Journal ArticleDOI
Energy requirements for water production, treatment, end use, reclamation, and disposal
Anand Plappally,John H. Lienhard +1 more
TLDR
A survey of the available literature on energy intensity for water use in the municipal and agricultural sectors and separating the process into several stages is presented in this article, where water supply, water treatment, residential end use, wastewater treatment, and agriculture end use are considered.Abstract:
Energy is consumed at every stage of the cycle of water supply, treatment, use and disposal. The intensity of energy consumption (kW h/m 3 ) depends upon the specific technologies applied at each stage of the water cycle. For some technologies, the intensity may be relatively low, whereas the intensity of other technologies is substantially greater. This report surveys the available literature on energy intensity for water use in the municipal and agricultural sectors and separates the process into several stages. Water supply, water treatment, residential end use, wastewater treatment, and agriculture end use are considered. Representative values of the energy consumed per unit water are given for a broad range of processes. Water extraction and pumping from ground and surface sources is considered. The energy intensity of treatment required for different types of water source is found to vary widely between the extremes of relatively fresh surface waters, which use energy mainly in pumping, and seawater, which requires desalination. Energy usage for different methods of irrigation including pressurized as well as surface irrigation is studied. The energy intensity of residential end use is very high relative to other parts of the water supply cycle. Processes such as heating water, washing clothes and dishes, and cooking are briefly studied within the water end-use stage. Hot water usage is responsible for making end use the most energy intensive stage of the water cycle. Hot water use in different buildings is briefly reviewed. Wastewater treated with various processes is considered, and the energy intensity is found to be highest when advanced wastewater treatment methods are applied. Energy consumption in the agricultural sector, which is principally related to irrigation pumping, is generally of lower energy intensity than for the municipal treatment or end use.read more
Citations
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Journal ArticleDOI
Energy-water-environment nexus underpinning future desalination sustainability
TL;DR: In this article, the authors present a state-of-the-art review on energy, water and environment interconnection and future energy efficient desalination possibilities to save energy and protect environment.
Journal ArticleDOI
Desalination and sustainability – An appraisal and current perspective
TL;DR: An overview of the desalination trends around the world is provided and the sustainability components of Desalination processes in comparison with other water supply alternatives are discussed to increase current understanding on the sensitive and futuristic issues of water supply and resource management options for drought facing regions.
Journal ArticleDOI
Integrating micro-algae into wastewater treatment: A review
Seyedeh Fatemeh Mohsenpour,Sebastian Hennige,Nicholas Willoughby,Adebayo J. Adeloye,Tony Gutierrez +4 more
TL;DR: A critical account of micro-algae as an important step in wastewater treatment for enhancing the reduction of N, P and the chemical oxygen demand in wastewater, whilst utilising a fraction of the energy demand of conventional biological treatment systems.
Journal ArticleDOI
Pressure-retarded osmosis for power generation from salinity gradients: is it viable?
TL;DR: In this article, pressure-retarded osmosis (PRO) is investigated as a method to extract energy from salinity gradients, and the authors define the maximum energy that can be obtained from the process, quantify losses and energetic costs that will reduce the net extractable energy, and explain how membrane modules can be improved.
Journal ArticleDOI
Urban energy–water nexus: A network perspective
Shaoqing Chen,Bin Chen +1 more
TL;DR: Wang et al. as mentioned in this paper proposed a system-based framework to synthesize the interwoven connections between energy consumption and water use in a city, taking Beijing as a case study, the energy directly consumed by the city and energy used for water infrastructure are combined and converted into a single hybrid energy inflow to urban nexus network.
References
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Journal ArticleDOI
The Future of Seawater Desalination: Energy, Technology, and the Environment
TL;DR: The possible reductions in energy demand by state-of-the-art seawater Desalination technologies, the potential role of advanced materials and innovative technologies in improving performance, and the sustainability of desalination as a technological solution to global water shortages are reviewed.
Book
Wastewater Engineering Treatment Disposal Reuse
TL;DR: Wastewater Engineering: An Overview of Wastewater Engineering, Methods and Implementation Considerations as mentioned in this paper is a good starting point for a discussion of the issues of wastewater engineering. But, it is not a complete survey of the entire literature.
Journal ArticleDOI
Ozonation of drinking water: part I. Oxidation kinetics and product formation.
TL;DR: The second-order rate constants for oxidation by ozone vary over 10 orders of magnitude, between o 0.1 M 1 s 1 s -1 and about 7 − 10 9 M 1 S -1 s - 1 s − 1 as discussed by the authors.
Journal ArticleDOI
State-of-the-art of reverse osmosis desalination
TL;DR: The most commonly used desalination technologies are reverse osmosis (RO) and thermal processes such as multi-stage flash (MSF) and multi-effect distillation (MED) as mentioned in this paper.