Tap water costs and service sustainability, a close relationship

Water is currently an essential and strategic resource for society and its importance will rise in the future due to the increasing number of threats. However, water management is not currently up to par taking into consideration this well acknowledged importance. Generally speaking, water use is not efficient and loss figures are often too high. The reasons behind this situation are complex and diverse, however, in principle, they can be divided into four categories: cultural, political, social and economic. Since the latter are of most importance, this paper focuses on water costs from source to tap. The economic analysis presented quantifies the costs of a sustainable urban water service in a structured way. The second part of the paper present a case study in which the economic losses linked to leakage are assessed as a function of how expenses are recovered. The cost of apparent losses could also be assessed in a similar way and will always be higher, since apparent losses (unlike real ones) are present throughout the whole water cycle, thus increasing the unit costs.Cabrera Marcet, E.; Pardo Picazo, MA.; Cabrera Rochera, E.; Arregui De La Cruz, F. (2013). Tap water costs and service sustainability, a close relationship. Water Resources Management. 27(1):239-253. doi:10.1007/s11269-012-0181-3S239253271Almandoz J, Cabrera E, Arregui F, Cabrera Jr E, Cobacho R (2005) Leakage assessment through water networks simulation. J Water Resour Plan Manag ASCE. Nov-Dic. 2005 pp 458–466BDEW (German Association of Energy and Water Industries) (2010) Comparison of European Water and Wastewater Prices German Association of Energy and Water Industries, BonnCabrera E, Pardo MA, Cobacho R, Arregui FJ, Cabrera Jr E (2010) Energy audit of water networks. J. Water Resour. Plan. Manag. ASCE. Nov–Dic. 2010 pp 669–677Coase RH (1960) The problem of social cost. J Law Econ, October 1960den Blanken M (2009) Asset Management. A necessary tool for a modern water company AWWA International Conference on Strategic Asset Management. Miami 11–13 November 2009EPO (Eurostat Press Office) (2010) Facts and figures on the environment: from environmental taxes to water resources. Eurostat Press Office, Luxembourg, December 2010EU (European Union) (2000) Directive 2000/60/EC of the European Parliament and of the Council of 23 October 2000. Off J Eur Communities 22.12.2000. Pp L 327/1 to L 327/72IWA (International Water Association) (2010) International statistics for water services. Montreal 2010. Canada. International Water Association, LondonKanakoudis V, Tolikas D (2001) The role of leaks and breaks in water networks: technical and economical solutions. J Water SRT - Aqua 50(2001):301–311Kanakoudis V, Tsitsifli S (2009) Water pricing policies in Greece: is there a Common Understanding?. 2nd International conference on water economics, statistics, and finance Alexandroupolis, Thrace, Greece, 3–5 July 2009.Kanakoudis V, Gonelas K, Tolikas D (2011) Basic principles for urban water value assessment and price setting towards its full cost recovery – pinpointing the role of the water losses. J Water Supply: Res Technol 60(1):27–39Logar I, Van den Berg J (2012) Methods to assess costs of drought damages and policies for drought mitigation and adaptation: Review and recommendations. Water Resour Manag. doi: 10.1007/s11269-012-0119-9Molinos-Senante M, Hernández-Sancho F, Sala-Garrido R (2012) Tariffs and cost recovery in water reuse. Water Resour Manag. doi: 10.1007/s11269-012-0111-4NRC (National Research Council) (2008) Desalination a national perspective. NAP Press, Washington, D.C. National Research Council, Ottawa, CanadaOECD (Organisation for Economic Co-operation and Development) (2010) Pricing water resources and water and sanitation services. OECD, ParisOFWAT (Office of Water Services) (2009) Future water and sewerage charges 2010-15: Final determinations. OFWAT (Office of Water Services), Birmingham UKRogers P, Bhatia R, Huber A (1998) Water as a social and economic good: How to put the principle into practice. Global Water Partnership, Swedish International Development Cooperation Agency.Roth A (2001) Water pricing in the EU. A review. European Environmental Bureau (EEB), BrusselsWonnacott P, Wonnacott R (1990) Economics, 4th edn. John Wiley, 1990Zhu X, van Ierland EC (2012) Economic modeling for water quantity and quality management: a welfare program approach. Water Resour Manag. doi: 10.1007/s11269-012-0029-

Post-operative critical care management of patients undergoing cytoreductive surgery and heated intraperitoneal chemotherapy (HIPEC)

<p>Abstract</p> <p>Background</p> <p>Cytoreductive surgery (CRS) and Heated Intraperitoneal Chemotherapy (HIPEC) results in a number of physiological changes with effects on the cardiovascular system, oxygen consumption and coagulation. The Critical Care interventions required by this cohort of patients have not yet been quantified.</p> <p>Methods</p> <p>This retrospective audit examines the experience of a Specialist Tertiary Centre in England over an 18 month period (January 2009-June 2010) during which 69 patients underwent CRS and HIPEC. All patients were extubated in the operating theatre and transferred to the Critical Care Unit (CCU) for initial post-operative management.</p> <p>Results</p> <p>Patients needed to remain on the CCU for 2.4 days (0.8-7.8). There were no 30 day mortalities. The majority of patients (70.1%) did not require post-operative organ support. 2 patients who developed pneumonia post-operatively required respiratory support. 18 (26.1%) patients required vasopressor support with norepinephrine with a mean duration of 13.94 hours (5-51 hours) and mean dose of 0.04 mcg/kg/min. Post-operative coagulopathy peaked at 24 hours. A significant drop in serum albumin was observed.</p> <p>Conclusion</p> <p>The degree of organ support required post-operatively is minimal. Early extubation is efficacious with the aid of epidural analgesia. Critical Care monitoring for 48 hours is desirable in view of the post-operative challenges.</p

Internet of Things for Water Sustainability

The water is a finite resource. The issue of sustainable withdrawal of freshwater is a vital concern being faced by the community. There is a strong connection between the energy, food, and water which is referred to as water-food-energy nexus. The agriculture industry and municipalities are struggling to meet the demand of water supply. This situation is particularly exacerbated in the developing countries. The projected increase in world population requires more fresh water resources. New technologies are being developed to reduce water usage in the field of agriculture (e.g., sensor guided autonomous irrigation management systems). Agricultural water withdrawal is also impacting ground and surface water resources. Although the importance of reduction in water usage cannot be overemphasized, major efforts for sustainable water are directed towards the novel technology development for cleaning and recycling. Moreover, currently, energy technologies require abundant water for energy production. Therefore, energy sustainability is inextricably linked to water sustainability. The water sustainability IoT has a strong potential to solve many challenges in water-food-energy nexus. In this chapter, the architecture of IoT for water sustainability is presented. An in-depth coverage of sensing and communication technologies and water systems is also provided

Editorial: Utilizing hydroinformatics for efficient water systems management

[No abstract available

Multiobjective memetic algorithm applied to the optimisation of water distribution systems

Finding low-cost designs of water distribution systems (WDSs) which satisfy appropriate levels of network performance within a manageable time is a complex problem of increasing importance. A novel multi-objective memetic algorithm (MA) is introduced as a solution method to this type of problem. The MA hybridises a robust genetic algorithm (GA) with a local improvement operator consisting of the classic Hooke and Jeeves direct search method and a cultural learning component. The performance of the MA and the GA on which it is based are compared in the solution of two benchmark WDS problems of inreacing size and difficulty. Solutions that are superior to those reported previously in the literature were achieved. The MA is shown to outperform the GA in each case, indicating that this may be a useful tool in the solution of real-world WDS problems. The potential benefits from search space reduction are also demonstrated

A review of residential water conservation tool performance and influences on implementation effectiveness.

There has been sparse coverage of advances in the application of Demand-Side Management (DSM) in the academic press in recent years. At the same time a number of important DSM studies have been reported on by non-academic institutions, and there is therefore a need for a comprehensive, up to date review of the impacts of DSM tools and the factors which influence their effectiveness. This paper aims to begin to address this apparent lack of coverage with a review of residential DSM tools using recent reports of DSM campaigns in the western (developed) world collected from a range of sources. The aims are, to understand the potential for residential DSM tools to save water in different types of household under varying conditions and, identify influences on implementation effectiveness. The current review will be of interest to, among others, water company professionals, policy makers, regulators and environmental agencies

Data warehouse for the monitoring and analysis of water supply and consumption

Water is an essential resource that is increasingly scarce. Existing water supply networks are highly stressed due the increasing water consumption and the high quantity of water losses. In order to reduce water losses and improve water consumption management, EAmb - Esposende Ambiente, E.M. is implementing a data warehouse for storing water supply and consumption data. The available data will be used to monitor and analyze water supply and consumption in Esposende county