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| Water buildings (63) | |
| Water engineering (101) | |
| Water industry (240) | |
| Water infrastructure (53) | |
| Water purification (31) | |
and financing to find solutions to pressing problems such as water treatment and renewable energy. Over 60%of Saudi water comes from desalination an expensive process
like drinking water and energy but these entrepreneurs are building a different economy. audi is the largest consumer of Youtube content per capita in the world,
such as poor access to clean water, the high costs of joint replacement surgery and slow responses to natural disasters.
a company that has developed Life, a small, lightweight and low-cost water purification device without the complexity,
such as poor access to clean water, the high costs of joint replacement surgery and slow responses to natural disasters.
a company that has developed Life, a small, lightweight and low-cost water purification device without the complexity,
For instance its Columbus Ohio Renewable energy Facility processes up to 25000 wet tons of biosolids from the City of Columbus Department of Public utilities for wastewater.
The most likely projects for WCX are new development and the retrofit of the region electricity grids and water infrastructure.
and human activities, such as leakage from natural gas systems and the raising of livestock. uman activities such as agriculture, fossil fuel combustion, wastewater management,
a glass of delicious drinking water. The occasion was a tour of a facility that burns human waste
and their frequent lack of adequate drinking water and electrical power. Waste piles up in latrines or in open fields
But western-style toilets require sewage lines and treatment plants that aren feasible in many places.
The Omniprocessor, designed by Seattle-area engineering firm Janicki Bioenergy, reinvents the sewage treatment plant. In the Omniprocessor, sewer sludge is fed into tubes
and boiled, producing water vapor which is purified for drinking. The dry solids are fed then into a fire,
Sewersludgethe Omniprocessor turns sewage into water and electricity. Photo credit: Gatesnotes. com Those entrepreneurs would make money from the sludge they remove from the environment,
#Flood alert Dams that protect urban areas from flooding sometimes fail, resulting in catastrophic damage. But what can be done to prevent such disasters?
here are 48 sensors constantly telling us how this dam is feeling and how it behaving.
This technology makes this the smartest dam in the world. The underground sensors, developed within a European union research project, transmit measurements to data centres in several countries.
This device measures the amount of water in the dam and many other parameters such as the underground temperature,
and the movement of the sensors inside the dam. These indications can be followed in real time using any internet-enabled device.
or three times a year we got people viewing the asset the dam from a visual point of view.
if the dam fails, and even suggests the best ways to move citizens into safer areas.
Using tap water, it was tested on excavation equipment and went beyond any initial expectations.""All the components passed the functional tests,
#Aquaszero#New product to make drinking water safer Aquaszero New product to make drinking water safer Arsenic may be found as a water
Fotolia, 2012 Drinking water with high arsenic levels leads to skin diseases and disorders in blood vessels. It gradually evolves into cancers that can attack the bladder,
but two types of arsenic are found in drinking water. One type of arsenic (As V) is removed easily,
Known as Aquaszero, the product can be used in existing water treatment filter cartridges where the arsenic bonds firmly to the Aquaszero granules.
Behind the development is led by a consortium Loufakis Chemicals SA in association with three SMES involved in water engineering,
Loufakis Chemicals SA expects that this low-cost material will be used widely as the adsorbent media in new water treatment plants,
and may replace the conventional materials in existing water treatment systems. It can be applied in water treatment for both industrial and domestic use."
"In many parts of the world the permitted limits set by the World Health Organisation (WHO)
"The most severe problems with arsenic contamination in the world are found in Bangladesh where more than 95 percent of the water supply for more than 138 million people is contaminated potentially at levels exceeding permitted international limits.
A low-cost solution can be the use of Aquaszero filters to treat the drinking water, "adds project coordinator Koukiotis.
European researchers and their international partners have developed a new way to purify drinking water, dubbed the amily filter'because of its ease of use and affordability for even the poorest families.
In Bangladesh alone, up to 44%of the population is exposed to arsenic-laced drinking water, the World Health Organisation (WHO) estimates.
Thankfully, European researchers and their international partners at UNESCO's Institute for Water Education (IHE) in Holland have perfected a simple, efficient and importantly low-cost water filtration device
which removes arsenic from contaminated drinking water. The filter uses iron oxide-coated sand which absorbs the arsenic from water at the oint of use
rom the very beginning, it was clear to us that a oint of use'system was the only feasible approach in the short term for rural areas of developing countries with no piped water supply,
The iron oxide-coated sand is a by-product of large-scale water treatment initially, it will have to be imported into the countries with no equivalent treatment plants in built-up areas it needs no added chemicals,
These have helped stretch water supplies and have been so successful that many areas of the state are using about the same amount of water today as they were 10 and 20 years ago, even with population growth.
and water supplies and produce greenhouse gas emissions that contribute to climate change, the paper says. Brighter Green, the organization behind the paper, wants policymakers to take notice of the consequences of dairy CAFOS
Arsenic finds its way into drinking water supplies through natural or human-made sources affects millions of people worldwide
Water treatment plants could use large biochar filters to extract the arsenic. Homeowners could use a small filter attached to their tap.
which is located in the dam applearea of the neck, is now the fifth most common cancer diagnosed in women.
In their experiment the engineers dropped their time capsule into a solution that began as clean water
Arsenic finds its way into drinking water supplies through natural or human-made sources affects millions of people worldwide
Water treatment plants could use large biochar filters to extract the arsenic. Homeowners could use a small filter attached to their tap.
This platform is essentially a canal system with the main canal just 30 micrometres wide three times thinner than a human hair.
Several inflows and outflows lead to and from the canal at right angles. The platform was developed by Vogel s Phd student Dirk Steuerwald
Five inflows and outflows direct the current in the main canal and divide it into strictly separated segments:
#System turns cow poop into clean water Scientists are developing a system that can take cow manure
While turning the manure into clean water makes environmental sense the team also is conducting research on how it can make good financial sense for farmers.
the accessibility of clean water could make the difference between a farm remaining viable or going out of business.
and has added the benefit of cleaning up the wastewater, will allow producers to reincorporate the ethanol
traditional approaches see producers pay hefty fees to have hauled toxic wastewater off to treatment plants,
and human activities, such as leakage from natural gas systems and the raising of livestock. uman activities such as agriculture, fossil fuel combustion, wastewater management,
special filters for water purification; new types of sensors; and computer memory. Cellulose could come from a variety of biological sources including trees plants algae ocean-dwelling organisms called tunicates
They can now produce current from contact between waterâ##sea water tap water and even distilled waterâ##and a patterned polymer surface.
which can act as molecular ievesto separate liquids and gases one molecule at a timeâ##a property that shows promise for applications such as water purification water desalination and gas storage.
#Colonies of wired microbes turn sewage into electricity Stanford university rightoriginal Studyposted by Tom Abate-Stanford on September 19 2013a new way to generate electricity from sewage uses naturally occurring ired microbesas mini power plants
Scientists hope the icrobial batterycan be used in places such as sewage treatment plants or to break down organic pollutants in the ead zonesof lakes
and looks like a chemistry experiment with two electrodes one positive the other negative plunged into a bottle of wastewater.
Engineers estimate that the microbial battery can extract about 30 percent of the potential energy locked up in wastewater.
Of course there is far less energy potential in wastewater. Even so the microbial battery is worth pursuing because it could offset some of the electricity now used to treat wastewater.
That use currently accounts for about 3 percent of the total electrical load in developed nations.
Most of this electricity goes toward pumping air into wastewater at conventional treatment plants where ordinary bacteria use oxygen in the course of digestion just like humans and other animals.
or by swilling the coals in any remaining cooking water and pouring into a small hole nearby.
and docks with the teats using a 3d camera and lasers. Another feature is a set of counter-rotating brushes that automatically clean the teats of dirt
and photocatalysts Drinking clean water is something that many people in the world can't take for granted as they rely on polluted sources
In response to that problem Panasonic is developing a new technology that looks to the sun to clean water extracted from the ground.
and photocatalysts to purify polluted water at a high reaction rate to improve access to clean water where it's needed.
If some wise guy wants to make the sewage pumps run backwards the system will shut that down.##
and many are beginning to think in terms of houses that generate their own water supply, self-irrigating crops,
Fogquest is a Canadian nonprofit that uses modern fog collectors to bring drinking water and water for irrigation and reforestation to rural communities in developing countries around the world.
and turns them into drinking water at a rate of roughly 4-5 gallons a day.
Will atmospheric water extractors replace city reservoirs, dams, water towers, and our elaborate network of fire hydrants throughout every community?
To feed the chemical reaction from the aluminum-air battery drivers using a test car like this would add tap water every month
The process of trapping sunlight also produces water that can be used to produce potable water and other modern day amenities such as air conditioning.
#Virtual Curtain technology treats mining wastewater A new cost-effective technology to treat mining wastewater and reduce sludge by up to 90 per cent has been used for the first time at a commercial mine.
The technology, called Virtual Curtain, was used to remove metal contaminants from wastewater at a Queensland mine
Sludge is a semisolid by-product of wastewater treatment and reducing the amount produced has huge environmental and economic benefits. ur treatment produced only a fraction of the sludge that a conventional lime-based method would have allowed
Given the Australian mining industry is estimated to generate hundreds of millions of tonnes of wastewater each year,
Dr Douglas and his team developed the technology after discovering that hydrotalcites could be formed by adjusting the concentrations of common wastewater contaminants, aluminium and magnesium,
to an ideal ratio and then by increasing the ph. y using contaminants already present in the wastewater we have avoided the need for expensive infrastructure
the treated water can be purified much more efficiently via reverse osmosis and either released to the environment
and Chile. t is a more efficient and economic way to treat wastewater and is enabling the global mining industry to reduce its environmental footprint and extract wealth from waste.
The property is also five times more water-efficient than the normal house, with low-flow fixtures and short-run hot-water pipes.
Street lamps kept aglow by sewage sludge. An entire town filled with chicken manure-heated homes. The latest initiative in England that's transforming landfill-bound organic waste and excreta into bio-based fuel?
That is the conversion of waste n this case both locally sourced food waste and human sewage nto a methane-rich biogas.
(or biomethane as they might say across the pond) gas which requires the annual waste of five people to produce according to the operator of the Bristol sewage treatment works GENECO.
Through treating sewage and food that unfit for human consumption wee able to produce enough biomethane to provide a significant supply of gas to the national gas network that capable of powering almost 8500 homes as well as fuelling the Bio-Bus. Gas-powered vehicles
Roughly 75 million cubic meters of sewage and 35000 metric tons of food waste collected from households along with local grocery stores and food manufacturers is treated annually at Bristol sewage treatment works located in the suburb of Avonmouth.
The facility is capable of producing an estimated 17 million cubic meters of biomethane from this waste each year.
and be converted to run on Bristolian sewage and food scraps o
#Quantum'entangled'light sharpens microscopes'images The first microscope that uses the eerie trick of quantum entanglement to increase its sensitivity has been developed by Japanese researchers.
condom-reinventing Microsoft cofounder didn actually drink human excrement Sedro-Woolley-produced sewage sludge at its finest.
and funded by the Bill & Melinda Gates Foundation as part of the foundation ongoing mission to bring clean drinking water and safe means of sanitation to developing parts of the world.
Designed as a low-cost sewage treatment plant, the Omniprocessor was developed to tackle the same problem but on a larger scale.
Human waste (in this case, raw sewage pumped in from a nearby sewage treatment plant) enters the machine via conveyor belt
mostly) that generates not only clean drinking water but electricity used to power the machine itself. Any leftover electricity generated through the process is fed back into the power grid.
a glass of delicious drinking water. The water tasted as good as any Ie had out of a bottle.
000 people and, from that, produce 86,000 liters of clean water on a daily basis while also generating a net 250 kilowatts of electricity.
the Gates Foundation will promote the building of self-powered Omniprocessor facilities in other parts of the world (Gates specifically mentions India) where clean drinking water
usually via drinking water supplies that have been contaminated by human waste. Gates envisions that each Omniprocessor will be built and operated using a micro-entrepreneurial model where local residents would benefit economically from the facilities. he processor wouldn just keep human waste out of the drinking water;
it would turn waste into a commodity with real value in the marketplace. It the ultimate example of that old expression:
physicians joke about adding statins to drinking water, and some hospitals reward doctors when patients hit cholesterol targets.
They found that the molecules had very similar structures in the areas where serotonin docks.
which have stopped fans and air conditioners from working and interrupted Karachi water supply
#Floating, Touchable'Fairy Lights'Unveiled A team of researchers from Japan has found a way to use a high-speed laser to create a touchable plasma display in mid-air.
and dock with an orbiting module. The mission is the last of three scheduled experiments designed to help astronauts master the skills for building
spinning out nanofibers for use in water filters body armor and smart textiles; or propulsion systems for fist-sized nanosatellites.
Originally designed to look for cracks in nuclear reactors water tanks the robot could also inspect ships for the false hulls
The work was supported by the MIT-KFUPM Center for Clean water and Clean energy y
#Light pulses control graphene s electrical behavior Graphene, an ultrathin form of carbon with exceptional electrical optical and mechanical properties, has become a focus of research on a variety of potential uses.
As a side benefit the system could also produce clean water. The device itself could be simple Miljkovic says consisting of a series of interleaved flat metal plates.
and water companies the system can also detect leaks in water pipes, or in petroleum pipelines about setting up field tests under real-world conditions.
Leaks in water pipes can waste up to half the water in a system; oil-pipeline leaks can lead to toxic spills and prolonged, expensive cleanup operations.
The research was supported by KFUPM through the Center for Clean water and Energy at MIT f
and self-docks in case of emergencies eliminating the need for manual labor. When winds are low typically we want to go as high as possible
which protects the system s electronics from lightning strikes will self-dock. Because the BAT is advanced an aerostat platform Glass says customers can use it to lift additional payloads such as weather monitoring and surveillance equipment.
#Brewing up sustainability Each day, breweries and wineries produce thousands of gallons of wastewater, which is poured either down the drain
and create power from wastewater. The company which aims to leverage biotechnology as a way to solve environmental issues is also modifying their system to generate value from wastewater in agricultural and military fields,
and to convert carbon dioxide to fuels for applications On earth and in space. Today industrial infrastructure manages basic resources linearly
now the company chief technology officer. he treatment of wastewater, for example, consumes over 3 percent of the electricity in the United states,
yet organics in the wastewater have energy that can be extracted and used locally, Silver says. nd that the case for a lot of waste products in general.
In these units, microbes called xoelectrogensexecute a unique process, electromethanogenesis which is being used for the first time ever in treating wastewater.
consume the wastewater remaining organic pollutants and, in the process, generate electricity. This electricity travels through a circuit and onto cathodes coated with separate microbes that consume that electricity
This process enhances naturally occurring anaerobic digestion in wastewater Silver says, as it stabilizes treatment, improves biogas quality,
Treated wastewater exits the reactor with 80 to 90 percent of pollutants removed, so it can be used for irrigation, equipment washing,
The system can treat 10,000 to 1 million gallons of wastewater daily. At that rate, a winery would shave about 2 pounds of CO2 per case off of its carbon footprint
through carbon-free energy generation and avoiding municipal wastewater treatment ffectively planting over 4, 400 acres of trees in a year,
It could also eliminate 10 trucks of wastewater shipping per day for Lagunitas. All in the design Increasingly, the beverage industry has employed anaerobic and aerobic wastewater treatment processes
but these are expensive and difficult to adopt, Silver says. Aerobic processes dissolving air into wastewater,
where aerobic microorganisms degrade pollutants consume a lot of energy and generate biosolids (organic materials) that are managed at cost.
and wastewater pollution is rising, causing many companies to consider water risk in their overall strategy.
To that end, Cambrian is working on other projects that leverage exoelectrogenic microbes to treat wastewater. One project, called Biovolt, is powered a self water treatment system for U s army forward operating bases that treats wastewater
and generates electricity to power itself. Another project, funded by the National Science Foundation, uses exoelectrogens to sense nitrate in wastewater, cheaply and with very high specificity,
for the agricultural industry. arth as a spaceshipecovolt is valuable today as a solution to Earth water issues.
This made exoelectrogens a third and largely better candidate for wastewater treatment, over aerobic or anaerobic methods.
Launching Cambrian with a Department of agriculture grant to focus on agricultural wastewater, the team soon moved to its current Boston headquarters.
They shopped their phages to bacteria-plagued industries such as oil and water treatment, where biofilms build up in pipelines before seeing firsthand that the food industry as in desperate need of new detection technologies.
hoists for workers at dams, buildings, bridges, and massive wind turbines; as well as for first responders. here a broad spectrum of users people who use rope access as part of their work for
hormone-disrupting chemicals used to soften plastics, from wastewater; BPA, another endocrine-disrupting synthetic compound widely used in plastic bottles and other resinous consumer goods, from thermal printing paper samples;
#Nanoparticles for clean drinking water One way of removing harmful nitrate from drinking water is to catalyse its conversion to nitrogen.
if they enter the mains water supply. Levels have fallen significantly in recent years as a result of various European directives.
but it will still be necessary to treat the mains water supply. While this can be achieved through biological conversion (using bacteria to convert the nitrate to nitrogen gas),
so they do not end up in the mains water supply. However, it is important to stop them clumping together,
This has brought the further development of catalytic water treatment (in compact devices for home use, for example) one step closer.
or be used in water treatment. The uses are expanding constantly and have been constrained mostly by their cost.
which is added often to water purification units can upset your gut. The discovery is important as people are being exposed to nanoparticles every day.
They believe it can be used to improve electrical energy storage water filtration and radiofrequency shielding in technology from portable electronics to coaxial cables.
They also intercalated with a polymer called PDDA (polydiallyldimethylammonium chloride) commonly used as a coagulant in water purification systems.
which means that it could have uses in water treatment systems such as membrane for water purification or desalinization because it remains stable in water without breaking up
spinning out nanofibers for use in water filters body armor and smart textiles; or propulsion systems for fist-sized nanosatellites.
The results indicate little risk to humans ingesting the particles through drinking water say scientists at Duke's Center for the Environmental Implications of Nanotechnology (CEINT.
or other animals drinking water after a potential spill or other contamination event the accumulation in sediment does pose concerns for both sediment-dwelling organisms
#New graphene framework bridges gap between traditional capacitors batteries Researchers at the California Nanosystems Institute (CNSI) at UCLA have set the stage for a watershed in mobile energy storage by using a special graphene material
You could print a MASSIVE heat exchanger to reclaim heat from waste water power plants your house...You like fresh air
#Sewer Sensors Detect Homemade Bombs As They're Being made Could the secret to finding illicit explosives labs before they harm anyone be hiding in a city's poop?
A European union-funded research project spearheaded by the Swedish Defense research agency FOI aims to sniff out the telltale signs of bomb-making through the sewer system.
It would position sensors throughout sewers to alert authorities when traces of chemicals used to make explosives get flushed down the drain
and will be put to the test in actual sewers next year. Scientists have looked previously into sewer sensors as a way to examine drug usage on a citywide level.
Poop! It holds so many of our secrets.##New Scientist S
#Drug Cures Mice Of Down syndrome With A Single Dose Cure Down syndrome with a single injection?
I never swim in other's sewage r
#How To Detect Counterfeit Drugs Growing up in Pakistan in the 1980s, Muhammad Zaman and his family always knew which pharmacy to trust
and onsite micro hydro turbine systems will power a cluster of five remote outbuildings. 3) San francisco startup Cruise Automation is making a $10, 000 sensor system (due out next
The two robots communicate their positions converge to a common docking location and the dock successfully both indoors and out.
The device could be used to test water near mining sites, water treatment plants or just about anywhere clean,
dams and barriers designed to defend the land from flooding. So far, the machine biggest wave reached just over 16.4 feet,
the micromotors removed 88 percent of the carbon dioxide in the same timespan. n the future, we could potentially use these micromotors as part of a water treatment system,
adding that in the future, these micromotors could likely be used as part of a water treatment system, like a water decarbonation plant e
or sewage can be a tedious, time-consuming process. Also, each family of bacteriophages can have a different genome organization
and forcing the city to shut down four water filtration plants. The city government said operations resumed at two plants on Wednesday
#Liquidity Launches To Bring Clean water To Everyone Liquidity Nanotech is trying to change the world.
The company is launching today onstage at Disrupt NY 2015 with the Naked Filter, a consumer water bottle with its proprietary water filtration membrane built-in.
water purification methods and filters are available today but often force users to choose between effectiveness and convenience,
percent bacterial removal for safe drinking water. Though the tech is strong, the challenge of adoption still remains.
Many are already using some type of at home method of water purification but with little success. Ultimately,
and aims to become the ntel Insideof the water industry. Industrial applications in everything from medical and pharma to oil and gas are huge s
so they can go back to a charging dock (similar to a Roomba) when theye running low on energy. t like 3d printing upside down,
drinking water reservoirs, quarry lakes, irrigation canals, remediation and tailing ponds, and hydro electric dam reservoirs.
This simple and affordable alternative to ground-mounted systems is particularly suitable for water-intensive industries who cannot afford to waste either land or water.
or extract materials is valuable for uses such as separating components of oil, gas and wastewater,
If the material is used for wastewater treatment applications, you wouldn want the particles themselves to become pollutants
and then dock with chemical receptors in another neuron to trigger a response. A'Smoking Gun'for Neurotransmitter Release In this latest research
At high concentrations, bacteria can be toxic in drinking water. But at lower levels virtually undetectable by current culturing techniques they can cause an ff flavor,
With drinking water, if there off flavor, even if the water isn toxic, you don want to drink it.
In addition to contamination of drinking water bacteria and other microbes can also contaminate rivers and lakes for example, the algal blooms in Hong kong.
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