
33bf9dec-cc9b-451c-8192-46099e316b6d
Rees-White, Tristan
852278dd-f628-4d98-a03a-a34fea8c75d6
Beaven, Richard
5893d749-f03c-4c55-b9c9-e90f00a32b57
Barker, John
33bf9dec-cc9b-451c-8192-46099e316b6d

Rees-White, Tristan, Beaven, Richard and Barker, John (2024) Accelerated flushing of contaminants from MSW landfill at the field scale using a fill-and-draw method. Waste Management, 186, 176-187. (doi:10.1016/j.wasman.2024.05.040).

Record type: Article

Abstract

A fill-and-draw flushing test on a landfill cell containing MSW waste was carried out to examine the operational viability of this method for accelerating the flushing of contaminants and landfill stabilisation.

During the fill cycle, 800 m3 of water containing the tracer bromide was pumped into the base of a 0.44 ha landfill cell, resulting in the estimated saturation of 9,400 m3 of waste. Abstraction took place in two phases, during which 1,100 m3 of tracer/leachate was recovered. Samples of leachate were analysed for the tracer, electrical conductivity and indigenous solutes chloride and ammonia. Tracer recovery was between 63 and 72% for bromide. An estimated 227 kg of ammonia and 575 kg of chloride were removed.

Test data was used to calibrate a 1D, dual-porosity model involving advection in a mobile zone, and diffusion into ‘blocks’ of a less mobile zone. The model fitted well to the early time data, whereas later data appears to have been affected by recharge.

The results of this trial demonstrate the possibilities of the ‘fill-and-draw’ concept using the basal leachate drainage system of landfills as a potential accelerated landfill remediation technique. However, modelling results suggest low contaminant removal efficiency. Including a pause between the fill and the draw cycles improves mass removal.

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More information

Accepted/In Press date: 25 May 2024
e-pub ahead of print date: 21 June 2024
Published date: 15 September 2024
Additional Information: Publisher Copyright: © 2024 The Author(s)

Identifiers

Local EPrints ID: 491162
URI: http://eprints.soton.ac.uk/id/eprint/491162
DOI: doi:10.1016/j.wasman.2024.05.040
ISSN: 0956-053X
PURE UUID: cdf2bd87-3379-4b68-8e55-bd32252a5b3a
ORCID for Tristan Rees-White: ORCID iD orcid.org/0000-0001-9009-8432
ORCID for Richard Beaven: ORCID iD orcid.org/0000-0002-1387-8299

Catalogue record

Date deposited: 13 Jun 2024 17:06
Last modified: 21 Aug 2025 01:59

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Contributors

Author: Tristan Rees-White ORCID iD
Author: Richard Beaven ORCID iD
Author: John Barker

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