Field site soil aquifer treatment shows enhanced wastewater quality: evidence from vadose zone hydro-geophysical observations

Field site soil aquifer treatment shows enhanced wastewater quality: evidence from vadose zone hydro-geophysical observations

Soil aquifer treatment (SAT) is an emerging, nature-based, economically viable wastewater treatment solution. Currently, most SAT experiments are done at the laboratory scale, which cannot generate the same conditions as natural field sites and limits the understanding of treatment efficiency. The current study carried out in situ SAT experiments in the Musi River basin in India, where wastewater irrigation is a common practice. SAT efficiency was determined using an integrated approach, including electrical resistivity tomography (ERT) surveys, soil investigations (grain size, permeability, and moisture measurements), and biochemical characterization of raw and SAT treated wastewater. The ERT scans of SAT column show lower order electrical resistivity 10-30 O-m with enhanced chargeability >5–6 mV/V attributed to the vadose zone, characterized by clay-rich soil and sandy soil up to 5–6 m depth. The increase in sand percentage (>70%) below 140–160 cm depth corroborates with the high moisture content (23.5%). The vadose zone permeability (K) 1.58 m/day and discharge (Q) 38.19 m3/day is used to determine the pollutants reduction efficiency of SAT column. Hydrogeological and biogeochemical observations reveal that the improved dissolved oxygen from <1.0 to 5–6 mg/L in the vadose zone catalyzes the oxidation of organic matter resulting in the reduction of BOD and COD up to 92% and 97%, respectively, and denitrification reducing NO3-- (0.55 kg/day). In addition, the precipitation and adsorption by kaolinite clay prompted the reduction of PO42- (0.26 kg/day). Furthermore, the oxic-vadose zone could not support the growth of coliforms and faecal coliforms, and the reduction observed was up to 99.99% in the SAT production well. Overall, the results indicated a positive outcome with SAT efficiency and framed the SAT sitting criteria for different geological environments.

Saved in:
Bibliographic Details
Main Authors: Sahya, A., Sonkamble, S., Jampani, Mahesh, Rao, A. N., Amerasinghe, Priyanie
Format: Journal Article biblioteca
Language:English
Published: Elsevier 2023-11
Subjects:wastewater treatment, nature-based solutions, water quality, parameters, experimentation, soil moisture, aquifers, groundwater, wastewater irrigation, periurban areas, river basins, hydrogeology, pollutants, environmental engineering,
Online Access:https://hdl.handle.net/10568/131664
https://vlibrary.iwmi.org/pdf/H052159.pdf
https://doi.org/10.1016/j.jenvman.2023.118749
Tags: Add Tag
No Tags, Be the first to tag this record!
id dig-cgspace-10568-131664
record_format koha
spelling dig-cgspace-10568-1316642023-12-08T19:36:04Z Field site soil aquifer treatment shows enhanced wastewater quality: evidence from vadose zone hydro-geophysical observations Sahya, A. Sonkamble, S. Jampani, Mahesh Rao, A. N. Amerasinghe, Priyanie wastewater treatment nature-based solutions water quality parameters experimentation soil moisture aquifers groundwater wastewater irrigation periurban areas river basins hydrogeology pollutants environmental engineering Soil aquifer treatment (SAT) is an emerging, nature-based, economically viable wastewater treatment solution. Currently, most SAT experiments are done at the laboratory scale, which cannot generate the same conditions as natural field sites and limits the understanding of treatment efficiency. The current study carried out in situ SAT experiments in the Musi River basin in India, where wastewater irrigation is a common practice. SAT efficiency was determined using an integrated approach, including electrical resistivity tomography (ERT) surveys, soil investigations (grain size, permeability, and moisture measurements), and biochemical characterization of raw and SAT treated wastewater. The ERT scans of SAT column show lower order electrical resistivity 10-30 O-m with enhanced chargeability >5–6 mV/V attributed to the vadose zone, characterized by clay-rich soil and sandy soil up to 5–6 m depth. The increase in sand percentage (>70%) below 140–160 cm depth corroborates with the high moisture content (23.5%). The vadose zone permeability (K) 1.58 m/day and discharge (Q) 38.19 m3/day is used to determine the pollutants reduction efficiency of SAT column. Hydrogeological and biogeochemical observations reveal that the improved dissolved oxygen from <1.0 to 5–6 mg/L in the vadose zone catalyzes the oxidation of organic matter resulting in the reduction of BOD and COD up to 92% and 97%, respectively, and denitrification reducing NO3-- (0.55 kg/day). In addition, the precipitation and adsorption by kaolinite clay prompted the reduction of PO42- (0.26 kg/day). Furthermore, the oxic-vadose zone could not support the growth of coliforms and faecal coliforms, and the reduction observed was up to 99.99% in the SAT production well. Overall, the results indicated a positive outcome with SAT efficiency and framed the SAT sitting criteria for different geological environments. 2023-11 2023-08-29T03:12:17Z 2023-08-29T03:12:17Z Journal Article Sahya, A.; Sonkamble, S.; Jampani, Mahesh; Rao, A. N.; Amerasinghe, Priyanie. 2023. Field site soil aquifer treatment shows enhanced wastewater quality: evidence from vadose zone hydro-geophysical observations. Journal of Environmental Management, 345:118749. (Online first) [doi: https://doi.org/10.1016/j.jenvman.2023.118749] 0301-4797 https://hdl.handle.net/10568/131664 https://vlibrary.iwmi.org/pdf/H052159.pdf https://doi.org/10.1016/j.jenvman.2023.118749 H052159 en Copyrighted; all rights reserved Limited Access 345:118749. (Online first) Elsevier Journal of Environmental Management
institution CGIAR
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-cgspace
tag biblioteca
region Europa del Oeste
libraryname Biblioteca del CGIAR
language English
topic wastewater treatment
nature-based solutions
water quality
parameters
experimentation
soil moisture
aquifers
groundwater
wastewater irrigation
periurban areas
river basins
hydrogeology
pollutants
environmental engineering
wastewater treatment
nature-based solutions
water quality
parameters
experimentation
soil moisture
aquifers
groundwater
wastewater irrigation
periurban areas
river basins
hydrogeology
pollutants
environmental engineering
spellingShingle wastewater treatment
nature-based solutions
water quality
parameters
experimentation
soil moisture
aquifers
groundwater
wastewater irrigation
periurban areas
river basins
hydrogeology
pollutants
environmental engineering
wastewater treatment
nature-based solutions
water quality
parameters
experimentation
soil moisture
aquifers
groundwater
wastewater irrigation
periurban areas
river basins
hydrogeology
pollutants
environmental engineering
Sahya, A.
Sonkamble, S.
Jampani, Mahesh
Rao, A. N.
Amerasinghe, Priyanie
Field site soil aquifer treatment shows enhanced wastewater quality: evidence from vadose zone hydro-geophysical observations
description Soil aquifer treatment (SAT) is an emerging, nature-based, economically viable wastewater treatment solution. Currently, most SAT experiments are done at the laboratory scale, which cannot generate the same conditions as natural field sites and limits the understanding of treatment efficiency. The current study carried out in situ SAT experiments in the Musi River basin in India, where wastewater irrigation is a common practice. SAT efficiency was determined using an integrated approach, including electrical resistivity tomography (ERT) surveys, soil investigations (grain size, permeability, and moisture measurements), and biochemical characterization of raw and SAT treated wastewater. The ERT scans of SAT column show lower order electrical resistivity 10-30 O-m with enhanced chargeability >5–6 mV/V attributed to the vadose zone, characterized by clay-rich soil and sandy soil up to 5–6 m depth. The increase in sand percentage (>70%) below 140–160 cm depth corroborates with the high moisture content (23.5%). The vadose zone permeability (K) 1.58 m/day and discharge (Q) 38.19 m3/day is used to determine the pollutants reduction efficiency of SAT column. Hydrogeological and biogeochemical observations reveal that the improved dissolved oxygen from <1.0 to 5–6 mg/L in the vadose zone catalyzes the oxidation of organic matter resulting in the reduction of BOD and COD up to 92% and 97%, respectively, and denitrification reducing NO3-- (0.55 kg/day). In addition, the precipitation and adsorption by kaolinite clay prompted the reduction of PO42- (0.26 kg/day). Furthermore, the oxic-vadose zone could not support the growth of coliforms and faecal coliforms, and the reduction observed was up to 99.99% in the SAT production well. Overall, the results indicated a positive outcome with SAT efficiency and framed the SAT sitting criteria for different geological environments.
format Journal Article
topic_facet wastewater treatment
nature-based solutions
water quality
parameters
experimentation
soil moisture
aquifers
groundwater
wastewater irrigation
periurban areas
river basins
hydrogeology
pollutants
environmental engineering
author Sahya, A.
Sonkamble, S.
Jampani, Mahesh
Rao, A. N.
Amerasinghe, Priyanie
author_facet Sahya, A.
Sonkamble, S.
Jampani, Mahesh
Rao, A. N.
Amerasinghe, Priyanie
author_sort Sahya, A.
title Field site soil aquifer treatment shows enhanced wastewater quality: evidence from vadose zone hydro-geophysical observations
title_short Field site soil aquifer treatment shows enhanced wastewater quality: evidence from vadose zone hydro-geophysical observations
title_full Field site soil aquifer treatment shows enhanced wastewater quality: evidence from vadose zone hydro-geophysical observations
title_fullStr Field site soil aquifer treatment shows enhanced wastewater quality: evidence from vadose zone hydro-geophysical observations
title_full_unstemmed Field site soil aquifer treatment shows enhanced wastewater quality: evidence from vadose zone hydro-geophysical observations
title_sort field site soil aquifer treatment shows enhanced wastewater quality: evidence from vadose zone hydro-geophysical observations
publisher Elsevier
publishDate 2023-11
url https://hdl.handle.net/10568/131664
https://vlibrary.iwmi.org/pdf/H052159.pdf
https://doi.org/10.1016/j.jenvman.2023.118749
work_keys_str_mv AT sahyaa fieldsitesoilaquifertreatmentshowsenhancedwastewaterqualityevidencefromvadosezonehydrogeophysicalobservations
AT sonkambles fieldsitesoilaquifertreatmentshowsenhancedwastewaterqualityevidencefromvadosezonehydrogeophysicalobservations
AT jampanimahesh fieldsitesoilaquifertreatmentshowsenhancedwastewaterqualityevidencefromvadosezonehydrogeophysicalobservations
AT raoan fieldsitesoilaquifertreatmentshowsenhancedwastewaterqualityevidencefromvadosezonehydrogeophysicalobservations
AT amerasinghepriyanie fieldsitesoilaquifertreatmentshowsenhancedwastewaterqualityevidencefromvadosezonehydrogeophysicalobservations
_version_ 1787228211001688064

Similar Items