Measurements of Spontaneous Potential in Chalk with Application to Aquifer Characterisation in the Southern UK

M.D. Jackson, A. P. Butler, J. Vinogradov

Research output: Contribution to journalArticle

14 Citations (Scopus)

Abstract

We report the first measured values of the streaming potential coupling coefficient in chalk samples saturated with natural groundwater, and preliminary field measurements of the spontaneous potential (SP), at both ambient and pumped conditions, at a test site in the Berkshire Chalk aquifer in the southern UK. The ultimate aim of the work is to use measurements of SP, in conjunction with borehole data, to characterize groundwater flow and aquifer properties. Laboratory measurements yield a value of the streaming potential coupling coefficient of −60 ± 4 mV MPa−1 and a corresponding zeta potential of −13 ± 1 mV. A negative zeta potential contrasts with previous published open-system measurements on artificial calcite, and may reflect the presence of organic material in the natural chalk samples or HCO3 and SO4 ions in the groundwater. Field measurements at ambient conditions show temporal variations in SP consistent with flow processes within the aquifer, but no coherent spatial variations. Measurements during water abstraction demonstrate that voltages at the ground surface and in monitoring boreholes become more positive during pressure drawdown and more negative during pressure build-up, consistent with the negative values of streaming potential coupling coefficient and zeta potential observed in the laboratory. Moreover, the magnitude of the change in voltage is similar to that estimated using the laboratory value of the coupling coefficient. Our results suggest that measurements of SP may make a valuable contribution to characterizing groundwater flow in the UK Chalk aquifer.
Original languageEnglish
Pages (from-to)457–471
Number of pages16
JournalQuarterly Journal of Engineering Geology and Hydrogeology
Volume45
DOIs
Publication statusPublished - 2012

Fingerprint

aquifer characterization
streaming potential
chalk
Aquifers
aquifer
Zeta potential
groundwater flow
borehole
Groundwater flow
groundwater
Boreholes
drawdown
Groundwater
temporal variation
spatial variation
calcite
Open systems
Calcite
Electric potential
ion

ASJC Scopus subject areas

  • Earth and Planetary Sciences(all)

Cite this

@article{73f8e80c7d6b44d792ab767285060fbe,
title = "Measurements of Spontaneous Potential in Chalk with Application to Aquifer Characterisation in the Southern UK",
abstract = "We report the first measured values of the streaming potential coupling coefficient in chalk samples saturated with natural groundwater, and preliminary field measurements of the spontaneous potential (SP), at both ambient and pumped conditions, at a test site in the Berkshire Chalk aquifer in the southern UK. The ultimate aim of the work is to use measurements of SP, in conjunction with borehole data, to characterize groundwater flow and aquifer properties. Laboratory measurements yield a value of the streaming potential coupling coefficient of −60 ± 4 mV MPa−1 and a corresponding zeta potential of −13 ± 1 mV. A negative zeta potential contrasts with previous published open-system measurements on artificial calcite, and may reflect the presence of organic material in the natural chalk samples or HCO3 and SO4 ions in the groundwater. Field measurements at ambient conditions show temporal variations in SP consistent with flow processes within the aquifer, but no coherent spatial variations. Measurements during water abstraction demonstrate that voltages at the ground surface and in monitoring boreholes become more positive during pressure drawdown and more negative during pressure build-up, consistent with the negative values of streaming potential coupling coefficient and zeta potential observed in the laboratory. Moreover, the magnitude of the change in voltage is similar to that estimated using the laboratory value of the coupling coefficient. Our results suggest that measurements of SP may make a valuable contribution to characterizing groundwater flow in the UK Chalk aquifer.",
author = "M.D. Jackson and Butler, {A. P.} and J. Vinogradov",
note = "Shell International Exploration and Production B.V. are thanked for partial financial support. The British Geological Survey (BGS) is thanked for providing pumping equipment, and B. Townsend of the BGS is thanked for installing and operating the pump. Data collection was greatly aided by the contributions of T. Eastgate and O. Awe. The paper was improved by the suggestions of three anonymous reviewers.",
year = "2012",
doi = "10.1144/qjegh2011-021",
language = "English",
volume = "45",
pages = "457–471",
journal = "Quarterly Journal of Engineering Geology and Hydrogeology",
issn = "1470-9236",
publisher = "Geological Society of London",

}

TY - JOUR

T1 - Measurements of Spontaneous Potential in Chalk with Application to Aquifer Characterisation in the Southern UK

AU - Jackson, M.D.

AU - Butler, A. P.

AU - Vinogradov, J.

N1 - Shell International Exploration and Production B.V. are thanked for partial financial support. The British Geological Survey (BGS) is thanked for providing pumping equipment, and B. Townsend of the BGS is thanked for installing and operating the pump. Data collection was greatly aided by the contributions of T. Eastgate and O. Awe. The paper was improved by the suggestions of three anonymous reviewers.

PY - 2012

Y1 - 2012

N2 - We report the first measured values of the streaming potential coupling coefficient in chalk samples saturated with natural groundwater, and preliminary field measurements of the spontaneous potential (SP), at both ambient and pumped conditions, at a test site in the Berkshire Chalk aquifer in the southern UK. The ultimate aim of the work is to use measurements of SP, in conjunction with borehole data, to characterize groundwater flow and aquifer properties. Laboratory measurements yield a value of the streaming potential coupling coefficient of −60 ± 4 mV MPa−1 and a corresponding zeta potential of −13 ± 1 mV. A negative zeta potential contrasts with previous published open-system measurements on artificial calcite, and may reflect the presence of organic material in the natural chalk samples or HCO3 and SO4 ions in the groundwater. Field measurements at ambient conditions show temporal variations in SP consistent with flow processes within the aquifer, but no coherent spatial variations. Measurements during water abstraction demonstrate that voltages at the ground surface and in monitoring boreholes become more positive during pressure drawdown and more negative during pressure build-up, consistent with the negative values of streaming potential coupling coefficient and zeta potential observed in the laboratory. Moreover, the magnitude of the change in voltage is similar to that estimated using the laboratory value of the coupling coefficient. Our results suggest that measurements of SP may make a valuable contribution to characterizing groundwater flow in the UK Chalk aquifer.

AB - We report the first measured values of the streaming potential coupling coefficient in chalk samples saturated with natural groundwater, and preliminary field measurements of the spontaneous potential (SP), at both ambient and pumped conditions, at a test site in the Berkshire Chalk aquifer in the southern UK. The ultimate aim of the work is to use measurements of SP, in conjunction with borehole data, to characterize groundwater flow and aquifer properties. Laboratory measurements yield a value of the streaming potential coupling coefficient of −60 ± 4 mV MPa−1 and a corresponding zeta potential of −13 ± 1 mV. A negative zeta potential contrasts with previous published open-system measurements on artificial calcite, and may reflect the presence of organic material in the natural chalk samples or HCO3 and SO4 ions in the groundwater. Field measurements at ambient conditions show temporal variations in SP consistent with flow processes within the aquifer, but no coherent spatial variations. Measurements during water abstraction demonstrate that voltages at the ground surface and in monitoring boreholes become more positive during pressure drawdown and more negative during pressure build-up, consistent with the negative values of streaming potential coupling coefficient and zeta potential observed in the laboratory. Moreover, the magnitude of the change in voltage is similar to that estimated using the laboratory value of the coupling coefficient. Our results suggest that measurements of SP may make a valuable contribution to characterizing groundwater flow in the UK Chalk aquifer.

U2 - 10.1144/qjegh2011-021

DO - 10.1144/qjegh2011-021

M3 - Article

VL - 45

SP - 457

EP - 471

JO - Quarterly Journal of Engineering Geology and Hydrogeology

JF - Quarterly Journal of Engineering Geology and Hydrogeology

SN - 1470-9236

ER -