Battelle Proceedings

Abiotic Degradation Can Account for Rate Constants for Natural Attenuation of TCE and cDCE in Groundwater

John Wilson; Barbara Wilson; Mark Ferrey; David Freedman; Olivia Dunn; David Adamson & Charles Newell

13th International Conference on Remediation of Chlorinated and Recalcitrant Compounds

Publication Year: 2024

Part of: H4.: Abiotic and In Situ Biogeochemical Processes: Applications and Lessons Learned (Platform)

Abstract

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Quantification of Abiotic Transformation Rates for cDCE Using a 14C Assay

David Freedman; Anangelica Rivera-Cruz; Olivia Dunn & John Wilson

13th International Conference on Remediation of Chlorinated and Recalcitrant Compounds

Publication Year: 2024

Part of: H4.: Abiotic and In Situ Biogeochemical Processes: Applications and Lessons Learned (Platform)

Abstract

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2 Downloads

(Group 2, Poster Board #221) Long-Term Evaluation of Chlorinated Solvent Attenuation Rates in Groundwater

Mark Ferrey; Will Bouchard & John Wilson

13th International Conference on Remediation of Chlorinated and Recalcitrant Compounds

Publication Year: 2024

Part of: H8.: Monitored Natural Attenuation: Innovative Monitoring Approaches/Lines of Evidence and Lessons Learned (Poster)

Abstract

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(Group 1, Poster Board #19) A Cost Comparison of Pump-and-Treat and In Situ Colloidal Activated Carbon for PFAS Plume Management at the Former Wurtsmith U.S. Air Force Base

Jeremy Birnstingl & John Wilson

2025 Bioremediation Symposium

Publication Year: 2025

Part of: A4.: Activated Carbon-Based PFAS Treatment Technologies (Posters)

Abstract

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Using qPCR Data on the bssA Biomarker to Select Appropriate Rate Constants for Biodegradation of Toluene in Groundwater

John Wilson; Giovanni Pilloni; Trent Key; Dora Taggart & Sam Rosolina

2025 Bioremediation Symposium

Publication Year: 2025

Part of: B7.: Improved Conceptual Site Models that Include Molecular Biological Data (Platforms)

Abstract

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(Group 2, Poster Board #13) Beyond the Box: Life Cycle Exposure Considerations of Treatment Options for PFAS in Groundwater

Jeremy Birnstingl; John Wilson & Linda Hall

2025 Bioremediation Symposium

Publication Year: 2025

Part of: A7.: Managing PFAS Regulatory Uncertainty in Response Actions (Posters)

Abstract

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High Concentrations of Hydrogen Sulfide Can Consume FeS and Reduce the Potential for Abiotic Degradation of TCE

John Wilson

2025 Bioremediation Symposium

Publication Year: 2025

Part of: E4.: Biogeochemical Remediation Processes (Platforms)

Abstract

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Panel Discussion: Barriers to the Selection and Implementation of Biotechnical Solutions

Ian Brookman; David Freedman; John Wilson; James Stening & Barry Harding

2025 Bioremediation Symposium

Publication Year: 2025

Part of: Panel Discussion: Barriers to the Selection and Implementation of Biotechnical Solutions

Abstract

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John Wilson

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Biography

Abiotic Degradation Can Account for Rate Constants for Natural Attenuation of TCE and cDCE in Groundwater

Quantification of Abiotic Transformation Rates for cDCE Using a 14C Assay

(Group 2, Poster Board #221) Long-Term Evaluation of Chlorinated Solvent Attenuation Rates in Groundwater

(Group 1, Poster Board #19) A Cost Comparison of Pump-and-Treat and In Situ Colloidal Activated Carbon for PFAS Plume Management at the Former Wurtsmith U.S. Air Force Base

Using qPCR Data on the bssA Biomarker to Select Appropriate Rate Constants for Biodegradation of Toluene in Groundwater

(Group 2, Poster Board #13) Beyond the Box: Life Cycle Exposure Considerations of Treatment Options for PFAS in Groundwater

High Concentrations of Hydrogen Sulfide Can Consume FeS and Reduce the Potential for Abiotic Degradation of TCE

Panel Discussion: Barriers to the Selection and Implementation of Biotechnical Solutions

John Wilson

Affiliation

Track

Biography

Refine Results

Abiotic Degradation Can Account for Rate Constants for Natural Attenuation of TCE and cDCE in Groundwater

Quantification of Abiotic Transformation Rates for cDCE Using a 14C Assay

(Group 2, Poster Board #221) Long-Term Evaluation of Chlorinated Solvent Attenuation Rates in Groundwater

(Group 1, Poster Board #19) A Cost Comparison of Pump-and-Treat and In Situ Colloidal Activated Carbon for PFAS Plume Management at the Former Wurtsmith U.S. Air Force Base

Using qPCR Data on the bssA Biomarker to Select Appropriate Rate Constants for Biodegradation of Toluene in Groundwater

(Group 2, Poster Board #13) Beyond the Box: Life Cycle Exposure Considerations of Treatment Options for PFAS in Groundwater

High Concentrations of Hydrogen Sulfide Can Consume FeS and Reduce the Potential for Abiotic Degradation of TCE

Panel Discussion: Barriers to the Selection and Implementation of Biotechnical Solutions