Cost of Water Continues to rise, more sources go private

Water is a precious resource.  Newsweek  has a long article on “The New Oil” water.

The New Oil

Should private companies control our most precious natural resource?

Ethan Miller / Getty Images

Click to view a gallery about how we're losing our lakes.

Losing Our Lakes: Precious Resources at Risk

Sitka, Alaska, is home to one of the world’s most spectacular lakes. Nestled into a U-shaped valley of dense forests and majestic peaks, and fed by snowpack and glaciers, the reservoir, named Blue Lake for its deep blue hues, holds trillions of gallons of water so pure it requires no treatment. The city’s tiny population—fewer than 10,000 people spread across 5,000 square miles—makes this an embarrassment of riches. Every year, as countries around the world struggle to meet the water needs of their citizens, 6.2 billion gallons of Sitka’s reserves go unused. That could soon change. In a few months, if all goes according to plan, 80 million gallons of Blue Lake water will be siphoned into the kind of tankers normally reserved for oil—and shipped to a bulk bottling facility near Mumbai. From there it will be dispersed among several drought-plagued cities throughout the Middle East. The project is the brainchild of two American companies. One, True Alaska Bottling, has purchased the rights to transfer 3 billion gallons of water a year from Sitka’s bountiful reserves. The other, S2C Global, is building the water-processing facility in India. If the companies succeed, they will have brought what Sitka hopes will be a $90 million industry to their city, not to mention a solution to one of the world’s most pressing climate conundrums. They will also have turned life’s most essential molecule into a global commodity.

Lack of water is going to take out more data centers.  Think about this.

In the U.S., federal funds for repairing water infrastructure—most of which was built around the same time that Henry Ford built the first Model T—are sorely lacking. The Obama administration has secured just $6 billion for repairs that the EPA estimates will cost $300 billion. Meanwhile, more than half a million pipes burst every year, according to the American Water Works Association, and more than 6 billion gallons of water are lost to leaky pipes. In response to the funding gap, hundreds of U.S. cities—including Pittsburgh, Chicago, and Santa Fe, N.M.—are now looking to privatize. On its face, the move makes obvious sense: elected officials can use the profits from water sales to balance city budgets, while simultaneously offloading the huge cost of repairing and expanding infrastructure—not to mention the politically unpopular necessity of raising water rates to do so—to companies that promise both jobs and economy-stimulating profits.

Of course, the reality doesn’t always meet that ideal. “Because water infrastructure is too expensive to allow multiple providers, the only real competition occurs during the bidding process,” says Wenonah Hauter, executive director of the nonprofit, antiprivatization group Food and Water Watch. “After that, the private utility has a virtual monopoly. And because 70 to 80 percent of water and sewer assets are underground, municipalities can have a tough time monitoring a contractor’s performance.” According to some reports, private operators often reduce the workforce, neglect water conservation, and shift the cost of environmental violations onto the city. For example, when two Veolia-operated plants spilled millions of gallons of sewage into San Francisco Bay, at least one city was forced to make multimillion-dollar upgrades to the offending sewage plant. (Veolia has defended its record.)

The smart people are looking to reduce water use in the data center as one of the biggest cost risks and availability  issues is water.

If you don’t think water prices will change.

The bottom line is this: that water is essential to life makes it no less expensive to obtain, purify, and deliver, and does nothing to change the fact that as supplies dwindle and demand grows, that expense will only increase. The World Bank has argued that higher prices are a good thing. Right now, no public utility anywhere prices water based on how scarce it is or how much it costs to deliver, and that, privatization proponents argue, is the root cause of such rampant overuse. If water costs more, they say, we will conserve it better.

A green data center needs a low water strategy.

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Turning waste heat into power

Currently state of the art in data centers is to use the least amount of energy for a low PUE number removing heat from the data center.

What if the heat could be used to generate electricity?  A dream?   Yes.

Here is one attempt to turn heat into electricity.

Turning Waste Heat Into Power

ScienceDaily (Oct. 3, 2010) — What do a car engine, a power plant, a factory and a solar panel have in common? They all generate heat -- a lot of which is wasted.

University of Arizona physicists have discovered a new way of harvesting waste heat and turning it into electrical power.

Using a theoretical model of a so-called molecular thermoelectric device, the technology holds great promise for making cars, power plants, factories and solar panels more efficient, to name a few possible applications. In addition, more efficient thermoelectric materials would make ozone-depleting chlorofluorocarbons, or CFCs, obsolete.

A "forest" of molecules holds the promise of turning waste heat into electricity. UA physicists discovered that because of quantum effects, electron waves traveling along the backbone of each molecule interfere with each other, leading to the buildup of a voltage between the hot and cold electrodes (the golden structures on the bottom and top). (Credit: Justin Bergfield, University of Arizona)

The article doesn't discuss data centers.  But does discuss photovoltaic and cars excess heat.

"Solar panels get very hot and their efficiency goes down," Stafford said. "You could harvest some of that heat and use it to generate additional electricity while simultaneously cooling the panel and making its own photovoltaic process more efficient."

"With a very efficient thermoelectric device based on our design, you could power about 200 100-Watt light bulbs using the waste heat of an automobile," he said. "Put another way, one could increase the car's efficiency by well over 25 percent, which would be ideal for a hybrid since it already uses an electrical motor."

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Google Data Centers used to save energy and lives

Google’s official blog shares a vision to use Google’s data centers to save energy and lives.

What we’re driving at

10/09/2010 12:00:00 PM

Larry and Sergey founded Google because they wanted to help solve really big problems using technology. And one of the big problems we’re working on today is car safety and efficiency. Our goal is to help prevent traffic accidents, free up people’s time and reduce carbon emissions by fundamentally changing car use.

Data Centers are key.

This is all made possible by Google’s data centers, which can process the enormous amounts of information gathered by our cars when mapping their terrain.

Enabling a bunch of smart people.

To develop this technology, we gathered some of the very best engineers from the DARPA Challenges, a series of autonomous vehicle races organized by the U.S. Government. Chris Urmson was the technical team leader of the CMU team that won the 2007 Urban Challenge. Mike Montemerlo was the software lead for the Stanford team that won the 2005 Grand Challenge. Also on the team is Anthony Levandowski, who built the world’s first autonomous motorcycle that participated in a DARPA Grand Challenge, and who also built a modified Prius that delivered pizza without a person inside. The work of these and other engineers on the team is on display in the National Museum of American History.

Lots of sensor data is used.

Our automated cars use video cameras, radar sensors and a laser range finder to “see” other traffic, as well as detailed maps (which we collect using manually driven vehicles) to navigate the road ahead.

Is the future a Google logo’d car?  :-)

We’ve always been optimistic about technology’s ability to advance society, which is why we have pushed so hard to improve the capabilities of self-driving cars beyond where they are today. While this project is very much in the experimental stage, it provides a glimpse of what transportation might look like in the future thanks to advanced computer science. And that future is very exciting.

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Google's renewable energy investment pays off, finds 18,890 MW of Geothermal Power

GigaOm reports on Google's striking geothermal gold.

Google Strikes Geothermal Gold in West Virginia

By Jeff St. John Oct. 5, 2010, 4:27pm PDT 1 Comment

Has Google struck geothermal gold in West Virginia? A new report shows that heat underground the state could provide 18,890 megawatts of power using today’s geothermal technology — more than the state’s entire power generation capacity of 16,350 megawatts, most of which comes from coal. Google, which has beeninvesting in next-generation clean powertechnologies, funded the research.

Geothermal makes sense for a data center.

Geothermal, unlike other renewable energy resources, can be easily used for 24/7 baseload power — that is, it doesn’t sag and surge with the sun and the wind, which is a problem with solar panels and wind turbines. Geothermal projects are on the rise, although venture capital and private equity investors haven’t yet shown much interest in the capital-intensive sector. Companies tackling geothermal power range from the startup Vancouver-based Magma Energy, which went public last year, to geothermal giants like Ormat Technologies.

Google also has an internal solar technology project, as well as an energy-trading subsidiary, Google Energy, which bought 114 MW of wind energy via a wind farm in Iowa owned by NextEra Energy Resources. Google is likely shopping for more clean power to provide its data centers’ vast energy needs and help it with its pledge to go carbon-neutral — could geothermal help with that?

Here are more technical details.

6. Conclusions

This reconnaissance investigation of the thermal regime of the eastern U.S. has defined a significant thermal anomaly along the Appalachian Mountain trend in West Virginia and demonstrated that temperatures high enough for electrical power generation occur at depths greater than 4 to 5 km in large areas of eastern West Virginia. This finding opens the possibility of geothermal energy production near the heavily populated Eastern Seaboard. Further research is needed to refine estimates of the magnitude and distribution of West Virginia’s geothermal resource and to understand the cause of the high heat flow values. The presence of a large, baseload, carbon neutral, and sustainable energy resource in West Virginia could make an important contribution to enhancing the U.S. energy security and for decreasing CO2 emissions.

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If Brazil can build a critic proof dam, why can't the same ideas be applied to a data center?

Dams are notorious for their environmental impact.  James Cameron has protested one Brazilian dam.

Brazil dam project prompts animated response from director Cameron

September 01, 2010|By Matthew Knight for CNN

Movie director, James Cameron has teamed up with environmental campaigners in an effort to help Brazilian tribes' epic fight against the construction of a controversial dam in northern Brazil.

But, another Brazilian dam has a strategy to be free of critics or at least minimize the social and environmental impact. WSJ reports on this effort.

Brazil Engineers a Critic-Proof Dam

By JOHN LYONS

[DAM01]

Ana Ottoni

The Santo Antonio dam rises in the Amazon, one of 24 planned there.

PORTO VELHO, Brazil—Tethered to scaffolding on concrete towers by a clay-colored river, workers clad head to toe for protection from sun and mosquitoes are building the first large dam in the Amazon in decades.

Greenpeace has focused its sights on Facebook's data center.  The Brazilian company has spent $600 million to reduce the impact of the dam.

Yet few people have heard of the $8 billion Santo Antonio project, even in Brazil—which is just how the builders planned it. They designed it to avoid the controversies that have delayed other dam projects for years and multiplied their costs.

The builders spent some $600 million to head off trouble with regulators, environmental groups and Indian tribes before it arose. They trained thousands of rain-forest residents to provide a local labor pool and built modern houses for families who will be displaced. They created a high-tech fish ladder so species like giant catfish can get around the dam—and to meet one local demand, they built an alligator slaughterhouse.

For those who doubt a green fits in a data center.  Consider these words.

The dam's greener hue isn't because of any special environmental ardor on the part of the builders. It reflects a calculation about the unpredictable extra costs that environmental suits, Indian protests and political backlashes can cause.

Note the dam staff member who comes from World Wildlife Fund.

"In the end, this is business," said Gabriel Azevedo, a former World Bank and World Wildlife Fund executive who serves as sustainability director at the energy division of the dam's lead construction company, Odebrecht SA. Odebrecht is a closely held Brazilian concern whose other projects include boring a 12-mile tunnel through the Andes to carry Amazon water to Peru. Its co-builder is another private Brazilian company, Andrade Gutierrez SA.

Is this the future of data centers?  Well maybe not all of you.  As Greenpeace stays focused on Facebook as the target, others sigh in relief.

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