Sustainability of decentralized wastewater treatment technologies
TLDR
In this paper, a new type of membrane-like aerobic reactor was designed for the degradation of hydrocarbon-derived groundwater contaminants, which was recently tested for treating domestic wastewater, with performance similar to that of MBRs.Abstract:
In many Countries, small communities are required to treat wastewater discharges to increasing standards of lesser environmental impacts, but must achieve that goal at locally sustainable costs. While biological membrane treatment (membrane bio-reactors (MBRs)) is quickly becoming the industry standard for centralized wastewater treatment plants, and would also be ideally suited also for small plants potentially subject to relatively large hydraulic load variations, its investment and operating costs are usually high for that class of applications. Consequently, small treatment plants are generally configured as anoxic or aerated biological tanks with little sedimentation, making them quite susceptible to hydraulic loads transient and sludge quality changes. As an alternative, Constructed Wetlands Systems (CWSs) are gradually and successfully being introduced in many Countries. CWSs are designed to utilise the natural functions of wetland vegetation, soils and their microbiological populations to treat wastewater. Pretreatment occurs by filtration and settling, followed by bacterial decomposition in a natural-looking lined marsh. A new technology, a new type of membrane-like aerobic reactor initially designed for the degradation of hydrocarbon-derived groundwater contaminants, was recently tested for treating domestic, with performance similar to that of MBRs. Examples from the above applications are illustrated and compared in this paper. The paper also discusses merits and drawbacks of the various illustrated technologies, in view of their sustainability potential, and according to the new development paradigms for urban water systems, that encourage the development of local water-cycle clusters with local reuse and recycle of the resource, and possible local recovery of energy and/or materials.read more
Citations
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Energy Issues in Sustainable Urban Wastewater Management: Use, Demand Reduction and Recovery in the Urban Water Cycle
TL;DR: In this article, the authors show that closing of the wastewater cycle by recovery of the energy content of process residuals could allow significant additional energy recovery and increased greenhouse emissions abatement.
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Integrated, Decentralized Wastewater Management for Resource Recovery in Rural and Peri-Urban Areas
TL;DR: In this paper, the needs, technological options and contribution to water management of decentralized systems are analyzed, where locally treated water could support agricultural productivity or (in more urban areas) be used as a substitute for drinking quality supply water for compatible uses.
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Biological combination processes for efficient removal of pharmaceutically active compounds from wastewater: A review and future perspectives
TL;DR: In this paper, the authors reviewed and discussed current state-of-the-art technologies for pharmaceutically active compounds removal using membrane biological reactors (MBRs) and bioelectrochemical systems (BESs).
References
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Book
The MBR Book: Principles and Applications of Membrane Bioreactors for Water and Wastewater Treatment
TL;DR: The second edition of the MBR Book as mentioned in this paper provides more content than the first edition, with more than 120 contributors from the academic research and municipal/industrial practitioner communities, covering all important aspects of Membrane BioReactors in water and waste water treatment.
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To centralise or to decentralise: an overview of the most recent trends in wastewater treatment management.
TL;DR: An overview of recent trends in wastewater management is proposed concerning the role of centralisation and decentralisation in wastewater treatment, and none of the approaches could be excluded a priori, but were generally shown to integrate one another on the basis of the specific required situation.
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Decentralized wastewater management in peri-urban areas in low-income countries
Jonathan Parkinson,Kevin Tayler +1 more
TL;DR: In this paper, the operational sustainability of decentralized technologies for wastewater management in peri-urban areas and their associated management requirements are discussed, and the importance of building the capacity of local organizations in all aspects of decentralized wastewater management is emphasized.
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Anaerobic treatment of raw domestic sewage at ambient temperatures using a granular bed UASB reactor
TL;DR: Results obtained in a 120 liter 2 m high UASB‐reactor with raw domestic sewage and using a granular sugar beet waste cultivated seed sludge reveal the feasibility of this type of anaerobic treatment for domestic sewage.
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Constructed wetlands in Flanders: a performance analysis
TL;DR: In this paper, a database of 107 constructed wetlands in Flanders (Belgium) was used to evaluate certain trends and treatment performances, and the best overall performance was obtained with vertical flow (VF) wetlands (COD, 94%; SS, 98%; TN, 52%; TP, 70%).