Mapping the Vulnerability of Groundwater to Wastewater Spills for Source Water Protection in a Shale Gas Region

Mapping the Vulnerability of Groundwater to Wastewater Spills for Source Water Protection in a Shale Gas Region

Source water protection in areas of shale gas development encompasses identifying areas that are the most vulnerable to groundwater quality deterioration due to spills of natural gas production wastewater. This study uses the density-dependent flow and transport code TOUGH2 to quantify the time and...

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Bibliographic Details
Main Authors: Teresa Y. Rosales-Ramirez, Dirk Kirste, Diana M. Allen, Carl A. Mendoza
Format: Article
Language:English
Published: MDPI AG 2021-04-01
Series:Sustainability
Subjects:
wastewater
TOUGH2
numerical model
aquifer vulnerability
DRASTIC
Online Access:https://www.mdpi.com/2071-1050/13/7/3987
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spelling doaj-5c9d10f1d9e14481a6bf9b009dd3ab542021-04-02T23:06:23ZengMDPI AGSustainability2071-10502021-04-01133987398710.3390/su13073987Mapping the Vulnerability of Groundwater to Wastewater Spills for Source Water Protection in a Shale Gas RegionTeresa Y. Rosales-Ramirez0Dirk Kirste1Diana M. Allen2Carl A. Mendoza3Department of Earth Sciences, Simon Fraser University, Burnaby, BC V5A 1S6, CanadaDepartment of Earth Sciences, Simon Fraser University, Burnaby, BC V5A 1S6, CanadaDepartment of Earth Sciences, Simon Fraser University, Burnaby, BC V5A 1S6, CanadaDepartment of Earth and Atmospheric Sciences, University of Alberta, Edmonton, AB T6G 2R3, CanadaSource water protection in areas of shale gas development encompasses identifying areas that are the most vulnerable to groundwater quality deterioration due to spills of natural gas production wastewater. This study uses the density-dependent flow and transport code TOUGH2 to quantify the time and distance of travel of saline wastewater plumes for different hydrogeological settings in Northeast British Columbia. The models were designed to address three main factors identified from the DRASTIC method for vulnerability assessment: (1) depth to water, (2) impact of vadose zone, and (3) conductivity of the aquifer materials. The vadose zone permeability and depth to water table are dominant controls on the wastewater migration rate and footprint. Overall, the vulnerability in the region is relatively low, with exceptions near river valleys and areas with shallow water tables. The vulnerability maps can be used as a preliminary risk assessment tool, as they are based on the main factors influencing the potential of a wastewater spill to contaminate an aquifer.https://www.mdpi.com/2071-1050/13/7/3987wastewaterTOUGH2numerical modelaquifer vulnerabilityDRASTIC
collection DOAJ
language English
format Article
sources DOAJ
author Teresa Y. Rosales-Ramirez
Dirk Kirste
Diana M. Allen
Carl A. Mendoza
spellingShingle Teresa Y. Rosales-Ramirez
Dirk Kirste
Diana M. Allen
Carl A. Mendoza
Mapping the Vulnerability of Groundwater to Wastewater Spills for Source Water Protection in a Shale Gas Region
Sustainability
wastewater
TOUGH2
numerical model
aquifer vulnerability
DRASTIC
author_facet Teresa Y. Rosales-Ramirez
Dirk Kirste
Diana M. Allen
Carl A. Mendoza
author_sort Teresa Y. Rosales-Ramirez
title Mapping the Vulnerability of Groundwater to Wastewater Spills for Source Water Protection in a Shale Gas Region
title_short Mapping the Vulnerability of Groundwater to Wastewater Spills for Source Water Protection in a Shale Gas Region
title_full Mapping the Vulnerability of Groundwater to Wastewater Spills for Source Water Protection in a Shale Gas Region
title_fullStr Mapping the Vulnerability of Groundwater to Wastewater Spills for Source Water Protection in a Shale Gas Region
title_full_unstemmed Mapping the Vulnerability of Groundwater to Wastewater Spills for Source Water Protection in a Shale Gas Region
title_sort mapping the vulnerability of groundwater to wastewater spills for source water protection in a shale gas region
publisher MDPI AG
series Sustainability
issn 2071-1050
publishDate 2021-04-01
description Source water protection in areas of shale gas development encompasses identifying areas that are the most vulnerable to groundwater quality deterioration due to spills of natural gas production wastewater. This study uses the density-dependent flow and transport code TOUGH2 to quantify the time and distance of travel of saline wastewater plumes for different hydrogeological settings in Northeast British Columbia. The models were designed to address three main factors identified from the DRASTIC method for vulnerability assessment: (1) depth to water, (2) impact of vadose zone, and (3) conductivity of the aquifer materials. The vadose zone permeability and depth to water table are dominant controls on the wastewater migration rate and footprint. Overall, the vulnerability in the region is relatively low, with exceptions near river valleys and areas with shallow water tables. The vulnerability maps can be used as a preliminary risk assessment tool, as they are based on the main factors influencing the potential of a wastewater spill to contaminate an aquifer.
topic wastewater
TOUGH2
numerical model
aquifer vulnerability
DRASTIC
url https://www.mdpi.com/2071-1050/13/7/3987
work_keys_str_mv AT teresayrosalesramirez mappingthevulnerabilityofgroundwatertowastewaterspillsforsourcewaterprotectioninashalegasregion
AT dirkkirste mappingthevulnerabilityofgroundwatertowastewaterspillsforsourcewaterprotectioninashalegasregion
AT dianamallen mappingthevulnerabilityofgroundwatertowastewaterspillsforsourcewaterprotectioninashalegasregion
AT carlamendoza mappingthevulnerabilityofgroundwatertowastewaterspillsforsourcewaterprotectioninashalegasregion
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