Analysis of the Water Resources Status in Kuwait

Fadlelmawla, A.; Al-Otaibi, M.

doi:10.1007/s11269-005-6810-3

Cited by 18 publications

(17 citation statements)

References 4 publications

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“…Kuwait has the largest domestic water consumption in the world, 500 liters/cap/day in 2011 (Gulf News, 2011), which is supplied by desalinated seawater (90%) and brackish groundwater (10%), (Fadlemawla and Al-Otaibi, 2005). Al-Otaibi and Mukhopadhyay, (2005), and Fadlemawla and Al-Otaibi, (2005), indicate that only 30% of treated wastewater is being reused, and contributes to 25% of the irrigated agriculture needs, the remaining supply being from the over-exploited brackish groundwater aquifers.…”

Section: Introductionmentioning

confidence: 99%

“…Al-Otaibi and Mukhopadhyay, (2005), and Fadlemawla and Al-Otaibi, (2005), indicate that only 30% of treated wastewater is being reused, and contributes to 25% of the irrigated agriculture needs, the remaining supply being from the over-exploited brackish groundwater aquifers. Therefore, if the treated wastewater could be stored rather than disposed of in the Gulf Sea, it could serve the double purpose of restoring over-exploited aquifers and encouraging more efficient use of the existing water supply, for example, by increasing its use in irrigated agriculture.…”

Section: Introductionmentioning

confidence: 99%

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Effects of Lateral Heterogeneity on 1D D.C. Resistivity and Transient Electromagnetic Soundings in Kuwait

Nazerali¹,

Coles

Minsley³

et al. 2015

SEG Technical Program Expanded Abstracts 2015

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Aquifer storage and recovery (ASR) of treated wastewater is a viable sustainable water management option for Kuwait. A geophysical survey to characterize the target aquifer in the Dammam Formation was conducted to obtain one-dimensional (lD) resistivity using the D.C. resistivity (DCR) and transient electromagnetic (TEM) methods.For DCR, we implement a systematic approach to obtain a 1 D vertical profile using fixed-thickness and variable-thickness layer inversion techniques in succession. The optimal model has 6 layers above the half-space depth of 101 m, consisting of 3 surface layers down to 15 m depth and 3 intermediate layers, which correspond to the formations of the Kuwait Group overlying the Dammam Formation. Anomalies in the data which cannot be attributed to noise or error are not adequately fit by the best set of ID models. The possibility that lateral heterogeneity explains the variation in the data is explored using approximate 2D resistivity inversion. A comparison of the 1 D vertical profile obtained from the approximate 2D image with the ID layered model indicates that, in our case, ID analysis provides a sufficient picture of the subsurface despite the evidence of possible lateral heterogeneities in the subsurface. Such heterogeneity is explained by the occurrence of gatch (caliche) in the Fars and Ghar formations of the Kuwait Group.The comparison between DCR and TEM indicates that the TEM data is not sensitive to a relatively resistive layer that is resolved by the ID DCR inversion, or to the resistive heterogeneities that are indicated in the DCR data with respect to the best fit. We obtain the top of the Dammam formation -or the aquitard on top of the Dammam -as the model half-space depth at approximately 100 m below the surface in both data sets. ACKNOWLEDGEMENTSThe author would like to acknowledge the Kuwait Foundation for the Advancement of Sciences for funding this research through the Kuwait-MIT Center for Natural Resources and the Environment (KUMIT-CNRE). We also gratefully acknowledge the support of Massachusetts Institute of Technology through the Robert R. Shrock, and Theodore R. Madden fellowships. We thank our colleagues at Kuwait Institute of Scientific Research who helped us to perform the field experiment described in this work, in particular, Mr. Asim Al-Khalid and Mr. Bandar Rahman. We wish to thank Dr. Amina Hamzaoui, who served as executive director of KUMIT-CNRE, and was instrumental in facilitating all aspects of the project. We thank Professors Nafi Toksoz, Thomas Herring, and Taylor Perron for kindly serving on the thesis committee and providing invaluable insights and advice on improving the research. Drs. Daniel Burns and Srinivas Ravela also kindly offered their helpful suggestions to improve the thesis. We acknowledge our direct collaborators in this research without whose diligent work the project would not be possible: D.A. Coles, B. Minsley, A. Mukhopadhyay, F. Al-Ruwaih and F.D. Morgan. The thesis supervisor, Professor Frank Dale Morgan, was instrument...

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effects of Lateral Heterogeneity on 1D D.C. Resistivity and Transient Electromagnetic Soundings in Kuwait

Nazerali¹,

Coles

Minsley³

et al. 2015

SEG Technical Program Expanded Abstracts 2015

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“…Although a considerable amount of literature can be found on water resources of Kuwait, a lot of it is on the assessment and characterization of the resources (Bergstrom and Aten 1964;Senay 1977;Al-Ruwaih 1984;Mukhopadhyay et al 1996;Al-Sulaimi et al 1997;Al-Rashed and Sherif 2000;Fadlelmawla et al 2007;and others), significantly less studies are on specific management issues (Darwish and Al-Najem 2005;Mukhopadhyay et al 1994Mukhopadhyay et al , 2000Mukhopadhyay et al , 2001Al-Rashed et al 1998;Fadlelmawla 2006) and even less studies on the overall water resources and their management issues (Fadlelmawla and Al-Otaibi 2005;Al-Otaibi and Mukhopadhyay 2005). Fadlelmawla and Al-Otaibi (2005) provide an account of the available water resources of the country, discuss the current and projected production and demands, and criticize some of the current management practices while providing alternatives.…”

Section: Introductionmentioning

confidence: 99%

“…Fadlelmawla and Al-Otaibi (2005) provide an account of the available water resources of the country, discuss the current and projected production and demands, and criticize some of the current management practices while providing alternatives. Al-Otaibi and Mukhopadhyay (2005) overview some of the options available for managing the water resources of Kuwait, with the emphasis on reducing demand.…”

Section: Introductionmentioning

confidence: 99%

Towards Sustainable Water Policy in Kuwait: Reforms of the Current Practices and the Required Investments, Institutional and Legislative Measures

Fadlelmawla

2008

Water Resour Manage

Self Cite

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The water policies of Kuwait are in need of major reforms in order to cope with the ever-increasing demands without burdening the country's economy. As it stands, the simple approach of increasing desalination capacities and groundwater withdrawal to meet the demands is hurting the economy as well as the natural resources, and is bound to lead the country into a serious water crisis. In this context, this paper discusses the potential alternatives to the current water policies of Kuwait.

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“…In water limited countries and regions, it is a proved practice to reuse municipal wastewater as industrial, agricultural, residential and ecological water source (Asano and Levine 1996;Friedler 2001;Al-Rashed and Sherif 2000;Ogoshi 2001;USEPA 2004;Angelakis and Bontoux 2001;Riper and Geselbracht 1999;Eusuff and Lansey 2004) with sufficient risk control (Ganoulis and Papalopoulou 1996;Liu and Mattiasson 2002;Wilderer et al 2002), acceptable costs (Mujeriego andAsano 1999;Lazarova et al 1999;OECD 1999a, b;Fadlelmawla and Al-Otaibi 2005), and increasing public participation (USEPA 2004;Riper and Geselbracht 1999;Wegner-Guidt 1991). China has also realized the importance of urban wastewater reuse as a type of unconventional source water (Zhou 2001;Zhang and Qian 1991).…”

Section: Introductionmentioning

confidence: 99%

Strategic Zoning for Urban Wastewater Reuse in China

Zeng

Chen

2007

Water Resour Manage

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It has been widely recognized that urban wastewater reuse is an alternative for water shortage problem. Although the improvement on urban wastewater reuse in China is quite significant, the further development still requires more strategic regulating and directing at the national level. However, due to the huge spatial differences in socialeconomic and resource conditions among different areas in China, it is difficult to apply a same policy framework to the whole country. In the paper, the mainland of China has been divided into 342 research regions and each region has one large-scale or medium-scale central city. The paper tried to answer the question how to select the development pattern of urban wastewater reuse for each region. Firstly, in order to evaluate the necessity and regional economic feasibility to develop urban wastewater reuse, an indicator system with three indexes at the upper level and seven indicators at the lower level was build up. And valuing method and the weight for each indicator was given. All the research regions covering the mainland of China has been scored with the indicator system. Secondly, the national strategic zoning has been done with the key method of cluster analysis. All regions have been sorted into five types of strategic development zones. Each zone has its own wastewater reuse development option such as Preferential Imperative Development, State Supporting Development, Self Supporting Development, Waiting for Development, and Non-Mandatory Development. Thirdly, the corresponding policy suggestion for each zone was given to the government. The possible updates between the different development patterns have been discussed as well.

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Analysis of the Water Resources Status in Kuwait

Cited by 18 publications

References 4 publications

Effects of Lateral Heterogeneity on 1D D.C. Resistivity and Transient Electromagnetic Soundings in Kuwait

Effects of Lateral Heterogeneity on 1D D.C. Resistivity and Transient Electromagnetic Soundings in Kuwait

Towards Sustainable Water Policy in Kuwait: Reforms of the Current Practices and the Required Investments, Institutional and Legislative Measures

Strategic Zoning for Urban Wastewater Reuse in China

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