Going Green with Gray Water

29/06/2011

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Going green with gray waterby Larry Copenhaver on Jul. 19, 2006, under Local
Recycling a legal way to cut addiction to the garden hose

An outdoor shower lets gray-water advocate Brad Lancaster get clean and water his midtown front yard.

A blistering, long-term drought.

Water rates going up in August.

A lazy summer monsoon.

Sounds dismal for thirsty plants in southern Arizona, but there is a “brand-new” source of irrigation water and it’s already in your home.

It’s called gray water, which is water used in a shower, washer or lavatory, says Val L. Little, director of the University of Arizona’s Water Conservation Alliance of Southern Arizona, better known as the Water CASA.

Few people seem to realize that since January 2001, using gray water is legal for most irrigation, Little said. With a few alterations to a plumbing system, many homeowners can virtually get off the hose.

There are huge benefits to using gray water, even beyond the potential water savings.

Water dumped down the drain often requires electricity to pump it to a sewage treatment plant. Then a lot of energy is used to process it there.

Then more energy is required to pump the byproducts into the Santa Cruz River.

The average person creates an estimated 20 to 35 gallons of gray water per day, Little said. With about a million people living in Pima County, that means a potential 20 million to 35 million gallons of gray water is wasted every day.

An estimated 16 million gallons of gray water is produced by customers of Tucson Water, said the utility’s spokesman, Mitch Basefsky.

The gray water starts out in our homes as clean, potable water. So far this year Tucson Water customers used an average of 124 million gallons of potable water every day.

The record high consumption by Tucson Water customers this year was 49 million gallons on June 19. The all-time record for Tucson Water was 165 million gallons on July 14, 2005.

The average consumption for a winter day, when irrigation is at a minimum, is 75 million gallons.

“That leaves a lot of potential of gray water that could be used for most irrigation,” he said. “That’s why we are looking at incentives for new construction, such as discounts on building permits, to have plumbing installed to make it easier to use gray water.”

And the sooner the better, added Brad Lancaster, a gray-water use advocate and author of a book on ways to cut down on using potable water for irrigation.

To save energy, the UA graduate recommends that gravity be the only source of power, and he advises against storage tanks and pumps.

Contour your yard with depressions and berms so that water pools, and when a pool is full, the water overflows to the next depression, he said.

From a financial perspective, using gray water instead of potable water could save a family about $1.60 per month for each family member.

While saving money is not the main reason for conserving natural resources, it is an issue, Basefsky said. Tucson Water will raise rates Aug. 7 by an average of 4.6 percent, or about $1.06 per customer per month.

“But it’s one thing to say, ‘Let’s use gray water instead of pure water,’ but you’d have to replumb all those houses,” he noted. That can be easy in some homes, but virtually impossible in others.

Water CASA estimates the cost of retrofitting a home at $135 to $1,250 plus installation.

The best time to plumb a home for harvesting gray water is during its construction, said Brad DeSpain, utilities director for Marana. That’s why Marana plans in its building code to require gray water systems be mandatory in new construction.

“We are working very hard to get that accomplished, possibly to go into effect next July 1,” DeSpain said. “I don’t see any big resistance, and the town management favors it.”

He said such a change would slightly increase the cost of the home, varying according to its size and design.

DeSpain said he did not wait for the town to require using gray water. He has retrofitted his home with a system that routes gray water for irrigation.

Lancaster said he combines his gray water with water harvesting – collecting rainwater from his roof. Using both allows him to wean his trees off potable water in all but the driest of seasons.

“I advocate the creation of an oasis zone around the house, up to about 30 feet from the outside walls,” he said.

It’s especially important to provide shade on the east and west sides of the home, he said. That can reduce the ambient air temperature near the home in the summer by as much as 20 degrees.

“This becomes a dynamic passive cooling strategy so they can greatly reduce or even eliminate mechanical cooling which otherwise consumes a great deal of energy at the power station and with the air conditioners.”

Some of those trees should be fruit or nut trees that provide fresh food, he said. “On-site food production is another way to reduce energy consumption.”

Most food is trucked into Tucson and that requires energy through the consumption of fossil fuels.

“So here you are, not pumping that water, and you are not transporting that food,” Lancaster said. “You are getting healthier food because it’s fresher and you can produce it organically onsite with rainwater and gray water.”

And by using the passive basins and berms, people are not given another chore to add to their already busy schedule, Lancaster said. When the rain comes or the gray water flows, there is no other action required by homeowners.

Actually, saving water is a lot of fun, said Lancaster who installed a shower that uses solar-heated water in his side yard. “I’m jazzed about it. I know the gray water is going to irrigate my trees which cools my house and provides me with food.”

Brad Lancaster, author of a book on ways to cut down on using potable water for irrigation, recommends against storing water in tanks.

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BY THE NUMBERS

20-35: Gallons of gray water the average person produces a day

$135-$1,250: Cost of retrofitting and installing a gray water system

124 million: Gallons of Tucson Water customers use on an average day

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WHAT IS GRAY WATER?

● Gray water is wastewater from the laundry, baths, showers and lavatories

● Water from kitchen sinks and toilets in considered “black water,” which is not suitable for home irrigation.

● Laundry water from washing diapers is considered black water.

● Water from kitchen sinks and dishwashers contains food debris and grease. It is considered black water.

WHERE WATER GOES

● Homes with in-ground sprinkler systems use 35 percent more water than other homes.

● Homes with automatic timers to control their irrigation systems use 47 percent more water than other homes.

● Homes with drip irrigation use 16 percent more water than those without drip irrigation.

● Homes with gardens use 30 percent more water than those without gardens.

● Homes with access to another nonutility-water source have 25 percent lower outdoor use than those using only utility-supplied water.

Source: The Water Conservation Alliance of Southern Arizona

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CHECK LIST FOR RETROFITTING A HOME

● Direct gray water at least 4 feet away from a building foundation

● Consult a plumber if you are unsure of your own expertise.

● Get a free plumbing permit and inspection for gray water.

● If you use chlorine bleach or high-sodium detergents, plumb your system so you can dump those products into the sewer line.

● Clearly identify gray water plumbing from potable water lines.

● Make sure that tapping into your plumbing system does not damage or create problems with black water disposal.

——--

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New partnership signed

19/11/2010

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We are pleased to announce that we have signed on as a solution partner for Safe Water Systems.


This expands our current range of water saving products to include water treatment on an industrial scale. Using a proprietary electro-flocculation system with technology imported from Australia, we can clean water ranging from 2000L per day up to 1 Mega Liter of water per day.
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Rain Barrels Capture Nature's Greatest Free-Falling Resource

19/09/2010

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CNN tells me this morning that the hot-ticket item this Christmas will be socks and underwear, signs of a still-slow economy.

But I already have my Christmas wish: a rain barrel.


The roof of the "Turtle House" near Bisbee, Arizona, is designed to flow rainwater into storage barrels. (Photo: Jeff Topping/Reuters)

In many countries, from the urbane and wet (France) to the remote and super-dry (northern Chile), I’ve seen family households putting big plastic barrels to good use collecting the rain. Sometimes the barrels are mounted on rooftops, sometimes sitting on the ground and hooked to gutter systems, sometimes half-buried in the ground.

While I’m used to seeing paired SUVs in American driveways, and mandatory satellite dishes, rain barrels are not a typical accoutrement in our suburbs.

But a quick Google search (“rain barrels”) unveils both a booming commercial business in buying and selling them and a whole subculture sharing tidbits on how best to use them.

The benefits are straightforward: cheap (free?) water to use for gardening, washing cars, flushing toilets and in washing machines lowers water bills. Some barrels can even be used to capture drinking water.

On top of that, accumulating rainwater—especially in urban/suburban areas—limits the amount of runoff carrying garbage, fertilizers and other pollutants down gutters and into fresh waterways.

So rain barrels are also good for the ocean.

For a long time, I believed (urban legend?) that the use of rain barrels in California was illegal. The argument was that in a state that occasionally goes very dry, the government wanted all of that free-flowing stuff falling from the sky to help fill creeks and aquifers.

Actually, it's Colorado that has legislated against individual rain barrels, claiming states water rights.

The rights to free-flowing waters—pitting private property owners against the state—have been long fought over in the Western states. If you believe, as many do, that private citizens “own” the water flowing through their property, then collecting rainwater from above their river, creek or stream deprives them of water that should be legally theirs.

“First in time, first in right,” is the long-respected rule. Only in 2009 did the Colorado state legislature permit capturing of rainwater for residential use. Collection must be permitted by the State Engineer’s office and is subject to restrictions.

On the opposite end of the spectrum, Californians are among the leaders in rain barrel technology; the use of barrels is encouraged to help avoid the floods that often accompany downpours in the state.

Other cities/states argue for barrels as a way to help keep clean water separated from sewage water. In Bridgeport, Connecticut, for example, the Mayor’s Conservation Corps converts old food storage barrels into rain barrels and gives them for free to low-income families.

Health agencies in developed nations warn against using rainwater for drinking water. In “developing countries,” mosquito nets and proper filters are used to make rainfall fit for human consumption.

When you’re shopping for a Christmas barrel, consider the range of available materials from plastic to concrete, galvanized steel to fiberglass and stainless steel. Keeping barrels above ground, and slightly opaque, helps control algaes and bugs. Vancouver, Canada, residents have competitions to design the most “eye-catching” 50-gallon barrels.

How big is big enough? Solar Survival Architecture recommends a 300-gallon tank for a house supporting two people.

The current state-of-art rain capture system is a modular, scalable system that can be installed underground, especially in new construction, thus maximizing utilization. But a 50-gallon blue plastic drum duct-taped to your chimney works too.

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No-Touch Waterless Urinals at Home?

31/08/2010

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The no-touch, no-flush, waterless urinal is coming to a bathroom near you.

GreenBuildingAdvisor.com is reporting that the Waterless Company, which invented the non-water-using urinal in the early 1990s, will ship a waterless urinal tailored for the residential market this week.

According to Building Green, the Baja urinal is a no-flush, touch-free appliance that sells for $248.

Company President Klaus Reichart toldGreen Building Advisor how the savings are calculated:

If there are two males in a home, each using the urinal three uses per day, times 340 days at home, the Baja urinal will replace about 2,040 toilet flushes per year, providing annual water savings of about 3,250 gallons (assuming 1.6 gpf toilets). The savings go up with more males (family members or friends).

According to Jetson Green, the waste filtration system works in the following manner:

Baja is made with a patented EcoTrap system. Basically, fluid flows down into the drain insert and passes through BlueSeal, which is a biodegradable trap liquid that's lighter than water or urine. After about 20 seconds, waste liquid overflows into the central tube and down the drain.

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GREEN ROOFS THAT MELT THE MIND, NOT THE HOUSE

20/07/2010

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Turns out that there's a lot going on upstairs. Green roof tech is heating up -- or rather, getting cooler, and the masterminds behind two promising sustainable rooftop inventions are actually still in high school.

Even though 1980s clothes are considered vintage and I had to explain to the girl who bought my old manual camera that it required this stuff called "film," the annual Lemelson-MIT EurekaFest reminds me that the kids are alright. More than alright -- they're going to save us. I'm a little late to be talking about the mid-June gathering of high school teams that come up with problem-solving inventions because of my cross-country move, but making a better roof is timeless.

Want plants on your house but have a funky-shaped roof? No problem. The team from Hillside New Tech High School in Durham, North Carolina, came up with a structure that makes it possible to grow plants on sloped rooftops. Their lattice-system contains modified roof air vents and vine boxes lined with polyurethane foam that anchors the plants, replacing soil. Clamps attached to the roof's sideboard hold the lattice in place. The system costs $10 to $20 per square yard.

"The object of the invention is to have the vines grow through the lattice to cover the roof and provide natural shade," explains Sidhartha Jandhyala, a student member of the Hillside team. "Also, we are targeting storm water runoff and the urban heat island effect." A hydroponic system with a solar-powered water pump sends rainwater from a collection barrel to the plants through drip irrigation.

When it rains, the water is captured by the rain barrels instead of running off and leaking pollution into nearby streams and lakes, says Victor Abiona, another student on the team. Hillside currently has a prototype of the roof on the school campus that the team is testing. Ultimately they'd like to patent it and get the structure onto local rooftops in Durham. 

Washington County Technical High School from Hagerstown, Maryland, invented a color-changing roof that lightens in hot weather and darkens when it gets cold. Their system reminds me a little bit of the temperature-sensitive Thermeleon roof tiles that a group of MIT grads created last year from polymer sandwiched between flexible plastic, except it has a different mechanism. Their system has a gear-driven system of black and white tubes that run perpendicular to the roof's drip edge and rotate at pre-determined temperatures. The whole thing can switch from dark to light. During the winter, warm air collected in the tubes could potentially be pumped back inside the house.

"The system can run on very low voltage," says Alan Zube, a pre-engineering teacher at the high school who mentored the team. "The needed energy could easily be generated with a 20W photovoltaic cell mounted on the roof." Initially the team used PVC for the tubes but found after testing that aluminum would work better. Eventually the team would like to realize a full-sized prototype of their invention.

Solid rooftops can last lifetimes so I'm relieved that these high school kids are focused on this crucial part of green building now. Perhaps by the time the students reach middle age, most rooftops will be able to take care of themselves.

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South Africans Turn to Fog Harvesting for Water

15/07/2010

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Ben Murray
Villagers in a drought-stricken region of South Africa have taken up a simple and novel method of supplementing their water supply as dry conditions plague their area: fog harvesting. 

Designed to catch moisture from the air in a region that sees frequent fog but little rainfall, the system involves a series of sheets or "fog nets" that are stretched between pillars and hang over a catchment gutter collecting droplets,Reuters AlertNet reports.

The mesh sheets pick up the tiny droplets, which then run in a gravity-fed system through a filter to a storage tank for use by the residents of Cabazane, a remote village of just 180 residents.

With up to five liters of water per day produced by every square meter of fog net, at 700 square meters the system can provide thousands of liters of water daily, depending on conditions.

Fog harvesting isn’t a brand-new idea—researchers have been experimenting with its modern form since the 1960s, and the idea may go back thousands of years in arid regions.

In recent years, a number of areas have tried the water-collection method. In the islands of Cape Verde off the east coast of Africa, fog nets set up in 2005 can collect up to 4,000 liters of water a day in good conditions, in an area where clean water is hard to come by. 

Fog harvesting projects have been set up in Morocco, Chile, Peru, Nepal, Guatemala and other places.

The fog collection method is a functional solution for small or remote communities because it’s inexpensive to set up: the Cape Verde project cost around $12,000, and the Cabazane nets went up for $40,000, as opposed to millions it could take for a regular municipal water system.

The systems also require no power to run. New filters and net repairs are the basic maintenance requirements. Drawbacks generally come from dust and debris that blow into the nets and spill into the water as it collects.

Often resembling volleyball nets, the fog-catchers are made of plastic mesh and championed by groups like FogQuest, which specialize in setting up the collection projects.

And for those really interested in the technology, the 5th International Conference on Fog, Fog Collection and Dew is right around the corner. The summit, which has taken place every three years since 1998, will be held in Munster, Germany, July 25 to 30 this year, and will cover a range of fog-related topics.

Sessions on fog chemistry, fog physics, fog sensing and fog modeling are all on the agenda, at an event that bills itself as “a unique melting pot for scientists and applied users of fog and dew collection techniques from all continents.”

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Rainwater harvesting and greywater recycling to reach a new level

09/07/2010

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23 Days until our official launch.


What do we do? We install rainwater harvesting solutions, greywater recycling solutions, irrigation and low-flow showerheads.


These quality products help you to reduce, re-use and recycle your water and saves you money. With recent steep increases in water and electricity prices, households need to find ways to lessen this impact on themselves. Our range of products will help households to do that.


These rainwater harvesting and greywater recycling installations also have the added effect of increasing the value of your property.
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Water, water, everywhere and not a drop to drink

05/07/2010

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The Department of Water Affairs (DWA) has indicated that desalination plants could account for between 7% and 10% of the country’s overall urban water supply by 2030. According to the National Water Resource Strategy, a number of regions could be in significant water deficit by 2025 if steps are not taken to implement change, so it seems likely that desalination could be used as a solution for these areas.

Although about 70% of the planet Earth's surface is water-covered we can only use 1% of that, 97% being in the oceans and 2% within the ice caps of the poles. (USGS).  This makes desalination an important resource as it gives us the ability to tap into that other 97% of water that is otherwise unavailable to us. 

In her budget vote speech Water Affairs Minister, Buyelwa Sonjica, announced her department’s decision to go ahead with water desalination because of the unavailability of river water due to the current drought in certain areas of the country.

Desalination refers to a group of technologies that remove salt from water and can therefore be used to purify water for domestic use. It is commonly used in the industrial sector to treat water and wastewater however it is becoming more popular in the domestic water market as municipalities across South Africa are experiencing severe droughts and are looking into desalination as an option. 

Three years ago Australia was in a similar situation and so installed a desalination plant, called the Kwinana Desalination Plant, in Perth which became the city’s largest source of water. The water comes from a pipe that in the nearby sea and it takes about half an hour of treatment before the water is fit for consumption. While desalination plants consume a large amount of energy the Kwinana Desalination Plant makes use of wind energy from a nearby facility. This makes it a particularly good example of a sustainable operation that has risen out of the necessity. 

With various towns in South Africa already implementing desalination plants it seems that this process is set to become a more common one as the water crisis in certain areas continues. While there are a variety of issues to consider when implementing a large scale desalination plant, such as energy consumption and the potential damage to the ocean’s eco-system from the waste product of brine, new technology has been developed that could lead to small, portable desalination units.

This new technology is being developed by researchers at MIT and in Korea. The systems could be powered by solar cells or batteries and will be capable of supplying fresh water to a family or a small village. The system will also remove many contaminants, viruses and bacteria during the desalination process.

This new technology is called ion concentration polarisation and it works on a microscopic scale with each individual device only processing minute amounts of water, but a large number of them could produce about 15 litres of water an hour. The whole unit could be self-contained and driven by gravity, with salt water being poured in at the top, and fresh water and concentrated brine collected from two outlets at the bottom. 

The researchers have successfully tested a single unit that removed 99% of the salt and other contaminants that they deliberately polluted the water with beforehand. The amount of electricity used by this method is slightly more than for a present large-scale method such as reverse osmosis (the most common method currently used in South Africa). However, this is the only method that can produce small-scale desalination with this level of efficiency. The proposed system could, if properly engineered, only use as much power as a conventional lightbulb. 

Reverse osmosis uses membranes that filter out the salt, it requires strong pumps to maintain the high pressure needed the push the water through the membrane and is subject to fouling and blocking of the pores in the membranes. This new system separates salt and microbes from the water by electrostatically repelling them away from the ion-selective membrane in the system, this should eliminate the need for high pressure and the problems of fouling.

While smaller desalination units will still have the same issues as the larger plants they could provide an emergency alternative that could be used as a back up in areas that are experiencing drought.

Sources:
http://www.engineeringnews.co.za/article/desalination-could-comprise-10-of-sas-urban-water-supply-mix-by-2030-2010-03-05 
http://www.sciencedaily.com/releases/2010/03/100323161505.htm 
http://ga.water.usgs.gov/edu
http://www.npr.org/templates/story/story.php?storyId=11134967 http://www.engineeringnews.co.za/article/sa-looks-to-sea-to-meet-growing-water-demand-2010-04-15-1

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Save water, Joburg urged

23/04/2010

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The theme of National Water Week this year is "Together we can save more water", and Johannesburg is working hard to get the message out.

Written by JeVanne Gibbs   Wednesday, 17 March 2010
JOHANNESBURG Water is celebrating National Water Week this week, and aims to educate people about and raise awareness of water conservation. The theme this year is "Together we can save more water".

Water is a precious resourceWater Week, running this year from 15 to 21 March, is celebrated annually, often to coincide with World Water Day on 22 March. It calls on residents to appreciate the value of water as a scarce natural resource.

"We are excited about this year's event as this will be the 10th year Johannesburg Water is participating to demonstrate its continuous support for this initiative by the Department of Water Affairs," said Baldwin Matsimela, Joburg Water's manager of marketing and communications.

"As part of our celebration and participation, [Joburg Water] will embark on a public education campaign across Johannesburg with the primary objective of highlighting and profiling key issues affecting the state of water and sanitation across the city."

The campaign aims to continue educating and raising awareness. This awareness is complemented by the responsibility of every resident to ensure the integrity of water resources and their efficient use.

Water was a precious, yet limited natural resource, Matsimela pointed out. Predictions from experts pointed to the fact that demand on water resources would continue to increase at a rapid pace in the coming decades. Africa, the Middle East, and Central and Eastern Asia would be affected the most.

It is against this backdrop that this year's campaign aims to ensure efficient and responsible use of water by all stakeholders from all spheres of life such as communities, commercial and other related industries. This will assist in meeting economic growth targets, not just of the city, but of the entire country by ensuring that every citizen has access to this precious resource and by catering for future generations.

Joburg Water is running education programmes during National Water Week"As the entity responsible for water and sanitation ... we have identified [certain] areas as the focal points to educate and raise awareness of water conservation," Matsimela said.

These areas include:

  • Eastbank Ultrek Community Hall in Alexandra on 15 March;
  • Orange Farm Multipurpose Centre in Orange Farm on 17 March;
  • Rabie Ridge Community Hall in Midrand on 19 March; and
  • Joubert Park in Central Johannesburg on 21 March.
"Planned activities for the week-long celebrations at the venues will include public education on water conservation; the role of Johannesburg Water in the city; distinction between Johannesburg Water and other water entities/authorities; and creating a platform to report service delivery challenges; as well as the importance of community participation in water conservation activities, to name a few."

To save water, the utility appeals to people to take note of the following tips:

  • Verify that your home has no water leaks and read your meter regularly;
  • Check for hidden leaks by closing all the taps to make sure there is no water running - then check if your meter is still running - if it's running, there is a leak;
  • Do not use running water to thaw meat or other frozen foods;
  • Turn off taps while washing your face, brushing your teeth or shaving;
  • Use a bucket rather than a hosepipe to wash your car - a garden hosepipe could use as much as 30 litres of water a minute;
  • Avoid flushing toilets unnecessarily - dispose of tissues and other waste in a rubbish bin rather than the toilet;
  • If a toilet gets stuck in the flush position causing water to run constantly, replace or adjust it immediately;
  • Never put used water down the drain when there may be another use for it such as watering the garden; and
  • Take shorter showers and replace showerheads with ultra-low-flow versions to save water.
"The quality of our tap water continues to be rated among the best in the world, and to ensure that this status is maintained, we routinely sample over 500 drinking water samples per month from various points across the city," Matsimela added.

"We remain committed to ensuring that service levels improve continuously as we strive towards providing Johannesburg, a world-class African city, with world-class water and sanitation services."



Read more: http://www.joburg.org.za/content/view/4954/266/#ixzz0luhp1FpM
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