Water recycling at the Millennium Dome

Thames Water is working with the New Millennium Experience Company to provide a water recycling system for the Millennium Dome which will supply 500m3/d of reclaimed water for WC and urinal flushing. The system will treat water from three sources:rainwater - from the Dome roofgreywater - from handbasins in the toilet blocksgroundwater - from beneath the Dome site The treatment technologies will range from “natural” reedbeds for the rainwater, to more sophisticated options, including biological aerated filters and membranes for the greywater and groundwater. Pilot scale trials were used to design the optimum configuration. In addition to the recycling system, water efficient devices will be installed in three of the core toilet blocks as part of a programme of research into the effectiveness of conservation measures. Data on water usage and customer behaviour will be collected via a comprehensive metering system. Information from the Dome project on the economics and efficiency of on-site recycling at large scale and data on water efficient devices, customer perception and behaviour will be of great value to the water industry. For Thames Water, the project provides vital input to the development of future water resource strategies.

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PVDF Emblem⁄Micro Filter Water Recycling System

JAPAN TAPPI JOURNAL ◽

10.2524/jtappij.62.700 ◽

2008 ◽

Vol 62 (6) ◽

pp. 700-703

Author(s):

Makoto Matsushita ◽

Yoshiharu Numata

Keyword(s):

Water Recycling ◽

Recycling System ◽

Filter Water

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Design and Preliminary Testing of a Membrane Based Water Recycling System for European Manned Space Missions

10.4271/921396 ◽

1992 ◽

Cited By ~ 4

Author(s):

J. M. Barreau ◽

T. Bouet ◽

P. Amblard ◽

X. Bouisson ◽

C. Guizard ◽

...

Keyword(s):

Space Missions ◽

Water Recycling ◽

Preliminary Testing ◽

Recycling System ◽

Manned Space ◽

Manned Space Missions

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ENVIRONMENTAL POLLUTION BY WASTEWATER FROM BROWN COAL PROCESSING ¬ A REMEDIATION CASE STUDY IN GERMANY

Journal of Environmental Engineering and Landscape Management ◽

10.3846/16486897.2013.808640 ◽

2014 ◽

Vol 22 (1) ◽

pp. 71-83 ◽

Cited By ~ 6

Author(s):

Arndt Wiessner ◽

Jochen A. Müller ◽

Peter Kuschk ◽

Uwe Kappelmeyer ◽

Matthias Kästner ◽

...

Keyword(s):

Environmental Pollution ◽

Large Scale ◽

Pilot Scale ◽

Wastewater Disposal ◽

Interdisciplinary Approaches ◽

Phenolic Wastewater ◽

Term Monitoring

The large scale of the contamination by the former carbo-chemical industry in Germany requires new and often interdisciplinary approaches for performing an economically sustainable remediation. For example, a highly toxic and dark-colored phenolic wastewater from a lignite pyrolysis factory was filled into a former open-cast pit, forming a large wastewater disposal pond. This caused an extensive environmental pollution, calling for an ecologically and economically acceptable strategy for remediation. Laboratory-scale investigations and pilot-scale tests were carried out. The result was the development of a strategy for an implementation of full-scale enhanced in situ natural attenuation on the basis of separate habitats in a meromictic pond. Long-term monitoring of the chemical and biological dynamics of the pond demonstrates the metamorphosis of a former highly polluted industrial waste deposition into a nature-integrated ecosystem with reduced danger for the environment, and confirmed the strategy for the chosen remediation management.

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Corrigendum to “Results of fly ash quality for disposal options from high thermal shares up to pure biomass combustion in a pilot-scale and large scale pulverized fuel power plants” [Renew Energy 75 (2015) 899–910]

Renewable Energy ◽

10.1016/j.renene.2015.01.051 ◽

2015 ◽

Vol 78 ◽

pp. 685

Author(s):

A. Fuller ◽

M. Carbo ◽

P. Savat ◽

J. Kalivodova ◽

J. Maier ◽

...

Keyword(s):

Fly Ash ◽

Power Plants ◽

Large Scale ◽

Pilot Scale ◽

Biomass Combustion ◽

Pulverized Fuel ◽

Disposal Options

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Differences in aquatic communities between wetlands created by an agricultural water recycling system

Wetlands Ecology and Management ◽

10.1007/s11273-011-9231-5 ◽

2011 ◽

Vol 19 (6) ◽

pp. 495-505 ◽

Cited By ~ 2

Author(s):

Peter C. Smiley ◽

Barry J. Allred

Keyword(s):

Water Recycling ◽

Agricultural Water ◽

Aquatic Communities ◽

Recycling System

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Models for Determining the Electric Power Consumption in the Water Recycling System at an Industrial Enterprise

Recent Research in Control Engineering and Decision Making - Studies in Systems, Decision and Control ◽

10.1007/978-3-030-65283-8_31 ◽

2020 ◽

pp. 378-390

Author(s):

Ekaterina Kulakova ◽

Vadim Kushnikov ◽

Andrey Lazarev ◽

Inessa Borodich

Keyword(s):

Power Consumption ◽

Electric Power ◽

Industrial Enterprise ◽

Electric Power Consumption ◽

Water Recycling ◽

Recycling System

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Field Test Results for Nitrogen Removal by the Constructed Wetland Component of an Agricultural Water Recycling System

Applied Engineering in Agriculture ◽

10.13031/aea.30.10061 ◽

2014 ◽

pp. 163-177

Keyword(s):

Field Test ◽

Nitrogen Removal ◽

Constructed Wetland ◽

Water Recycling ◽

Test Results ◽

Agricultural Water ◽

Recycling System

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Further Evaporation and Final Treatment of Process-Water Concentrates

Water Science & Technology ◽

10.2166/wst.1999.0691 ◽

1999 ◽

Vol 40 (11-12) ◽

pp. 25-32

Author(s):

Paterson McKeough ◽

Leena Fagernäs

Keyword(s):

Large Scale ◽

Treatment Process ◽

Treatment Options ◽

Paper Mill ◽

Pilot Scale ◽

Forced Circulation ◽

Final Treatment ◽

Solids Content ◽

Combustion Processes ◽

Future Work

The study is part of a longer-term effort aimed at developing a separate treatment process for evaporation-concentrates of paper-mill process waters. This article deals with research on the two key processing steps; namely, the further evaporation and the final treatment of the concentrates. In laboratory experiments, various feed waters, including several different TMP filtrates, were evaporated to high dry-solids contents. The condensates recovered in most experiments contained relatively small amounts of organic matter. The extent of vapourisation of organic acids, relative to water, increased somewhat with increase in dry-solids content. Two TMP concentrates from large-scale evaporation plants were further concentrated in a pilot-scale forced-circulation evaporator. Viscosity was the factor limiting the extent of concentration. Using an evaporation temperature of about 80°C, the maximum dry-solids contents achieved with the two different concentrates were about 45 wt% and about 60 wt%, respectively. Fouling of heat-transfer surfaces was observed with both concentrates. A techno-economic evaluation of final-treatment options for alkali-rich concentrates is under way. According to intermediate results, molten-phase combustion processes would not require support fuel once the dry-solids content of TMP concentrate exceeds about 50 wt%. The aim of future work is to optimise the overall treatment process.

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Nitrifying Continuous Upflow Filters: Understanding Large Scale Plant from Laboratory and Pilot Scale Experiments

World Environmental and Water Resources Congress 2012 ◽

10.1061/9780784412312.367 ◽

2012 ◽

Author(s):

R. M. Alkhaddar ◽

E. Loffil ◽

D. A. Phipps ◽

Robert Andoh

Keyword(s):

Large Scale ◽

Pilot Scale

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Small scale water recycling systems - risk assessment and modelling

Water Science & Technology ◽

10.2166/wst.2001.0587 ◽

2001 ◽

Vol 43 (10) ◽

pp. 83-90 ◽

Cited By ~ 33

Author(s):

C. Diaper ◽

A. Dixon ◽

D. Butler ◽

A. Fewkes ◽

S. A. Parsons ◽

...

Keyword(s):

Risk Model ◽

Simulation Modelling ◽

Normal Operation ◽

Small Scale ◽

Water Recycling ◽

Salmonella Spp ◽

Pump Failure ◽

Recycling System ◽

Point Of Use ◽

Health Related

This paper aims to use quantitative risk analysis, risk modelling and simulation modelling tools to assess the performance of a proprietary single house grey water recycling system. A preliminary Hazard and Operability study (HAZOP) identified the main hazards, both health related and economic, associated with installing the recycling system in a domestic environment. The health related consequences of system failure were associated with the presence of increased concentrations of micro-organisms at the point of use, due to failure of the disinfection system and/or the pump. The risk model was used to assess the increase in the probability of infection for a particular genus of micro-organism, Salmonella spp, during disinfection failure. The increase in the number of cases of infection above a base rate rose from 0.001% during normal operation, to 4% for a recycling system with no disinfection. The simulation model was used to examine the possible effects of pump failure. The model indicated that the anaerobic COD release rate in the system storage tank increases over time and dissolved oxygen decreases during this failure mode. These conditions are likely to result in odour problems.

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