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Environmental Earth Sciences

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01-05-2019 | Thematic Issue

Methods to supply seawater to desalination plants along the Spanish mediterranean coast and their associated issues

Authors: A. Pulido-Bosch, A. Vallejos, F. Sola

Published in: Environmental Earth Sciences | Issue 10/2019

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Abstract

Many coastal areas of our planet receive only scarce precipitation, and have limited or often non-existent surface water resources. Over the last four decades, the intensive agriculture and tourism along the Spanish mediterranean coast have led to a large increase in water demand. The economic development of this, the most arid stretch of the Mediterranean coast has been dependent on the availability of good quality groundwater. Desalination in Spain has contributed to the progress and development of these areas, being considered as the solution to this increased demand. Along the Spanish mediterranean coast, around 30 desalination plants of medium–high capacity, between 20,000 and 125,000 m³/day, have been built over the last 25 years, and there are several plants in the planning stage, to be constructed in the near future. In addition, 100 small plants desalinate brackish water. Desalination plants are usually supplied from coastal boreholes if there is a coastal aquifer with hydraulic connection to the sea. Nevertheless, the water to desalinate in other cases comes from evaporitic aquifers or even fossil water. Regarding the water intake systems, horizontal directional drilling can give good results, not to mention a number of other sophisticated and curious designs, each with their particular advantages and drawbacks. This paper describes the main problems and also the benefits concerning water intake systems to some desalination plants along the Spanish mediterranean coast.

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Alaminos F, Fernández-Cano A, Urgoiti N (2006) Desalación de aguas salobres para el abastecimiento de Málaga capital, vol 19. Publicaciones IGME, Serie Hidrogeología y Aguas Subterráneas, Madrid. pp 11–35

Alhama I, Rodríguez-Estrella T, Alhama F (2012) Hydric restoration of the Agua Amarga saltmarsh (SE Spain) affected by abstraction from the underlying coastal aquifer. Water Resour Manag 26:1763–1777CrossRef

Anderson DJ, Timms WA, Glamore WC (2009) Optimising subsurface well design for coastal desalination water harvesting. Aust J Earth Sci 56:53–60CrossRef

Baltanás A (2006) Spanish push for desalination: part of larger plan. Desalination 99:57–71

Colombani N, Osti A, Volta G, Mastrocicco M (2016) Impact of climate change on salinization of coastal water resources. Water Resour Manag 30(7):2483–2496CrossRef

Custodio E (2017) Salinización de las aguas subterráneas en los costeros mediterráneos e insulares españoles. UPC-CETAQUA, Paris

Custodio E, Bruggeman GA (1987) Groundwater problems in coastal areas. Studies and reports in hydrogeology nº 45. UNESCO, Paris

Daniele L, Vallejos A, Sola F, Corbella M, Pulido-Bosch A (2011) Hydrogeochemical processes in the vicinity of a desalination plant (Cabo de Gata, SE Spain). Desalination 277:338–347CrossRef

Dehawh AH, Al-Mashharawi S, Kammourie N, Missimer TM (2015) Impact of well intake systems on bacterial, algae, and organic carbon reduction in SWRO desalination systems, SAWACO, Jeddah, Saudi Arabia. Desalin Water Treat 55:2594–2600CrossRef

Fariñas M, López LA (2007) New and innovative sea water intake system for the desalination plant at San Pedro del Pinatar. Desalination 203:199–217CrossRef

Ferguson G, Gleeson T (2012) Vulnerability of coastal aquifers to groundwater use and climate change. Nat Clim Change 2:342–345CrossRef

García-Rubio MA, Guardiola J (2012) Desalination in Spain: a growing alternative for water supply. Water Resour Dev 28(1):171–186CrossRef

Ghaffour N, Missimer TM, Amy G (2013) Technical review and evaluation of the economics of desalination: current and future challenges for better supply sustainability. Desalination 309:197–207CrossRef

Gille ED (2003) Seawater intakes for desalination plants. Desalination 156:249–256CrossRef

González-Baheza A, Arizpe O (2018) Vulnerability assessment for supporting sustainable coastal city development: a case study of La Paz, Mexico. Clim Dev 10(6):552–565CrossRef

Hezi Z, Shpak S, Fliesher M, Gillerman L, Kasher R, Oron G (2018) Optimal managing the coastal aquifer for seawater desalination and meeting nitrates level of drinking water. Desalination 436:63–68CrossRef

Iyalomhe F, Rizzi J, Pasini S, Torresan S, Critto A, Marcomini A (2015) Regional Risk Assessment for climate change impacts on coastal aquifers. Sci Total Environ 537:100–114CrossRef

Jorreto S, Pulido-Bosch A, Gisbert J, Sánchez-Martos F, Francés I (2009) The fresh water-seawater contact in coastal aquifers supporting intensive pumped seawater extractions: a case study. C R Geosci 341:993–1002CrossRef

Kopsiaftis G, Tigkas D, Christelis V, Vangelis H (2017) Assessment of drought impacts on semi-arid coastal aquifers of the Mediterranean. J Arid Environ 137(7):7–15CrossRef

Leduc C, Pulido-Bosch A, Remini B (2017) Anthropization of groundwater resources in the Mediterranean region: processes and challenges. Hydrogeol J 25(6):1529–1547CrossRef

Malfeito JJ, Ortega, JM (2006) San Pedro del Pinatar desalination plant: first year operation with a horizontal drilling intake. In: Desalination and water reuse international forum & exhibition. Tianjin (China)

Mazi K, Koussis AD, Destouni G (2016) Quantifying a sustainable management space for human use of coastal groundwater under multiple change pressures. Water Resour Manag 30(12):4063CrossRef

Missimer TM, Ghaffour N, Dehwah AH, Rachman R, Maliva RG, Amy G (2013) Subsurface intakes for seawater reverse osmosis facilities: capacity limitation, water quality improvement, and economics. Desalination 322:37–51CrossRef

MMA (2005). Programa AGUA. https://www.mma.es

Mogheir Y (2016) Assessing the seawater intrusion due to beach wells in the desalination plant. J Geosci Environ Prot 2016(4):37–47

Otero N, Soler A, Corp RM, Mas-Pla J, Garcia-Solsona E, Masqué P (2011) Origin and evolution of groundwater collected by a desalination plant (Tordera, Spain): a multi-isotopic approach. J Hydrol 397:37–46CrossRef

Palomar P, Losada IJ (2008) Desalinisation of seawater in Spain: aspects to be considered in the design of the drainage system to protect the marine environment. Rev Obras Públ 3486:37–52

Palomar P, Losada IJ (2010) Desalination in Spain: recent developments and recommendations. Desalination 255:97–106CrossRef

Peters T, Pintó D (2008) Seawater intake and pre-treatment/brine discharge - environmental issues. Desalination 221:576–584CrossRef

Peters T, Pintó D (2010) Seawater intake and partial pre-treatment with Neodren—results from investigation and long-term operation. Desalin Water Treat 24(1–3):117–122CrossRef

Peters T, Pintó D, Pintó E (2007) Improved seawater intake and pre-treatment system based on Neodren technology. Desalination 203:134–140CrossRef

Pool M, Carrera J (2010) Dynamics of negative hydraulic barriers to prevent seawater intrusion. Hydrogeol J 18:95–105CrossRef

Prihasto N, Liu QF, Kim SH (2009) Pre-treatment strategies for seawater desalination by reverse osmosis system. Desalination 249:308–316CrossRef

Proskynitopoulou V, Katsoyiannis IA (2018) Review of recent desalination developments for more efficient drinking water production across the world. New Mater Compd Appl 2(3):179–195

Pulido-Bosch A, Pulido Leboeuf P, Gisbert J (2004) Pumping seawater from coastal aquifers for supplyng desalinations plants. Geol Acta 2:99–109

Pulido-Bosch A, Pulido-Leboeuf P, Sánchez.Martos F, Gisbert J, Vallejos A (2002) Coastal aquifers and desalinisation plants. A case study: Almeria, Spain. In: Sherif S, Al-Rashed (eds) Groundwater hydrology, pp 415–434

Pulido-Bosch A, Delgado J, Sola F, Vallejos A, Vicente F, López Sánchez J, Mallorqui J (2012) Identification of potencial subsidence related to pumping in the Almeria Basin (SE Spain). Hydrol Process 26:73–74CrossRef

Ragab R, Prudhomme C (2002) Climate change and water resources management in arid and semi-arid regions: prospective and challenges for the 21st century. Biosys Eng 81(1):3–34CrossRef

Rico-Amorós AM (2004) Sequías y abastecimientos de agua potable en España. Boletín de la A.G.E. 37:137–181

Rodríguez-Estrella T, Pulido-Bosch A (2009) Methodologies for abstraction from coastal aquifers for supplying desalination plants in the south-east of Spain. Desalination 249:1088–1098CrossRef

Sadhwani JJ, Veza JM (2008) Desalination and energy consumption in Canary Islands. Desalination 221:143–150CrossRef

Schwarz J (2003) Beach well intakes improve feed-water quality. Water Wastewater Int 18:34–35

Shahabi MP, McHugh A, Ho G (2015) Environmental and economic assessment of beach well intake versus open intake for seawater reverse osmosis desalination. Desalination 357:259–266CrossRef

Sola F, Vallejos A, López Geta JA, Pulido-Bosch A (2013) The role of aquifer media in improving the quality of seawater feed to desalination plants. Water Resour Manag 27:1377–1392CrossRef

Sola F, Vallejos A, Daniele L, Pulido-Bosch A (2014) Identification of a Holocene aquifer–lagoon system using hydrogeochemical data. Quat Res 82:121–131CrossRef

Stein S, Russak A, Sivan O, Yechieli Y, Rahav E, Oren Y, Kasher R (2016) Saline groundwater from coastal aquifers as a source for desalination. Environ Sci Technol 50(4):1955–1963CrossRef

Stuyfzand P, Raat K (2010) Benefits and hurdles of using brackish groundwater as a drinking water source in the Netherlands. Hydrogeol J 18(1):117–130CrossRef

Todd D (1980) Groundwater hydrology, chap. 14. Wiley, Chichester

Valdés-Abellán J, Candela L, Jiménez-Martínez J, Saval-Pérez JM (2013) Brackish groundwater desalination by reverse osmosis in southeastern Spain. Presence of emerging contaminants and potential impacts on soil-aquifer media. Desalin Water Treat 51:2431–2444CrossRef

Vallejos A, Sola F, Yechili Y, Pulido-Bosch A (2018) Influence of the paleogeographic evolution on the groundwater salinity in a coastal aquifer. Cabo de Gata aquifer, SE Spain. J Hydrol 557:55–66CrossRef

Voutchkov N (2004) Through study is key to large beach- well intakes. Desalin Water Reuse 14:16–20

Voutchkov N (2005) SWRO desalination processes: on the beach-sea water intake. Filtr Sep 42:24 (18: 34–35–27) CrossRef

Wada Y, Van Beek LPH, Van Kempen CM, Reckman JWTM, Vasak A, Bierkens MFP (2010) Global depletion of groundwater resources. Geophys Res Lett 37:L20402CrossRef

Zuurbier KG, Kooiman JW, Groen MMA, Maas B, Stuyfzand PJ (2015) Enabling successful aquifer storage and recovery of freshwater using horizontal directional drilled wells in coastal aquifers. J Hydrol Eng 20(3):B4014003CrossRef

Title: Methods to supply seawater to desalination plants along the Spanish mediterranean coast and their associated issues
Authors: A. Pulido-Bosch
A. Vallejos
F. Sola
Publication date: 01-05-2019
Publisher: Springer Berlin Heidelberg
Published in: Environmental Earth Sciences / Issue 10/2019
Print ISSN: 1866-6280
Electronic ISSN: 1866-6299
DOI: https://doi.org/10.1007/s12665-019-8298-9

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