1. bookVolume 115 (2018): Issue 11 (November 2018)
Journal Details
License
Format
Journal
eISSN
2353-737X
First Published
20 May 2020
Publication timeframe
1 time per year
Languages
English
Open Access

The impact of the shape of screen openings on groundwater flow to a deep drilled well

Published Online: 23 May 2020
Volume & Issue: Volume 115 (2018) - Issue 11 (November 2018)
Page range: 149 - 161
Received: 15 Oct 2018
Journal Details
License
Format
Journal
eISSN
2353-737X
First Published
20 May 2020
Publication timeframe
1 time per year
Languages
English
Abstract

The authors propose a supplementary method for modelling seepage flow around a deep drilled well screen. The study applies 3D numerical modelling (FEM) in order to provide an in-depth analysis of the seepage process. The analysis of flow parameters (flux distribution q(x, t) and pressure distribution p) was conducted using the ZSoil.PC software system. The analysis indicates that the shape of perforation is of secondary importance during deep bore well screen selection.

Keywords

[1] American Water Works Association, AWWA Standard for Water Wells. ANSI/NGWA-01-14, AWWA, Denver 2014.Search in Google Scholar

[2] Antoniou A., Smits F., Stuyfzand P., Quality assessment of deep-well recharge applications in the Netherlands, Water Science and Technology: Water Supply 17(5) /2017, 1201–1211.10.2166/ws.2017.032Search in Google Scholar

[3] Bear J., Hydraulics of Groundwater, Mineola, Dover 2007.Search in Google Scholar

[4] Boyraz U., Kazezyılmaz-Alhan C.M., Solutions for groundwater flow with sloping stream boundary: analytical, numerical and experimental models, Hydrology Research 4(48)/2017, 258–267.10.2166/nh.2017.264Search in Google Scholar

[5] Byung-Woo K., Effect of Filter Designs on Hydraulic Properties and Well Efficiency, Groundwater S1(52) /2014, 175–185.10.1111/gwat.1216624571417Search in Google Scholar

[6] Castellazzi P., Martel R., Galloway D.L., Longuevergne L., Rivera A., Assessing Groundwater Depletion and Dynamics Using GRACE and InSAR: Potential and Limitations, Groundwater, 54(6)/2016, 768–780.10.1111/gwat.1245327576068Search in Google Scholar

[7] Delleur J.W., Elementary Groundwater Flow and Transport Processes, The Handbook of Groundwater Engineering, Cushman, J. H. & Tartakovsky, D.M. (Eds.), CRC Press LLC, Florida 2016.Search in Google Scholar

[8] Gabryszewski T., Wieczysty A., Ujęcia wód podziemnych, Arkady, Warszawa 1985.Search in Google Scholar

[9] George R.M., Bore Wells Vs. Open Wells: Water Crisis and Sustainable Alternatives in Kerala, Journal of Management & Public Policy 7(2)/2016, 19–28.Search in Google Scholar

[10] Houben G.J., Hauschild S. I., Numerical modelling of the near-field hydraulics of water wells, Hydrogeology Journal 49(4)/2011, 570–575.10.1111/j.1745-6584.2010.00760.x20860691Search in Google Scholar

[11] Houben G.J., Hydraulics of water wells – flow laws and influence of geometry, Hydrogeology Journal 23(8)/2015, 1633–1657.10.1007/s10040-015-1312-8Search in Google Scholar

[12] Houben G.J., Review: Hydraulics of water wells – head losses of individual components, Hydrogeology Journal 23(8)/2015, 1659–1675.10.1007/s10040-015-1313-7Search in Google Scholar

[13] Karatzas G.P., Developments on Modeling of Groundwater Flow and Contaminant Transport, Water Resources Management 31(10)/2017, 3235–3245.10.1007/s11269-017-1729-zSearch in Google Scholar

[14] Knapik K., Bajer J., Wodociągi, Politechnika Krakowska, Kraków 2011.Search in Google Scholar

[15] Lubowiecka T., Mathematical model of deep drilled wells with confined aquifer and its empirical verification, PhD dissertation, Cracow University of Technology, Kraków 1978.Search in Google Scholar

[16] Mahasneh A.M., Well Screens and Gravel Packs, Global Journal Of Science Frontier Research 15-5-H/2015, 30–39.Search in Google Scholar

[17] Manera D.B., Voltolini T.V., Menezes D.R., Leal de Araujo G.G., Chemical Composition of Drilled Wells Water for Ruminants, Journal of Agricultural Science 8(12)/2016, 127–132.10.5539/jas.v8n12p127Search in Google Scholar

[18] Mansuy N., Water Well Rehabilitation: A Practical Guide to Understanding Well Problems and Solutions, Layne Geosciences Inc., USA 1999.Search in Google Scholar

[19] Misstear B.D.R., Banks D., Clark L., Water wells and boreholes, Wiley, Chichester 2016.10.1002/9781119080176Search in Google Scholar

[20] Nanteza J., de Linage C.R., Thomas B.F., Famiglietti J.S., Monitoring groundwater storage changes in complex basement aquifers: An evaluation of the GRACE satellites over East Africa, Water Resources Research 52(12)/2016, 9542–9564.10.1002/2016WR018846Search in Google Scholar

[21] Satora S., Konstrukcje Studni Wierconych Ujmujących Wody Podziemne z Warstw Fliszowych, III Konferencja Naukowo-Techniczna “Błękitny San”, Dubiecko, 21–22 kwietnia 2006.Search in Google Scholar

[22] Szanyi M.L., Hemmingsen,C.S., Yan,W., Walther, J.H., Glimberg, S.L., Near-wellbore modeling of a horizontal well with Computational Fluid Dynamics, Journal of Petroleum Science and Engineering 160/2018, 119–128.10.1016/j.petrol.2017.10.011Search in Google Scholar

[23] Tkaczenko A., Studnie wiercone – część druga, Wydawnictwo Geologiczne, Warszawa 1971.Search in Google Scholar

[24] Urbański A., Podleś K., The 2D/3D method of filtration and stability analysis of a slope with dewatering wells, ZSoil Days, Lausanne 2017, https://www.zsoil.com/zsoil_day/2017/Urbanski-Podles_Wells_2D_3D.pdf (access: 15.10.2018).Search in Google Scholar

[25] Urbański A., Multi-scale analysis of a flow to drainage tubes. ZSoil Days, Lausanne 2016, http://www.zsoil.com/zsoil_day/2016/A_Urbanski_Multi-scale_analysis.pdf (access: 15.10.2018).Search in Google Scholar

[26] [Wilk B.K., Ultrafiltration membranes made of: polyaniline, ionic liquid and cellulose, Technical Transactions 1-Ś/2016, 171–187.Search in Google Scholar

[27] Yeh H.D., Chang Y.C., Recent advances in modeling of well hydraulics, Advances in Water Resources 51/2013, 27–51.10.1016/j.advwatres.2012.03.006Search in Google Scholar

Recommended articles from Trend MD

Plan your remote conference with Sciendo