Integrated Management of Non-conventional Water Resources in Anhydrous Islands

Liu, Songsong; Papageorgiou, Lazaros G.; Gikas, Petros

doi:10.1007/s11269-011-9921-z

Cited by 19 publications

(6 citation statements)

References 23 publications

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“…Indeed, many regions in Mediterranean area (e.g. : Aegean Sea) are addressing many efforts in the research of efficient solution procedures based on large-scale optimization models to an integrated management of desalinated water, wastewater and reclaimed waters (Liu et al, 2012(Liu et al, , 2011. Moreover, these procedures should focus on developing new autoadaptive algorithmics that could help to satisfy water demands needs with less costs (Reed et al, 2012).…”

Section: Discussionmentioning

confidence: 99%

Water resources management in southern Europe: Clues for a research and innovation based regional hypercluster

Martins

Brito

Nogueira

et al. 2013

Journal of Environmental Management

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European countries are facing increasing pressures on their water resources despite stringent regulations and systematic efforts on environmental protection. In this context, research and innovation play a strategic role reinforcing the efficiency of water policies. The present study provides a multilevel assessment of research and innovation practices in the field of water resource management in southern European countries and regions (more specifically; Cyprus, Albania, Poitou-Charentes in France, Andalusia in Spain and the North of Portugal). The analysis was based on a strategic framework aimed at gaining an insight of the current constraints, as well as of the existing and future technological solutions for a better water resource management. The triple helix model proved to be a useful analytical framework for assessing the efforts of different groups towards a common goal. The analysis proved the existence of a significant evolution in the use of technological tools to assist decision-making processes in integrated river basin management in all regions. Nevertheless, the absence of formal channels for knowledge and data exchange between researchers and water resource managers complicates the formers involvement in the decision-making process regarding water allocation. Both researchers and consultants emphasize the low availability of data, together with the need to advance on water resource economics as relevant constraints in the field. The SWOT analysis showed similar concerns among the participating regions and provided a battery of effective projects that resulted in the preparation of a Joint Action Plan.

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Section: Discussionmentioning

confidence: 99%

Water resources management in southern Europe: Clues for a research and innovation based regional hypercluster

Martins

Brito

Nogueira

et al. 2013

Journal of Environmental Management

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“…Han et al established an urban multi-source, multi-user and multi-objective optimization model concerning the maximal benefit of economy, society and environment, and STEM was adopted to solve this multi-objective model [12]. Binary linear programming, integer linear programming and mixed integer linear programming have been put forward to address the nonlinearity and non-convexity of the objective functions and constraints, while sequential quadratic programming could be used to solve constrained nonlinear optimization problems [56]. Dynamic programming (DP) is applicable for optimizing decision making processes, the core idea of which is to decompose a complex problem into multi-stage decision making processes.…”

Section: Optimization Modelmentioning

confidence: 99%

Urban Multi-Source Water Supply in China: Variation Tendency, Modeling Methods and Challenges

Song

Chao

Zhang

et al. 2020

Water

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Urban water resources are the basis for the formation and development of cities and the source of urban water supply. However, with the acceleration of urbanization and the explosion of urban populations, the contradiction between water supply and demand in some areas, especially in big cities, has become increasingly prominent. It is simply not sufficient to rely on local conventional water resources to meet urban water demand, and a single source water supply mode has a higher vulnerability, resulting in greater safety risks in urban or regional water supply systems. Therefore, giving full play to the water supply capacity and carrying out multi-source water supplies are necessary and urgent. This paper gives an overview of the optimal allocation of multi-source for urban water supply concerning variation tendency, modeling methods and facing challenges. Based on the variation tendency of water consumption and water supply pattern in China, Tianjin is taken as a typical city for systematically outlining water supply changes and cause analysis. Subsequently, the modeling methods for proposing the optimal allocation scheme are summarized, which are composed of defining the topological relation, constructing the mathematical model and seeking the optimal solution. Ultimately, the current and emerging challenges are discussed including emergency operation of multi-source water supply and joint operation of water quality and quantity. These summaries and prospects provide a valuable reference for giving full play to the multi-source water supply capacity and carrying out relevant research so as to propose the optimal allocation scheme in urban multi-source water supply systems.China's average per capita share of water resources (about 2100 m 3 ) is only about 25% of the world average [4]. It was reported that of the 669 cities, 400 suffer from insufficient water supply and 110 suffer from severe water shortage; of the 32 cities with a population at or exceeding 1 million, 30 suffer from chronic water shortage; of the 14 coastal open cities, 9 suffer from acute water shortage [5]. Now, China is one of the 13 most water-stressed countries in the world. Apart from the low per capita availability of water resources, there is a mismatch between the spatial distribution of water resources and geographic regions with high population densities, especially in north China where water resources are particularly scarce [6]. By the end of 2010, the 11 coastal provinces lay alone the 1800 km coastal line, occupying 13.7% of China's territory with 43.0% of China's population [7]. The north of the country, similar in land area and population to the south, held only 18% of the total water despite having 65% of the total arable land [8]. In recent decades, accounting for the influence of climate change, land cover change and human activities, drought and water logging disasters, and water ecological security problems have been increasingly prominent; its impact on water availability for humans can jeopardize human life. It is demonst...

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“…Moreover the price per unit volume of desalinated water produced in large desalination plants can be one quarter of that produced in a small plant (i.e. 2.5 US$/m 3 in a plant producing 50-1000 m 3 /day and 0.8 US$/m 3 in a plant producing 5000-10,000 m 3 /day) [11], down to 0.6 US$/m 3 in large modern plants producing more than 100,000 m 3 /day [12]. Fig.…”

Section: Need For Desalinationmentioning

confidence: 99%

Estimating desalination requirements in semi-arid climates: A Mediterranean case study

2015

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Integrated Management of Non-conventional Water Resources in Anhydrous Islands

Cited by 19 publications

References 23 publications

Water resources management in southern Europe: Clues for a research and innovation based regional hypercluster

Water resources management in southern Europe: Clues for a research and innovation based regional hypercluster

Urban Multi-Source Water Supply in China: Variation Tendency, Modeling Methods and Challenges

Estimating desalination requirements in semi-arid climates: A Mediterranean case study

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