Tag Archives: water

WATER BROTHERS ~ STOP DRINKING BOTTLED WATER!

BOTTLED WATER1

IMAGEAddicted to bottled water? You can save lots of money a month if you can kick your bottled water habit and start using good, old fashioned tap water. This infographic argues the point that bottled water isn’t any more superior than regular water and that we are all being conned by marketers to buy priced up water.

Don’t like the way your local tap water tastes?

We have answers to the above question ~ a whole house carbon filtration system that leaves you with pure, clean and healthy water for a lifetime ~ watch our video.

Why You Should Stop Drinking Bottled Water

RAINSOFTHOUSEWITHLOGOAND TEXT FOR BLOG

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HOW EARTH MADE US – WATER ~ A MUST SEE VIDEO!!!

HOW EARTH MADE US_WATER

How Earth Made Us – The untold story of history.

This is part 2 in Professor Iain Stewart’s series, “How Earth Made Us”.  I highly recommend you take an hour to watch it as it is superlative!!!

Our planet has amazing power, and yet that’s rarely mentioned in our history books. This series tells the story of how the Earth has influenced human history, from the dawn of civilisation to the modern industrial age. It reveals for the first time on television how geology, geography and climate have been a far more powerful influence on the human story than has previously been acknowledged. A combination of epic story telling, visually stunning camerawork, extraordinary locations and passionate presenting combine to form a highly original version of human history.

Youtube video, “How Earth Made Us – Water”, uploaded on May 16, 2011 – Of all our planet’s forces perhaps none has greater power over us than water.  For me water is the most magical force on earth.  The presence of water shapes, renews and nourishes our planet.  It’s our planet’s life blood, that pumps through it continuously…

Water

This time he explores our complex relationship with water. Visiting spectacular locations in Iceland, the Middle East and India, Iain shows how control over water has been central to human existence. He takes a precarious flight in a motorised paraglider to experience the cycle of freshwater that we depend on, discovers how villagers in the foothills of the Himalayas have built a living bridge to cope with the monsoon, and visits Egypt to reveal the secret of the pharaohs’ success. Throughout history, success has depended on our ability to adapt to and control constantly shifting sources of water.

Discover why societies have succeeded or failed, and how the environment has influenced every aspect of our history from art to industry, religion to war, world domination or collapse. Visiting some of the most iconic places on Earth, How Earth Made Us overturns preconceptions about our civilisations and our cultures to offer a new perspective on who we are today.

~Youtube video presented by Professor Iain Stewart ~

Link to ~ How Earth Made Us—a masterly BBC documentary

https://www.wsws.org/en/articles/2012/04/eart-a21.html

 
Our heartfelt thanks to Professor Stewart
for his exceptional accomplishment!

BRITAIN’S 15 TON “FATBURG” FOUND ~ GROSS!

This event comes hot on the heels of Water Canada’s recent article “The Toilet Toll” (July/August 2013), which I posted last week on August 23.

Britain’s biggest-ever “fatberg” has been removed from a London sewer. Thames Water used the term to describe a “bus-sized lump” of festering food fat mixed with wet wipes that formed in drains under London Road in Kingston, Surrey.
YouTube video – 15 tonne blob of fat found in sewer

Gordon Hailwood, waste contracts supervisor for Thames Water, said: “While we’ve removed greater volumes of fat from under central London in the past, we’ve never seen a single, congealed lump of lard this big clogging our sewers before. Given we’ve got the biggest sewers and this is the biggest fatberg we’ve encountered, we reckon it has to be the biggest such berg in British history.”The congealed mass was so big, Hailwood says, it damaged the sewer and repairs will take up to six weeks. The blockage was discovered after residents in nearby flats complained that they couldn’t flush their toilets.

“If we hadn’t discovered it in time, raw sewage could have started spurting out of manholes across the whole of Kingston.”

Thames Water issued a press release explaining the dangers and costs of this kind of buildup, including sewage flooding homes, streets, and businesses. “When it comes to fat and wipes, please remember: ‘Bin it – don’t block it,” he adds.

 
 

SOPHISTICATED GROUNDWATER MONITORING VIA SATELLITE

WATERCANADALOGOThe following excerpts are taken from Water Canada’s March/April 2013 article, “UNDERGROUND NETWORK – From sensors below the surface to satellites  somewhere in orbit, groundwater monitoring is becoming more  sophisticated”, by Erin Pehlivan.

HELEN APIO CHARITY.ORGHelen Apio is filled with joy as she collects clean water in her Northern Uganda village.  When she didn’t have water, she would walk to the nearest well—2.4 kilometres away—and wait in line with hundreds of other women, clutching two empty five-gallon water cans, anticipating stock.

BC GROUNDWATERCharity: water has helped women like Apio by introducing a unique water technology that detects groundwater in developing countries. Founded in 2006, charity: water’s first project was to install six wells in a Ugandan refugee camp.  They bought a GPS for $100, took it to Uganda, visited each project location and plotted six points on Google Maps, making the information and images public on their website.  Six years later, the charity has funded over 6,994 water projects in 20 countries serving over 2.5 million people with clean drinking waterCHARITY PUMP SENSORSThey have recently been allocated US$5 million for a pilot project via Google’s Global Impact Award to develop remote sensor technology specifically for groundwater.

So far, the charity has mapped each of its water projects to see how they function in real-time.  The remote sensor technology will help keep them posted on whether water is flowing at any of their projects, at any given time, anywhere in the world.

The efficient design of remote sensor technology means that individual community members don’t need to visit every project physically to ensure constant water flow.  These sensors manage time, budgets and resources with ease, allowing more time to be spent analyzing the actual water sample itself in the lab.

Below the surface: While real-time technology is growing more common throughout the water industry, groundwater applications are scarce.

RICHARDRichard Kolacz, president of Global Spatial Technology Solutions Inc. (GSTS), observes smart sensor capabilities that connect to groundwater sensors in Canada, allowing people to collect information from the sensors remotely.

GSTS LOGO2One Ontario conservation authority is already using one of GSTS’s water sensor prototypes on site.  Initially, conservation authorities collected information manually.  Now they’re able to collect it remotely.  “We’ve developed an interface – a means of connecting to a groundwater sensor— to collect information in a format that the conservation authority likes,” says Kolacz.  “Rather than waiting six months or more to collect data, they could have it back instantly.”

GROUNDWATER SENSORSThe data coming from groundwater sensors to conservation authorities allows them to monitor water quality and quantity, and helps them understand the health and use of the water.

What’s so important about monitoring water data?  The data could help First Nations communities in northern Ontario, according to Kolacz.  “We would have the ability to monitor key data points on potentially clean or waste water treatment plants, and provide opportunities to monitor the health and status of those facilities remotely,” he says.

Much like charity: water, the difficulty with GSTS’s prototype comes from having to train staff to manage facilities. The data still has to be analyzed, and the quality of that analysis depends upon a certain level of knowledge.

Please note:  I found the following YouTube video, published on Mar 27, 2013, that is directly related to the above information.  Mr. Kolacz speaks about GSTS’s most recent application regarding goundwater monitoring.  His presentation dealing with this topic runs from 3:20 to 7:30 on the video:
https://www.youtube.com/watch?feature=player_embedded&v=tEIb4z3YFe0#at=237

CHARITY SENSORS2Meanwhile, charity: water’s goal is to develop and install 4,000 low-cost remote sensors in existing and new water projects globally, all of which will transmit real-time data to the charity, its partners, and eventually to donors via status updates.  Canada can learn from this model. According to the 2010 Review and Assessment of Canadian Groundwater Resources, Management, Current Research Mechanisms and Priorities by theCCME LOGO Canadian Council of Ministers of the  Environment, practitioners in the field need access to organized groundwater data.  With projects like the ones charity: water and GSTS are piloting, that access can skyrocket.

SATELITEGroundwater is a valuable resource, but it is poorly understood and expensive to investigate. Incentives to effectively manage the resource are low. But respondents of the aforementioned review demand significant effort from the provincial government databases to provide up-to-date groundwater information accessible online. And once we embrace the new insights of cloud-based collaboration and networked sensor arrays, science-based policy will develop and advance, leading to more responsible water resource management and investments – especially when it comes to the murky and mysterious water that flows beneath us. Erin Pehlivan is a Toronto-based writer.

Related links ~

http://www.nrcan.gc.ca/earth-sciences/geography-boundary/remote-sensing/geospatial/1196

for Charity:water ~ http://washfunders.org/Blog/(offset)/30

WATER CONSERVATION TIPS

    WATER CONSERVATION

I am reblogging the following National Geographic article, ‘Water Conservation Tips’, and the link may be found at the end of the article.  Please read the full article as I am certain that you will find many new suggestions for conserving water in and around your home.

TOILETS, TAPS, LAUNDRY, SHOWERS AND DISHES
•1994 was the year that federally mandated low-flow shower heads, faucets, and toilets started to appear on the scene in significant numbers.
•On average, 10 gallons per day of your water footprint (or 14% of your indoor use) is lost to leaks. Short of installing new water-efficient fixtures, one of the easiest, most effective ways to cut your footprint is by repairing leaky faucets and toilets.
SHOWERHEAD•If you use a low-flow shower head, you can save 15 gallons of water during a 10-minute shower.
HOT WATER TANK•Every time you shave minutes off your use of hot water, you also save energy and keep dollars in your pocket.
running bath water•It takes about 70 gallons of water to fill a bathtub, so showers are generally the more water-efficient way to bathe.
TOILET•All of those flushes can add up to nearly 20 gallons a day down the toilet. If you still have a standard toilet, which uses close to 3.5 gallons a flush, you can save by retrofitting or filling your tank with something that will displace some of that water, such as a brick.
washing machine•Most front-loading machines are energy and water-efficient, using just over 20 gallons a load, while most top-loading machines, unless they are energy-efficient, use 40 gallons per load.
•Nearly 22% of indoor home water use comes from doing laundry. Save water by making sure to adjust the settings on your machine to the proper load size.
DISHWASHER•Dishwashing is a relatively small part of your water footprint—less than 2% of indoor use—but there are always ways to conserve. Using a machine is actually more water efficient than hand washing, especially if you run full loads.
ENERGY STAR SYMBOL•Energy Star dishwashers use about 4 gallons of water per load, and even standard machines use only about 6 gallons.
•Hand washing generally uses about 20 gallons of water each time.

FOOTPRINTYARDS AND POOLS
•Nearly 60% of a person’s household water footprint can go toward lawn and garden maintenance.
LAWN•Climate counts—where you live plays a role in how much water you use, especially when it comes to tending to a yard.
SWIMMING POOL•The average pool takes 22,000 gallons of water to fill, and if you don’t cover it, hundreds of gallons of water per month can be lost due to evaporation.

DIET
WATER USED IN FOOD•The water it takes to produce the average American diet alone—approximately 1,000 gallons per person per day—is more than the global average water footprint of 900 gallons per person per day for diet, household use, transportation, energy, and the consumption of material goods.
QUARTER POUNDER•That quarter pounder is worth more than 30 average American showers. One of the easiest ways to slim your water footprint is to eat less meat and dairy. Another way is to choose grass-fed, rather than grain-fed, since it can take a lot of water to grow corn and other feed crops.
POULTRY•A serving of poultry costs about 90 gallons of water to produce. There are also water costs embedded in the transportation of food (gasoline costs water to make). So, consider how far your food has to travel, and buy local to cut your water footprint.
PORK•Pork costs water to produce, and traditional pork production—to make your sausage, bacon, and chops—has also been the cause of some water pollution, as pig waste runs into local water sources.
•On average, a vegan, a person who doesn’t eat meat or dairy, indirectly consumes nearly 600 gallons of water per day less than a person who eats the average American diet.
COFFEE•A cup of coffee takes 55 gallons of water to make, with most of that H2O used to grow the coffee beans.

ELECTRICITY, FUEL ECONOMY, AND AIRLINE TRAVEL
ELECTRICITY•The water footprint of your per-day electricity use is based on state averages. If you use alternative energies such as wind and solar, your footprint could be less. (The use of biofuels, however, if they are heavily irrigated, could be another story.) You would also get points, or a footprint reduction, for using energy-star appliances and taking other energy-efficiency measures.
WASH CAR•Washing a car uses about 150 gallons of water, so by washing less frequently you can cut back your water use.
GAS•A gallon of gasoline takes nearly 13 gallons of water to produce. Combine your errands, carpool to work, or take public transportation to reduce both your energy and water use.
FLYING•Flying from Los Angeles to San Francisco, about 700 miles round-trip, could cost you more than 9,000 gallons of water, or enough for almost 2,000 average dishwasher loads.
•A cross-country airplane trip (about 6,000 miles) could be worth more than 1,700 standard toilet flushes.
•Traveling from Chicago to Istanbul is just about 10,000 miles round trip, costing enough water to run electricity in the average American home for one person for more than five years.

INDUSTRY—APPAREL, HOME FURNISHINGS, ELECTRONICS, AND PAPER
•According to recent reports, nearly 5% of all U.S. water withdrawals are used to fuel industry and the production of many of the material goods we stock up on weekly, monthly, and yearly.
COTTON TEE SHIRT•It takes about 100 gallons of water to grow and process a single pound of cotton, and the average American goes through about 35 pounds of new cotton material each year. Do you really need that additional T-shirt?
RECYCLE•One of the best ways to conserve water is to buy recycled goods, and to recycle your stuff when you’re done with it. Or, stick to buying only what you really need.
LAPTOP•The water required to create your laptop could wash nearly 70 loads of laundry in a standard machine.
PAPER•Recycling a pound of paper, less than the weight of your average newspaper, saves about 3.5 gallons of water. Buying recycled paper products saves water too, as it takes about six gallons of water to produce a dollar worth of paper.

Link to article ~ http://environment.nationalgeographic.com/environment/freshwater/water-conservation-tips/

CANADA ~ A WATER SOLUTIONS COUNTRY

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“A WATER SOLUTIONS COUNTRY –  Strategic steps for a more competitive water sector in Canada lead the way to global opportunities” – excerpts taken from the May/June issue of Water Canada by David Crane.

The availability and quality of water is the overarching challenge facing the global community in the 21st century. It is also Canada’s opportunity.

WORLD POPULATIONA world population that is projected to add 2.5 billion people by 2050, a global economy that is forecast to quadruple in this same period, the prospect of adding one billion people to the global middle class, and a sharp increase in the number of people in big cities will mean a an unprecedented demand for water. GLOBE WITH TAPAs well as more people, which will mean much greater need for clean water and sanitation, a bigger population with rising incomes means a much higher level of consumption of food, energy, natural resources, and industrial products—all of which will also increase the demand for water.

CLIMATE CHANGEAdd the expected impact of climate change on the distribution and availability of water, which could leave large numbers of people facing severe water stress, and the threats of drought and floods to food production, and it’s clear water is the most serious challenge we face. We can substitute batteries for oil in automobiles, but there is no substitute for water. So we face a water-stressed world.

WORLD WATER FORUMNeed, however, equals opportunity. The challenge is for Canada to contribute to water strategies and help the world meet the global water challenge. How do we utilize our strengths—the excellence of our engineering and technical Graduates, our proven academic research capabilities, and our innovative companies that can deliver water goods and services to build up a strong water sector—to generate new jobs and competitive companies while helping to meet the overarching global challenge?

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Steps for a world water strategy: First, Canadians need to raise the level of understanding, not only among policymakers but also among the wider public; that there is an enormous challenge facing the world and that there is also a significant opportunity for Canada, by strengthening our research base and the strength of our companies. This is the first great challenge—to identify our water champions who will provide the leadership to make Canada a water-solutions country. These champions must come not only from academia and our clean water companies but also from the user community, our municipalities, and businesses that need a safe and reliable water supply. Water users have a significant stake in a solutions strategy. OUTDOOR CANADAThere is the risk of complacency due to a widespread public assumption that Canada’s abundant water supply means we don’t face water challenges. Yet Canada itself faces challenges—to improve water quality and sanitation performance, meet the threats of droughts and floods in agricultural lands, ensure the efficient and sustainable use of water in energy and mining industries, meet the water needs of First Nations, and improve water efficiency and conservation technologies and practices in the economy and society. LIGHTBULBMeeting domestic challenges through innovative solutions will strengthen the research base and the capabilities and competitiveness of Canadian water companies. This means efforts to balance federal and provincial budgets must not come at the expense of research or improvements in water infrastructure. Cutting these investments would mean a weaker future Canadian economy. Research and infrastructure spending are investments in a more secure and sustainable future. Another challenge needs to be addressed: How do we grow more small companies into mid-size or large companies? Canada is very successful in starting companies, but many water companies are small and remain small. They face significant challenges in obtaining the capital needed to develop new products or services, pursue new domestic and foreign markets, build the management strengths they need for success, and scale up so that users and systems integrators in Canada and elsewhere are confident in using their products or services. Many promising smaller companies fail to make the transition to significant scale, which means they can become takeover targets by large multinational corporations seeking their proprietary technologies. While federal and provincial programs that support company technology development are important, we also need to find ways to strengthen the equity base of promising Canadian companies. It is equity rather than debt that enables companies to innovate and to pursue new products or markets.

There are many advantages in Canada, including a well-developed research base, a significant number of companies with proprietary technologies and experience in the global marketplace, easy access to the U.S. and Mexican markets (which have huge future water needs), universities and colleges that graduate high-quality engineers and technicians, and some well-targeted government programs to assist small and mid-size companies. Given these strengths, failing to capitalize on them to meet the enormous world need for water solutions would represent a huge lost opportunity for Canada.

DAVID CRANEDavid Crane is an award-winning Canadian writer and the author of Canada as the Water Solutions Country: Defining the Opportunities, a discussion paper published by the Blue Economy Initiative.

WATER IN EARTH’S NEXT EPOCH ~ ALARMING!!!

EARTH GRAPHIC COVER THE ECONOMIST JUNE 2011

Beautiful YouTube video,  ‘Water in the Anthropocene’, post on geek.com by May. 26, 2013 It’s not easy to visualize the global impact of modern man on our Earth. Fortunately, there’s this great video to fill in whatever gaps you may have.  It’s impossible to argue with the fact that modern man has impacted the world, but seeing, explaining, and understanding remains difficult. One way to do so would be to focus on the changes we have made that affect one of our most important natural resources, our water supply

EARTHWhen you think about everything in our world that needs water, and then think about how mankind has affected that resource on a global scale, the chances are high that you lack the whole picture. Fortunately, this short video on how we as humanity has affected water in the world today is here to help paint the global picture.

ANTHROPOCENE CHART

It is currently being debated whether we are currently living in or on the verge of the next epoch, the Anthropocene. Before now, the Earth was affected by natural forces and organic structures. It still is of course, but in our lifetime we have created structures and organized ourselves as civilizations that are now changing many of those natural forces and organic structures. It’s interesting to be able to see that kind of thing on a global scale, and wonder how the next generation of humanity will interact and change the planet.

STOERMERThe geological epoch we are currently in is formally known as the Holocene. Anthropocene is an informal term coined by Dr. Eugene F. Stoermer, who found Holocene to seem incorrect given the impact of man on the Earth. The Holocene is widely accepted to have started about 12,000 years ago, so it’s quite understandable that the developments humans have made over the past few hundred years alone would be sufficient to be considered the dawn of a new era, even a geological one.

2013 BONN CONFERENCE Links related to article:
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