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Hydrogeology Journal

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04-02-2017 | Paper

Improved barometric and loading efficiency estimates using packers in monitoring wells

Authors: Scott B. Cook, Wendy A. Timms, Bryce F.J. Kelly, S. Lee Barbour

Published in: Hydrogeology Journal | Issue 5/2017

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Abstract

Measurement of barometric efficiency (BE) from open monitoring wells or loading efficiency (LE) from formation pore pressures provides valuable information about the hydraulic properties and confinement of a formation. Drained compressibility (α) can be calculated from LE (or BE) in confined and semi-confined formations and used to calculate specific storage (S _s). S _s and α are important for predicting the effects of groundwater extraction and therefore for sustainable extraction management. However, in low hydraulic conductivity (K) formations or large diameter monitoring wells, time lags caused by well storage may be so long that BE cannot be properly assessed in open monitoring wells in confined or unconfined settings. This study demonstrates the use of packers to reduce monitoring-well time lags and enable reliable assessments of LE. In one example from a confined, high-K formation, estimates of BE in the open monitoring well were in good agreement with shut-in LE estimates. In a second example, from a low-K confining clay layer, BE could not be adequately assessed in the open monitoring well due to time lag. Sealing the monitoring well with a packer reduced the time lag sufficiently that a reliable assessment of LE could be made from a 24-day monitoring period. The shut-in response confirmed confined conditions at the well screen and provided confidence in the assessment of hydraulic parameters. A short (time-lag-dependent) period of high-frequency shut-in monitoring can therefore enhance understanding of hydrogeological systems and potentially provide hydraulic parameters to improve conceptual/numerical groundwater models.

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Acworth RI, Rau GC, McCallum AM, Andersen MS, Cuthbert MO (2014) Understanding connected surface-water/groundwater systems using Fourier analysis of daily and sub-daily head fluctuations. Hydrogeol J. doi:10.1007/s10040-014-1182-5

Acworth R, Timms W, Kelly B, Mcgeeney D, Ralph T, Larkin Z, Rau G (2015) Late Cenozoic paleovalley fill sequence from the Southern Liverpool Plains, New South Wales: implications for groundwater resource evaluation. Aust J Earth Sci 62:657–680

Anochikwa CI, van der Kamp G, Barbour SL (2012) Interpreting pore-water pressure changes induced by water table fluctuations and mechanical loading due to soil moisture changes. Can Geotech J 49:357–366CrossRef

Bohling C, Jin W, Butler JJ (2011) Kansas Geological Survey barometric response function software user’s guide. Kansas Geol Surv Open File Rep 2011–10, 23 pp

Butler JJ (1996) Slug tests in site characterization: some practical considerations. Environ Geosci 3:154–163

Butler J, Jin W, Mohammed G, Reboulet E (2011) New insights from well responses to fluctuations in barometric pressure. Ground Water 49:525–533CrossRef

Chirlin GR (1989) A critique of the Hvorslev method for slug test analysis: the fully penetrating well. Groundwater Monit Remediat 9:130–138CrossRef

Cutillo PA, Bredehoeft JD (2011) Estimating aquifer properties from the water level response to Earth tides. Ground Water 49:600–610. doi:10.1111/j.1745-6584.2010.00778.x CrossRef

Dehant V, Defraigne P, Wahr J (1999) Tides for a convective Earth. J Geophys Res 104:1035–1058CrossRef

Domenico PA, Schwartz FW (1998) Physical and chemical hydrogeology, 2nd edn. Wiley, New York

Duncan JM, Bursey A (2013) Soil modulus correlations. In: Foundation engineering in the face of uncertainty: honoring Fred H Kulhawy. ASCE, Reston, VA, pp 321–336

Fine RA, Millero FJ (1973) Compressibility of water as a function of temperature and pressure. J Chem Phys 59:5529–5536. doi:10.1063/1.1679903 CrossRef

Forster C, Gale J (1980) A laboratory assessment of the use of borehole pressure transients to measure the permeability of fractured rock masses. Dept. of Earth Sciences, Waterloo Univ., Waterloo, ON

Freeze RA, Cherry JA (1979) Groundwater. 604 pp. Prentice Hall, Englewood Cliffs, NJ

Furbish DJ (1991) The response of water level in a well to a time series of atmospheric loading under confined conditions. Water Resour Res 27:557–568CrossRef

Gates GWB (1980) The Hydrogeology of the unconsolidated sediments in the Mooki River Valley, New South Wales. MSc Thesis, The University of New South Wales, Sydney, Australia

Handy RL (1985) The arch in soil arching. J Geotech Eng 111:302–318. doi:10.1061/(ASCE)0733-9410(1985)111:3(302) CrossRef

Hsieh PA (1983) Theoretical and field studies of fluid flow in fractured rocks. PhD Thesis, The University of Arizona, Tucson, AZ

Hsieh PA, Bredehoeft JD, Farr JM (1987) Determination of aquifer transmissivity from Earth tide analysis. Water Resour Res 23:1824–1832CrossRef

Hubbell J, Sisson J, Nicholl M, Taylor R (2004) Well design to reduce barometric pressure effects on water level data in unconfined aquifers. Vadose Zone J 3:183–189CrossRef

Hvorslev MJ (1951) Time lag and soil permeability in ground-water observations, Bull. no. 36, Waterways Experimental Station, US Army Corps of Eng., Vicksburg, MI, 50 pp

Jacob CE (1940) On the flow of water in an elastic artesian aquifer. Trans Am Geophys Union 21:574–586CrossRef

Keller CK, Van Der Kamp G, Cherry JA (1989) A multiscale study of the permeability of a thick clayey till. Water Resour Res 25:2299–2317CrossRef

Kutter LB, Sathialingam N, Herrmann LR (1990) Effects of arching on response time of miniature pore pressure transducer in clay. Geotech Test J 13:164–178CrossRef

Lavitt N, Jankowski J (1998) Groundwater Sustainability in the Lower Mooki River catchment: a resource at risk. Paper presented at the Groundwater Sustainability Solutions conference, University of Melbourne, Melbourne, February 1998

McKenna G (1995) Grouted-in installation of piezometers in boreholes. Can Geotech J 32:355–363CrossRef

Mikkelsen P, Green G (2003) Piezometers in fully grouted boreholes. FMGM-field measurements in geomechanics, Oslo, NorwayCrossRef

Narasimhan T (2006) On storage coefficient and vertical strain. Ground Water 44:488–491CrossRef

Neuzil CE (1982) On conducting the modified ‘slug’ test in tight formations. Water Resour Res 18:439–441. doi:10.1029/WR018i002p00439 CrossRef

Odling NE, Perulero Serrano R, Hussein MEA, Riva M, Guadagnini A (2015) Detecting the vulnerability of groundwater in semi-confined aquifers using barometric response functions. J Hydrol 520:143–156. doi:10.1016/j.jhydrol.2014.11.016 CrossRef

Pickens J, Grisak G, Avis J, Belanger D, Thury M (1987) Analysis and interpretation of borehole hydraulic tests in deep boreholes: principles, model development, and applications. Water Resour Res 23:1341–1375CrossRef

Quilty EG, Roeloffs EA (1991) Removal of barometric pressure response from water level data. J Geophys Res 96:209–218CrossRef

Rasmussen TC, Crawford LA (1997) Identifying and removing barometric pressure effects in confined and unconfined aquifers. Ground Water 35:502–511CrossRef

Rasmussen TC, Mote TL (2007) Monitoring surface and subsurface water storage using confined aquifer water levels at the Savannah River site. USA Vadose Zone J 6:327–335. doi:10.2136/vzj2006.0049 CrossRef

Rojstaczer S (1988) Determination of fluid flow properties from the response of water levels in wells to atmospheric loading. Water Resour Res 24:1927–1938CrossRef

Smith LA, Van Der Kamp G, Jim Hendry M (2013) A new technique for obtaining high-resolution pore pressure records in thick claystone aquitards and its use to determine in situ compressibility. Water Resour Res 49:732–743. doi:10.1002/wrcr.20084 CrossRef

Spane FA (2002) Considering barometric pressure in groundwater flow investigations. Water Resour Res 38:1078. doi:10.1029/2001WR000701 CrossRef

Timms WA, Acworth RI (2005) Propagation of pressure change through thick clay sequences: an example from Liverpool Plains, NSW, Australia. Hydrogeol J 13:858–870CrossRef

Toll NJ, Rasmussen TC (2007) Removal of barometric pressure effects and Earth tides from observed water levels. Ground Water 45:101–105. doi:10.1111/j.1745-6584.2006.00254.x CrossRef

Van Camp M, Vauterin P (2005) Tsoft: Graphical and interactive software for the analysis of time series and Earth tides. Comput Geosci 31:631–640. doi:10.1016/j.cageo.2004.11.015 CrossRef

van der Kamp G (2001) Methods for determining the in situ hydraulic conductivity of shallow aquitards: an overview. Hydrogeol J 9:5–16CrossRef

van der Kamp G, Gale J (1983) Theory of Earth tide and barometric effects in porous formations with compressible grains. Water Resour Res 19:538–544CrossRef

van der Kamp G, Schmidt R (1997) Monitoring of total soil moisture on a scale of hectares using groundwater piezometers. Geophys Res Lett 24:719–722CrossRef

Weeks EP (1979) Barometric fluctuations in wells tapping deep unconfined aquifer. Water Resour Res 15:1167–1176CrossRef

Title: Improved barometric and loading efficiency estimates using packers in monitoring wells
Authors: Scott B. Cook
Wendy A. Timms
Bryce F.J. Kelly
S. Lee Barbour
Publication date: 04-02-2017
Publisher: Springer Berlin Heidelberg
Published in: Hydrogeology Journal / Issue 5/2017
Print ISSN: 1431-2174
Electronic ISSN: 1435-0157
DOI: https://doi.org/10.1007/s10040-017-1537-9

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