The influence of solid-phase organic carbon on the sorption of hydrophobic organic pollutants in landfill barriers, UK
The influence of solid-phase organic carbon on the sorption of hydrophobic organic pollutants in landfill barriers, UK
The Oxford Clay from Bletchley, the Kimmeridge Clay from Kimmeridge Bay, Dorset, and Tertiary mud (Wittering Formation) from Whitecliff, Isle of Wight, United Kingdom were used as sorbent samples because of their distinctive organic material characteristics (Amorphous organic matter rich and/or phytoclast rich). Organic material was isolated for identification and analysis using a non-acid extraction method (heavy liquid) extraction and traditional methods involving HF digestion. These organic materials were then used to determine influences of extraction on hydrophobic organic contaminants, (toluene and naphthalene) sorption. Organic petrology classification was applied to identify the various types of isolated organic material. Amorphous organic matter from the Kimmeridge Clay displayed a higher sorption capacity (Sorption–desorption distribution coefficient (Kd), Kd = 6,481, 59, 670; for toluene and naphthalene, respectively) compared to literature values. Amorphous organic matter-rich sorbent extracts demonstrated a higher absorption capacity than the phytoclast-rich sorbents (e.g., Wittering Formation, Kd = 219, 10, 134; for toluene and naphthalene, respectively). Implications of results in landfill design/risk assessment and modelling are discussed.
Huang, Pin-Ru
bda6c8c1-89ab-40ee-b756-61da32ed6480
Stringfellow, Anne
024efba8-7ffc-441e-a268-be43240990a9
Smallman, David J
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Marshall, John
cba178e3-91aa-49a2-b2ce-4b8d9d870b06
25 May 2021
Huang, Pin-Ru
bda6c8c1-89ab-40ee-b756-61da32ed6480
Stringfellow, Anne
024efba8-7ffc-441e-a268-be43240990a9
Smallman, David J
b619a7d9-6214-407f-9e95-67b0c4bc7278
Marshall, John
cba178e3-91aa-49a2-b2ce-4b8d9d870b06
Huang, Pin-Ru, Stringfellow, Anne, Smallman, David J and Marshall, John
(2021)
The influence of solid-phase organic carbon on the sorption of hydrophobic organic pollutants in landfill barriers, UK.
Environmental Earth Sciences, 80 (11), [403].
(doi:10.1007/s12665-021-09632-4).
Abstract
The Oxford Clay from Bletchley, the Kimmeridge Clay from Kimmeridge Bay, Dorset, and Tertiary mud (Wittering Formation) from Whitecliff, Isle of Wight, United Kingdom were used as sorbent samples because of their distinctive organic material characteristics (Amorphous organic matter rich and/or phytoclast rich). Organic material was isolated for identification and analysis using a non-acid extraction method (heavy liquid) extraction and traditional methods involving HF digestion. These organic materials were then used to determine influences of extraction on hydrophobic organic contaminants, (toluene and naphthalene) sorption. Organic petrology classification was applied to identify the various types of isolated organic material. Amorphous organic matter from the Kimmeridge Clay displayed a higher sorption capacity (Sorption–desorption distribution coefficient (Kd), Kd = 6,481, 59, 670; for toluene and naphthalene, respectively) compared to literature values. Amorphous organic matter-rich sorbent extracts demonstrated a higher absorption capacity than the phytoclast-rich sorbents (e.g., Wittering Formation, Kd = 219, 10, 134; for toluene and naphthalene, respectively). Implications of results in landfill design/risk assessment and modelling are discussed.
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Huang2021_Article_TheInfluenceOfSolid-phaseOrgan
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Accepted/In Press date: 5 April 2021
Published date: 25 May 2021
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Local EPrints ID: 456623
URI: http://eprints.soton.ac.uk/id/eprint/456623
ISSN: 1866-6280
PURE UUID: aec3cb25-b220-47e7-9c57-2217ad803449
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Date deposited: 05 May 2022 16:56
Last modified: 17 Mar 2024 02:48
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Author:
Pin-Ru Huang
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David J Smallman
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