Addition of divalent iron to electron donor mixtures for remediation of chlorinated ethenes: A study of 100 wells-Reference-Cited by-同舟云学术

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Addition of divalent iron to electron donor mixtures for remediation of chlorinated ethenes: A study of 100 wells

Published:2018-12 Issue:1 Volume:29 Page:37-44
ISSN:1051-5658
Container-title:Remediation Journal
language:en
Short-container-title:Remediation

Author:

Davis Doug¹,Miller Owen J.²

Affiliation:

1. REGENESIS; Columbus Ohio

2. REGENESIS; Milwaukee Wisconsin

Publisher

Wiley

Subject

Pollution,Waste Management and Disposal,Environmental Engineering

Link

http://onlinelibrary.wiley.com/wol1/doi/10.1002/rem.21581/fullpdf

Reference9 articles.

1. Interactions between biological and abiotic pathways in the reduction of chlorinated solvents;Brown;Remediation Journal,2009

2. Field-scale demonstration of induced biogeochemical reductive dechlorination at Dover Air Force Base, Dover, Delaware;Kennedy;Journal of Contaminant Hydrology,2006

3. Abiotic reductive dechlorination of chlorinated ethylenes by iron-bearing soil minerals. 1. Pyrite and magnetite;Lee;Environmental Science & Technology,2002

4. Quantitative evaluation of the enhancement of NAPL-pool dissolution by flushing and biodegradation;Seagren;Environmental Science & Technology,1994

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1. Min‐Trap® Samplers to Passively Monitor In‐Situ Iron Sulfide Mineral Formation for Chlorinated Solvent Treatment;Groundwater Monitoring & Remediation;2023-06

2. Viewing the End from the Beginning: Designing for the Transition to Long‐Term Passive Phases of In Situ Chlorinated Solvent Treatment;Groundwater Monitoring & Remediation;2022-09

3. Coupled Hydrogeochemical Approach and Sustainable Technologies for the Remediation of a Chlorinated Solvent Plume in an Urban Area;Sustainability;2022-08-19

4. 3D dynamic model empowering the knowledge of the decontamination mechanisms and controlling the complex remediation strategy of a contaminated industrial site;Science of The Total Environment;2021-11

5. Laboratory and initial field testing of the Min‐Trap™ for tracking reactive iron sulfide mineral formation during in situ remediation;Remediation Journal;2021-05-05

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