Characterization and evaluation of stabilized / solidified heavy metal contaminated clays

U. E. John; I. Jefferson; D. I. Boardman; G. S. Ghataora

doi:10.1061/41095(365)280

Characterization and evaluation of stabilized / solidified heavy metal contaminated clays

U. E. John, I. Jefferson, D. I. Boardman, G. S. Ghataora

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

2 Citations (Scopus)

Abstract

The legacy of industrialization has resulted in a prevalence of heavy metal contamination, and sustainable redevelopment necessitates the use of effective remedial methods. Stabilization / Solidification technology has been employed in contaminated land remediation, and found to be particularly effective for heavy metal contaminants. However, uncertainties over the long term performance of the method and associated liabilities of residual contaminants on site have had detrimental implications on its employment. A careful characterization of the treated material is required to ensure efficiency and durability within the service life, and contaminant release predictions are required to improve confidence for employment. Geochemical speciation modeling provides information on partitioning and release of contaminants from the treated material, and information obtained from a carefully selected suite of leaching tests, dependent on the material can be used for a leaching assessment and subsequently model the method efficiency. LeachXS expert system and geochemical database embedded with the geochemical speciation modeling tool ORCHESTRA can be used for this assessment, providing the required information from the leaching tests have been obtained. Cement stabilized chromium contaminated kaolin clay was characterized and evaluated via these tools, using a suite of leaching tests designed for monolithic material, and the findings justify this assessment approach based on a comparison of measured and predicted release. This method of assessment provides useful information on contaminant availability, partitioning, and long term release. Information obtained can be used for performance oriented remedial design, and give an insight on the durability of the treated material based on anticipated site conditions, and ultimately lead to a better understanding of stabilized material behavior and improved confidence in designing performance oriented applications.

Original language	English
Title of host publication	GeoFlorida 2010
Subtitle of host publication	Advances in Analysis, Modeling and Design - Proceedings of the GeoFlorida 2010 Conference
Pages	2759-2768
Number of pages	10
Edition	199
DOIs	https://doi.org/10.1061/41095(365)280
Publication status	Published - 1 Dec 2010
Event	GeoFlorida 2010: Advances in Analysis, Modeling and Design Conference - West Palm Beach, FL, United States Duration: 20 Feb 2010 → 24 Feb 2010

Publication series

Name	Geotechnical Special Publication
Number	199
ISSN (Print)	0895-0563

Conference

Conference	GeoFlorida 2010: Advances in Analysis, Modeling and Design Conference
Country/Territory	United States
City	West Palm Beach, FL
Period	20/02/10 → 24/02/10

Keywords

Contaminated Land
Geochemical Speciation Modeling.
Leaching Assessment
Performance Evaluation
Solidification
Stabilization

ASJC Scopus subject areas

Civil and Structural Engineering
Architecture
Building and Construction
Geotechnical Engineering and Engineering Geology

Access to Document

10.1061/41095(365)280

Cite this

John, U. E., Jefferson, I., Boardman, D. I., & Ghataora, G. S. (2010). Characterization and evaluation of stabilized / solidified heavy metal contaminated clays. In GeoFlorida 2010: Advances in Analysis, Modeling and Design - Proceedings of the GeoFlorida 2010 Conference (199 ed., pp. 2759-2768). (Geotechnical Special Publication; No. 199). https://doi.org/10.1061/41095(365)280

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title = "Characterization and evaluation of stabilized / solidified heavy metal contaminated clays",

abstract = "The legacy of industrialization has resulted in a prevalence of heavy metal contamination, and sustainable redevelopment necessitates the use of effective remedial methods. Stabilization / Solidification technology has been employed in contaminated land remediation, and found to be particularly effective for heavy metal contaminants. However, uncertainties over the long term performance of the method and associated liabilities of residual contaminants on site have had detrimental implications on its employment. A careful characterization of the treated material is required to ensure efficiency and durability within the service life, and contaminant release predictions are required to improve confidence for employment. Geochemical speciation modeling provides information on partitioning and release of contaminants from the treated material, and information obtained from a carefully selected suite of leaching tests, dependent on the material can be used for a leaching assessment and subsequently model the method efficiency. LeachXS expert system and geochemical database embedded with the geochemical speciation modeling tool ORCHESTRA can be used for this assessment, providing the required information from the leaching tests have been obtained. Cement stabilized chromium contaminated kaolin clay was characterized and evaluated via these tools, using a suite of leaching tests designed for monolithic material, and the findings justify this assessment approach based on a comparison of measured and predicted release. This method of assessment provides useful information on contaminant availability, partitioning, and long term release. Information obtained can be used for performance oriented remedial design, and give an insight on the durability of the treated material based on anticipated site conditions, and ultimately lead to a better understanding of stabilized material behavior and improved confidence in designing performance oriented applications.",

keywords = "Contaminated Land, Geochemical Speciation Modeling., Leaching Assessment, Performance Evaluation, Solidification, Stabilization",

author = "John, {U. E.} and I. Jefferson and Boardman, {D. I.} and Ghataora, {G. S.}",

year = "2010",

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language = "English",

isbn = "9780784410950",

series = "Geotechnical Special Publication",

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John, UE, Jefferson, I, Boardman, DI & Ghataora, GS 2010, Characterization and evaluation of stabilized / solidified heavy metal contaminated clays. in GeoFlorida 2010: Advances in Analysis, Modeling and Design - Proceedings of the GeoFlorida 2010 Conference. 199 edn, Geotechnical Special Publication, no. 199, pp. 2759-2768, GeoFlorida 2010: Advances in Analysis, Modeling and Design Conference, West Palm Beach, FL, United States, 20/02/10. https://doi.org/10.1061/41095(365)280

Characterization and evaluation of stabilized / solidified heavy metal contaminated clays. / John, U. E.; Jefferson, I.; Boardman, D. I. et al.
GeoFlorida 2010: Advances in Analysis, Modeling and Design - Proceedings of the GeoFlorida 2010 Conference. 199. ed. 2010. p. 2759-2768 (Geotechnical Special Publication; No. 199).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

TY - GEN

T1 - Characterization and evaluation of stabilized / solidified heavy metal contaminated clays

AU - John, U. E.

AU - Jefferson, I.

AU - Boardman, D. I.

AU - Ghataora, G. S.

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Y1 - 2010/12/1

N2 - The legacy of industrialization has resulted in a prevalence of heavy metal contamination, and sustainable redevelopment necessitates the use of effective remedial methods. Stabilization / Solidification technology has been employed in contaminated land remediation, and found to be particularly effective for heavy metal contaminants. However, uncertainties over the long term performance of the method and associated liabilities of residual contaminants on site have had detrimental implications on its employment. A careful characterization of the treated material is required to ensure efficiency and durability within the service life, and contaminant release predictions are required to improve confidence for employment. Geochemical speciation modeling provides information on partitioning and release of contaminants from the treated material, and information obtained from a carefully selected suite of leaching tests, dependent on the material can be used for a leaching assessment and subsequently model the method efficiency. LeachXS expert system and geochemical database embedded with the geochemical speciation modeling tool ORCHESTRA can be used for this assessment, providing the required information from the leaching tests have been obtained. Cement stabilized chromium contaminated kaolin clay was characterized and evaluated via these tools, using a suite of leaching tests designed for monolithic material, and the findings justify this assessment approach based on a comparison of measured and predicted release. This method of assessment provides useful information on contaminant availability, partitioning, and long term release. Information obtained can be used for performance oriented remedial design, and give an insight on the durability of the treated material based on anticipated site conditions, and ultimately lead to a better understanding of stabilized material behavior and improved confidence in designing performance oriented applications.

AB - The legacy of industrialization has resulted in a prevalence of heavy metal contamination, and sustainable redevelopment necessitates the use of effective remedial methods. Stabilization / Solidification technology has been employed in contaminated land remediation, and found to be particularly effective for heavy metal contaminants. However, uncertainties over the long term performance of the method and associated liabilities of residual contaminants on site have had detrimental implications on its employment. A careful characterization of the treated material is required to ensure efficiency and durability within the service life, and contaminant release predictions are required to improve confidence for employment. Geochemical speciation modeling provides information on partitioning and release of contaminants from the treated material, and information obtained from a carefully selected suite of leaching tests, dependent on the material can be used for a leaching assessment and subsequently model the method efficiency. LeachXS expert system and geochemical database embedded with the geochemical speciation modeling tool ORCHESTRA can be used for this assessment, providing the required information from the leaching tests have been obtained. Cement stabilized chromium contaminated kaolin clay was characterized and evaluated via these tools, using a suite of leaching tests designed for monolithic material, and the findings justify this assessment approach based on a comparison of measured and predicted release. This method of assessment provides useful information on contaminant availability, partitioning, and long term release. Information obtained can be used for performance oriented remedial design, and give an insight on the durability of the treated material based on anticipated site conditions, and ultimately lead to a better understanding of stabilized material behavior and improved confidence in designing performance oriented applications.

KW - Contaminated Land

KW - Geochemical Speciation Modeling.

KW - Leaching Assessment

KW - Performance Evaluation

KW - Solidification

KW - Stabilization

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M3 - Conference contribution

AN - SCOPUS:79959593788

SN - 9780784410950

T3 - Geotechnical Special Publication

SP - 2759

EP - 2768

BT - GeoFlorida 2010

T2 - GeoFlorida 2010: Advances in Analysis, Modeling and Design Conference

Y2 - 20 February 2010 through 24 February 2010

ER -

Characterization and evaluation of stabilized / solidified heavy metal contaminated clays

Abstract

Publication series

Conference

Keywords

ASJC Scopus subject areas

Access to Document

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