 |
|
GROWing the next generation of water recycling plants
December 09, 2005A vegetated rooftop recycling system has been developed that allows water to be used twice before it is flushed into the communal waste water system.
The Green Roof Water Recycling System (GROW) uses semi-aquatic plants to treat waste washing water, which can then be reused for activities such as flushing the toilet.
GROW is the brainchild of Chris Shirley-Smith, whose company Water Works UK is collaborating with Imperial College London and Cranfield University. The researchers are funded by the Engineering and Physical Sciences Research Council.
So-called grey water from washbasins, baths and showers is pumped up to the GROW system, which is constructed on the roof of an office or housing block. It consists of an inclined framework of interconnected horizontal troughs. Planted in these troughs are rows of specially chosen plants that gently cleanse the grey water. Trickling through the GROW framework, the plants' roots naturally take up the dissolved pollutants, leaving 'green water'. Green water is not drinkable and will be dyed with a vegetable colour to signify this, but it can be used to flush toilets or water the garden.
More than half the water used in the home and workplace does not need to be of drinkable quality yet it comes from the same pure source as our kitchen taps. Using GROW, much of the water that enters a building can be used twice before being placed into the national wastewater management system.
"We had to carefully choose which semi-aquatic plants to use. One of the most successful is water mint, whose roots have disinfectant qualities," says Professor David Butler, who oversees the project at Imperial College. The other plant species include the yellow flag iris, marsh marigold, and the common reed. They are chosen to be resistant to the pollutants they absorb. By planting more than one species, the engineers guard against an unusually dirty batch of water exceeding a particular species' tolerance level. Should one species die off, there will still be others there to continue the job until the dead plants can be replaced.
The beauty of the system is that it is not 'high-tech' in the traditional sense. "It does not require sophisticated maintenance, just tending, like any garden," says Butler.
The next aim for GROW is to see if it can be reduced in size to sit above a household water butt, making it serviceable for individual households. The team will also investigate whether the addition of an ultraviolet light can enhance the disinfection of the water. They hope to market GROW commercially in the second half of 2006.
GROW is one project in a much larger EPSRC-funded Sustainable Water Management programme (WaND) that Professor Butler oversees at Imperial. "Our overall aim is to contribute towards sustainable water management in new developments. We hope that GROW will be one of the tools that can help us achieve that goal," says Butler.
Engineering and Physical Sciences Research Council
So-called grey water from washbasins, baths and showers is pumped up to the GROW system, which is constructed on the roof of an office or housing block. It consists of an inclined framework of interconnected horizontal troughs. Planted in these troughs are rows of specially chosen plants that gently cleanse the grey water. Trickling through the GROW framework, the plants' roots naturally take up the dissolved pollutants, leaving 'green water'. Green water is not drinkable and will be dyed with a vegetable colour to signify this, but it can be used to flush toilets or water the garden.
More than half the water used in the home and workplace does not need to be of drinkable quality yet it comes from the same pure source as our kitchen taps. Using GROW, much of the water that enters a building can be used twice before being placed into the national wastewater management system.
"We had to carefully choose which semi-aquatic plants to use. One of the most successful is water mint, whose roots have disinfectant qualities," says Professor David Butler, who oversees the project at Imperial College. The other plant species include the yellow flag iris, marsh marigold, and the common reed. They are chosen to be resistant to the pollutants they absorb. By planting more than one species, the engineers guard against an unusually dirty batch of water exceeding a particular species' tolerance level. Should one species die off, there will still be others there to continue the job until the dead plants can be replaced.
The beauty of the system is that it is not 'high-tech' in the traditional sense. "It does not require sophisticated maintenance, just tending, like any garden," says Butler.
The next aim for GROW is to see if it can be reduced in size to sit above a household water butt, making it serviceable for individual households. The team will also investigate whether the addition of an ultraviolet light can enhance the disinfection of the water. They hope to market GROW commercially in the second half of 2006.
GROW is one project in a much larger EPSRC-funded Sustainable Water Management programme (WaND) that Professor Butler oversees at Imperial. "Our overall aim is to contribute towards sustainable water management in new developments. We hope that GROW will be one of the tools that can help us achieve that goal," says Butler.
Engineering and Physical Sciences Research Council
Water Recycling Current Events and Water Recycling News RSSGrowth versus global warming
Houses on stilts, small scale energy generation and recycling our dishwater are just some of the measures that are being proposed to prepare our cities for the effects of global warming.
Iowa State researchers use fungus to improve corn-to-ethanol process
Growing a fungus in some of the leftovers from ethanol production can save energy, recycle more water and improve the livestock feed that's a co-product of fuel production.
Fantastic plastic could cut CO2 emissions and purify water
A new membrane that mimics pores found in plants has applications in water, energy and climate change mitigation.
Increase in ethanol production from corn could significantly impact
If projected increases in the use of corn for ethanol production occur, the harm to water quality could be considerable, and water supply problems at the regional and local levels could also arise, says a new report from the National Research Council.
Water recycling in the textile finishing industry
The treatment and recycling of colored wastewater from dyestuffs producing and textile finishing industries have always been a non-trivial problem for the sewage engineering sector. The recycling of process water of textile mills is often hindered by remaining colour of azo-dyes after conventional wastewater treatment. Because of rising costs of emitted wastewater, lawful limits and restricted availability of water it is of great interest to introduce sophisticated techniques to achieve purification of dye effluents and to recycle process water. Approach A combined biological and chemical process for the purification of residual dyehouse liquors containing reactive azo-dyes was developed and
European research reveals secrets from the depths of the Mediterranean
Deep-sea zones which are greater than 2,000 metres in depth remain largely unexplored and difficult to reach. With this in mind, Philippe Busquin, Commissioner for Research at the European Commission, highlighted during a recent visit to Sweden the important role technology plays in ocean exploration and particularly in monitoring and observing fragile deep-sea environments. On 5 September 2001, a group of researchers who have been involved in the development and operation of a deep-sea observation station financed by the European Union will present the results of the trials they have recently been running in the Tyrrhenian Sea. The event will feature a presentation of the GEOSTAR project (G
More Water Recycling Current Events and Water Recycling News Articles
 |
Water and Wastewater Treatment: A Guide for the Nonengineering Professionals by Joanne E. Drinan (Author) This volume is the only resource that describes and explains in simple, non-mathematical terms the unit processes used to treat both drinking water and wastewater. Designed to meet the information needs of professionals without an engineering background, the text presents each unit process, states what function(s) it performs, illustrates what equipment it uses, and explains what its role is in the process of purifying or cleaning water. In addition, the book places water treatment technologies in the context of overall plant operation. In addition, it explains related topics such as plant management and environmental regulations. |
 |
Elmo's World - Food, Water & Exercise Starring: Elmo's World Elmo has adventures learning about the importance of food, water, and exercise. Genre: Children's Video Rating: NR Release Date: 10-MAY-2005 Media Type: DVD |
 |
Tierrapath.com Deluxe toilet sink water recycling system by Tierrapath.com As a retrofitted sink basin, the Tierrapath.com SinkPositive replaces a toilet tanks lid to enable a touchless hand wash with clean, supply line water before redirecting the used (grey) water to the toilet bowl for the next flush. The device provides access to clean water which is normally used to refill the toilet bowl. When used for hand washing, the water that drains from the sink is considered grey water, or used water. In this way, the bowl is refilled with grey water instead of clean water, which is considered a form of reuse. The Tierrapath.com SinkPositive easily retrofits the vast majority of toilet tanks in use today, including reduced volume (low flow) model. It is made of high-quality non-porous recyclable plastic that has been polished to match the shine of common... |
 |
Piggy and Dad Play: 4 Brand New Readers: Sledding/ Play Ball!/ Water Balloons/ Lemonade for Sale by David Martin (Author), Frank Remkiewicz (Illustrator) Piggy's activities with Dad include playing with a ball, finding that Piggy has drunk all the lemonade he was trying to sell, having a water balloon fight, and sledding. |
 |
Thank You for Recycling eco-friendly Aluminum Water Bottle by Spoontiques Each of our aluminum bottles is non toxic and is an eco-friendly alternative to plastic water bottles. They are dishwasher safe and fit most car cupholders. Carabiner is included. |
 |
The Basket Lady Recycling Basket in Water Hyacinth by The Basket Lady NOW ON SALE!!! The World's Smartest Recycling Basket is tough and refined at the same time. The rattan core body is woven over a sturdy metal frame. The lid is attached with leather hinges and includes a leather lift tab. Side cut-in handles make moving the basket a safe and simple task, even when full. Fits a paper grocery bag for use as a liner Woven with Water Hyacinth Also available in Antique Walnut Brown Click here to see the matching 2-compartment Recycling Basket No returns on sale items - read our RETURNS & REFUND POLICY SIZE INFORMATION ONE SIZE: 14.5"W x 10"D x 18.5"H **Sizes may vary slightly; read more about our BASKET MEASUREMENTS |
 |
Mavea 1001125 Elemaris XL Water Filtration Pitcher, Black by Mavea Meter lets you know when to change the filter / Giving you clear and refreshing water with every glass Dialogue Focus Feature Notes & Script Sections for each step Powerful Print Export Facility 12 Reference Outlines & Analyses 100% Cross-Platform for Windows and Macintosh Speedier, more intelligent Spell-Checker with live spell checking; Powerful Thesaurus with synonyms, antonyms, definitions and examples Ability to Merge Steps & Copy/Paste Story Tasks Insert Special Characters Feature Auto-Backup facility Integrated Check For Updates Deactivation Feature to transfer activations to another computer Improved Step & Task Highlight Feature Draggable Window Divider to customize your workspace SmartHelp to view context sensitive help with your mouse ... |
 |
Great Melodies of the Classics Johann Sebastian Bach (Composer), Ludwig van Beethoven (Composer), Georges Bizet (Composer), Claude Debussy (Composer), Edvard Grieg (Composer), George Frederick Handel (Composer), Franz Joseph Haydn (Composer), Franz Liszt (Composer), Felix [1] Mendelssohn (Composer), Jean-Joseph Mouret (Composer), Wolfgang Amadeus Mozart (Composer), Jacques Offenbach (Composer), Johann Pachelbel (Composer), Maurice Ravel (Composer), Gioachino Rossini (Composer), Franz Schubert (Composer), Bedrich Smetana (Composer), Johann II Strauss (Composer), Franz von Suppe (Composer), Pyotr Il'yich Tchaikovsky (Composer) Pillow - Roll (Scribbles) |
 |
Extreme Water Sports by HeadGames This software is BRAND NEW. Packaging may differ slightly from the stock photo above. Please click on our logo above to see over 15,000 titles in stock. |
|
Wonders in the Water [VHS] |
| © 2009 BrightSurf.com |