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Archive for October, 2009

Water Efficiency

In my four-article series on water use (The Resource Matrix), I took you on a journey to reveal the layers of The Resource Matrix in order to help you understand how water will be a highly contested commodity tomorrow, possibly as much as oil is fought over today.

You learned about your water footprint and a website where you can calculate it, virtual water and virtual water transfers, whereby choices here affect water availability elsewhere, to the point of some people not having enough water to drink in order to produce inexpensive dyed cotton, along with insane choices such as growing crops in the desert.

You learned that on average it takes 1854 to 3000 gallons to produce one pound of beef.

Yep, it’s it’s been a great journey through the sidetrip city of the Resource Matrix.

Today, we’ve found the on-ramp to the Green Lighting Interstate and are driving to take a look at water use in generating electricity.

For a simple reason. It takes a lot of water to produce electricity.

How much? 5% of all US water? 10%? Can’t be as high as 25%?

Electricity and water?

I thought the issue was fossil fuels and greenhouse gases

The U.S. Geological Survey (USGS) estimated water use in the United States in 2000.

Their grand total: 408 billion gallons per day withdrawn for all uses.

The number 1 spot, weighing in at 48%, was thermoelectric power.

Irrigation earned the runner-up prize at 34%.

The 195 billion gallons need to come from somewhere, and actions have consequences. Environmental ones, as in 40 million fish in the Great Lakes killed each year due to being trapped against water intake devices. That’s a lot of Friday night fish dinners.

How much water is used in generating electricity?

Large fossil fuel and nuclear plants require incredible quantities of water for cooling and ongoing maintenance.

Water for thermoelectric power is used in generating electricity with steam-driven turbine generators. It uses 48% of all water in the US.

According to the Pace Energy and Climate Center, the amount of water used for power plant cooling varies by each specific power plant’s electricity generating technology and size. Nuclear reactors require the most water for cooling, and baseload fossil fuel power plants come in second.

The Salem Nuclear Generating Station alone takes 3 billion gallons a day from the Delaware Bay, according to the Pace Energy and Climate Center.

Nationally:

• Steam electric generating plants across the nation draw in more than 200 billion gallons per day.
• Nuclear and fossil fuel power plants drink over 185 billion gallons of water per day.
• Geothermal power plants add another 2 billion or so gallons a day.
• Most renewable energy technologies require little or no water for cooling.

These numbers are starting to sound like the same ones the U.S. Treasury and Federal Reserve Bank use.

Imagine watching your favorite science program where astronomers explain that the universe is 78 billion light-years wide (78 billion units of 5,878,630,000,000 miles). There is absolutely nothing in our experience to help us wrap our mind around it.

How much is 3 billion gallons per day?

The Delaware Bay feeds Salem Nuclear Generating Station 3 billion gallons a day.

Imagine this rectangle: a football field with end zones (360 feet long x 160 feet wide). Then add to it walls on each side of the rectangle to create a container to hold the 3 billion gallons you pour into it.

How high do you need to make those walls to contain 3 billion gallons? 6915 feet high. Or 1.3 miles.

Maybe 6915 feet high is still hard to imagine. So how deep do you cover the field in order to feed the Salem plant every minute? Answer: 5 feet deep. Every minute.

48% of all water use: We’re Number One!

How much is 195 billion gallons per day?

Using the USGS figure for 2000, thermoelectric power nationwide used 195 billion gallons a day, or 48% of all water used in the US. My guess is the water use has grown since then.

How high are the walls on our football field now? 449,475 feet or 85 miles high. We’re back to US Treasury and astronomy numbers again.

So, let’s get a higher-level view to help us.

Lake Erie holds 116 cubic miles of water.

Nationally, thermoelectric power uses 195 billion gallons a day – or 64.2 cubic miles a year.

We drain Lake Erie every 22 months.

But the water used is returned to its source.

So what’s the issue about water use?

Power generation returns 98% of the water back to its source (bay, lake, river, ocean).

It’s the environmental consequences.

The Pace Energy and Climate Center explains it neatly:

Withdrawal of large volumes of surface water for either power plant cooling or hydropower generation can kill fish, larvae and other organisms trapped against intake structures (impinged), or swept up (entrained) in the flow through the different sections of a power plant.

Examples include:

• The Salem Nuclear Generating Station is responsible for an annual 11 percent reduction in weakfish and 31 percent reduction in bay anchovy.
• At the Indian Point 2 and 3 reactors on the Hudson River, the number of fish impinged totaled over 1.5 million fish in 1987.
• The 90 power plants using once-through-cooling on the Great Lakes kill in excess of 40 million fish per year due to impingement. (Once-through cooling needs a continual flow of new water, and uses 30 to 50 times that of a closed cycle system. Closed cycles cool down water from steam then reuse it.)

The diversion of water out of the river removes water for healthy in-stream ecosystems:

• Stretches below dams are often completely de-watered.
• Fluctuations in water flow from peaking operations create a “tidal effect,” disrupting the downstream riparian community that supports its unique ecosystem.
• A dam’s impoundment slows water flows, which hinders natural downstream migration of many fish species.
• By slowing river flows, dams also allow silt to collect on river and reservoir bottoms and bury fish spawning habitat. Silt trapped above dams accumulates heavy metals and other pollutants. Disrupting the natural flow of sediments in rivers also leads to erosion of riverbeds downstream of the dam and increases risks of floods.
• The impoundment of water by hydropower facilities fundamentally reshapes the physical habitat from a riverine to an artificial pond community.
• This often eliminates native populations of fish and other wildlife.
• Dams also impede the upstream and downstream movement of fish and other wildlife, and prevent the flow of plants and nutrients. This impact is most significant on migratory fish, which are born in the river and must migrate downstream early in life to the ocean and then migrate upstream again to lay their eggs (or “spawn”).
• As mentioned above, withdrawal of water into turbines can also impinge or entrain significant numbers of fish.

The cleanest kilowatt is the one never used:

Back to those compact fluorescent lamps and LEDs

PowerScorecard.org explains the solution:

By re-directing electricity dollars to support environmentally benign energy resources, consumers are empowered, in states that offer supply choice, to influence the existing generating resources that are deployed to meet demand.

They can also support the construction of new and cleaner electricity resources that will be built to meet overall growth in demand in the future. By supporting these power options, consumers can minimize many water use and consumption impacts. Still, directing your dollars to cleaner power products in no way helps remediate damages that already have occurred. Consumers can stop the construction of new hydropower facilities or alter conditions of siting and operation, but they cannot undo previous environmental degradation that occurred at existing hydropower facilities.

In short, reduce your use of electricity.

More Info:

We used several sources for this article, including the PowerScorecard.org website, which is produced by the Pace Energy and Climate Center, which is part of the Pace University School of Law’s Center for Environmental Legal Studies, Pace University, White Plains, New York.

On PowerScorecard, you can get:

• Ratings of Electric Power Choices for some service areas.
• More info on electricity and the environment:
  • Technologies
  • Climate change
  • Acid rain
  • Ozone depletion
  • Water use (our article today)
  • Water quality
  • Land: on-site and off-site impacts

Thanks for letting us keep you updated . . .

To your green, brighter future,

Cinnamon Alvarez,

A19

And now I would like to offer you free access to powerful info on energy efficiency that’s easy to read and cuts through all this “green” information clutter — so you can literally start making positive changes today.

You can access it now by going to: http://www.a19.com/pub/articles/

From Cinnamon Alvarez: Founder, A19 — woman-owned green manufacturer of hand-made ceramic lighting fixtures

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The Resource Matrix Part 1 of 4

“The Resource Matrix is everywhere, it is all around us. It is the world that has been pulled over your eyes to blind you from the truth. You take the blue pill and the story ends. You wake in your bed and believe whatever you want to believe. You take the red pill and you stay in Wonderland and I show you how deep the rabbit-hole goes.”

In my last water efficiency article (Water-Efficiency: Why Most Advice You’ve Read is Absolutely Inefficient), we began a slow turn away from lighting with a discussion of the 80/20 Rule and how your little positive behavioral changes with water aren’t even a drop in the bucket when your other positive behavioral changes – making homemade pizza – evaporate the entire year’s ocean of benefits in a few tasty bites.

In a four-part series, we talk about a resource besides energy: water.

1. Today, we begin far above this “turn off the porch lights and take short, icy showers” efficiency thing to show you how we got to where we are now both in fuels and in other resources.
2. Next week, we introduce the resource called water, its parallels with fossil fuels, and its role in global warming.
3. The following week, we continue going with the flow of water, when we show the parallel between the current hot Oil Wars and in the future cold Water Wars.
4. And in the final week, we tie together the articles in a symphony of three movements, showing you how all the elements hold the Resource Matrix in place and how, like Neo in the movie, you can break the code that creates the graphical user interface and see the illusion for what it really is. (At least, my version of it, anyway.)

Ready to take the red pill and see how deep the rabbit-hole goes?

We start with one of the most boring subjects known to college students, one birthed out of the Enlightenment when extremely titled, idly rich, powdery wig-headed fancy foppish men dressed like women and walked in high heels and squealed like school girls:

Economics: it’s totally insane

Economics is described as the science of allocating scarce resources. Since it’s the study of human behavior, it’s a social science rather than a physical science.

And although any individual’s behavior may not be predictable, individuals as a group can be. Kinda like the weather: you don’t know much about a single raindrop’s effect but you can track the overall storm and predict what’s next.

Economics likes to fool itself that it can predict behavior based on the assumption that people make rational choices. Understand what people think and you understand what choices people will make.

It unfortunately leaves out the other part of being human: human behavior based on emotions.

And emotions weigh heavily in how we interact with each other, especially in exchanges of value.

Maximizing returns:
“I want your goodies for nothing”

Economics recognizes that people are motivated by self-interest to maximize their benefits at the lowest cost.

On an individual basis, this can turn into a “win-lose” proposition:

• I want to acquire the best stuff for the cheapest terms
• I want to dispose of the lousiest stuff for the greatest terms

In short, you want diamonds and gold for nothing and they want to give you useless junk for a king’s ransom.

May the Force be with you:
getting diamonds and gold for nothing:

Economics comes out of 18th century political economy, which studied production, buying and selling, and their relations with law, custom, and government. Political economy itself comes out of moral philosophy.

This moral philosophy apparently had room for colonialism, which comes pretty close to getting your diamonds and gold for nothing: forcibly take over a country and use its people to extract its resources to be reallocated to your bank account. And make sure nobody but you has any say in the matter.

Social good in the equation:

A few people didn’t see the morality in this philosophy. Enter the lousy, meddling individual do-gooders like Elizabeth Cady Stanton, Mohandas Ghandi, Martin Luther King, Jr., Upton Sinclair, and many others who messed with the “I want your goodies for nothing” crowd.

And some of the individuals do-gooders formed their own organizations like the Sierra Club and Greenpeace.

They all worked to increase awareness that there are alternatives to being forced to give away your diamonds and gold for nothing while having no say in the matter, and worked to change deals from “win-lose” to “win-win.”

The “I want your goodies for nothing” crowd, who could only lose in the change to “win-win,” found their salvation in the late 1800s with the rise of modern psychology (the scientific study of mental functions and behavior). Applied to politics, it’s called propaganda. Applied to spirituality, it’s called religion. Applied to commerce, it’s called marketing and advertising.

All these applications are forms of hypnotism, and are based on the proven principle that if you repeat anything enough times, including a falsehood, your audience will grow to believe it and then to defend it as the truth.

The “I want your goodies for nothing” crowd used economics to hypnotically declare for 250 years that fossil fuels, the air, and water were without cost. They called them “free goods.”

And they used force (”Oh yeah, and what the hell are you going to do about it?”) to declare that pollution had no consequences.

What’s an Oxymoron?
“Free Good” in economics

The free good is a term used in economics to describe a good that is not scarce. A free good is available in as great a quantity as desired with zero opportunity cost to society.

Earlier schools of economic thought proposed that free goods were resources that are so abundant in nature that there is enough for everyone to have as much as they want. Examples in textbooks (even in the 1980s) included fresh water and the air that we breathe. However, these are now regarded as common goods because competition for them is rivalrous.

In short, there is no free lunch.

An additional moral philosophy:
“There’s a sucker born every minute”
becomes
“How can I help you help me?”

The “I want your goodies for nothing” crowd continues to rise early and work late to craft their “win-lose” deals every day.

Yet, out of those rising early and working late, a small radical fringe discovered the curious fact that if you don’t beat a dog bloody every time you see it, it’s less likely to bite your hand off, and it even might go out and hunt down a squirrel for your evening stew.

Their moral philosophy became a hybrid offshoot.

The Hybrids still want your goodies, but they are willing to help you get your goodies with less pain and damage to yourself so you’ll be willing to come back to them and hand over more of your goodies.

Both use the same mind-numbing hypnotic slogans: “We care about you.”

The difference is the Hybrids actually do some of those same things that someone who cares about you would do. Even if they don’t actually give a hoot about you. Contrast that to the “I want your goodies for nothing” crowd, who merely sends you more hynoptic slogans when they want your goodies.

Where Do You Want to Go Today?
Everywhere but here

We’ve all awaken to the shocking realizations that:

• finite energy resources will run out
• actions have consequences, and the consequences of our actions are already visible, rather scary, and quite irreversible, and
• the “I want your goodies for nothing” crowd hasn’t been telling the truth

In Aldous Huxley’s Brave New World, you could just pop some soma and totally trip out.

But the cowardly old world we’re experiencing has quickly turned into a total bummer of a bad trip, man. Down with the Establishment and praise the Collective.

We’re all in this together, or
Toss the lousy, greedy bastards overboard

The decades of the Do-Gooders increasing our awareness of possible “win-win” possibilities and of the Hybrids backing their “we care about you” lip service with actual service has brought us to another realization:

There’s a price to everything, and if I don’t pay the price, someone else will, and somehow, some way, on some sunny day, they’re going to get even and make me pay.

And this has been an important change in the understanding of energy efficiency and global warming: the environment has a limited capacity within our human-lifetime periods to absorb civilization’s byproducts and transform them into resources. It usually needs geologic time to turn dead trees and critters into oil and gas. In the meantime, the trash piles up in the streets.

The solution: create less trash.

Thanks to the Do-Gooders, we have greater awareness or our actions and the desire to change, and have the Hybrids offering ways to change.

And the result is a shift of power away from the “I want your goodies for nothing” crowd. It’s now Power to the People.

But wait, there’s more …
to the Resource Matrix

Just because you know about fossil fuels, their finite amounts, their polluting, warming effects on the environment, and alternatives offered by the Hybrids – even if you have done your part to the best of your ability to reduce, reuse, and recycle — you haven’t escaped the Resource Matrix.

Energy to power our lives is one component of the Resource Matrix. And it’s the most visible in discussions of global warming and being resourceful. But there’s more:

Coming Attractions!

In the next three articles, we will talk about concepts concerning the resource that makes up 75% of the planet and 75% of your body:

Water.

You’ll learn that, although 75% of the planet is water, only 3% of water is potable (can be consumed), and of that 3%, only a small fraction is available, and of that small fraction, only a small fraction is potable, because the rest is polluted for hundreds of years to come.

You’ll learn how the actions of an illiterate, lice-infested, foul-mouthed peasant on the other side of the globe affects you where you are.

You’ll learn how, unlike oil, water is transferred invisibly from poor to rich by sleight of hand, like paying your utility bill through your online bank account.

You’ll learn how poor water decisions, rather than fossil fuel’s atmospheric effects described in Al Gore’s An Inconvenient Truth, leads to those drybeds of the formerly humongous Aral Sea and along the Amazon.

You’ll learn how to measure the global water impact of any nation, city, corporation, even yourself – to the nearest gallon or liter.

You’ll learn the little changes you can make – the water equivalent of “change your incandescent lightbulbs to compact fluorescent lamps” – and still be able to take your wastefully long showers.

And all of this is for one purpose:

To help you see the Resource Matrix, everywhere, all around you.

And now I would like to offer you free access to powerful info on energy efficiency that’s easy to read and cuts through all this “green” information clutter — so you can literally start making positive changes today.

You can access it now by going to: http://www.a19.com/pub/articles/

From Cinnamon Alvarez: Founder, A19 — woman-owned green manufacturer of hand-made ceramic lighting fixtures

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How Can Technology Help the Environment?

How can technology help improve the environment? Are we promoting a more singular existence, where individualism is the force that is driving us along? We are now living in a world that is in an accelerated mode of change and innovation. Is this rate of change detrimental to our existence? Think about this for a moment. On the one hand we have improvements in all areas of our lives some are greater than others. On the other hand we are looking at the effects of the harmful destruction of our planet earth.

The first computers started to emerge around the 1940’s, now we have computer processors in a lot of the electronic equipment we use every day. We even have computers that can fit in your hand that have more power than the first computers.The first Television and television transmission appeared in 1925 and now we are watching gigantic flat screens, some as big as buildings and others screens as small as wrist watches. In the past 80 years the medical field has also grown in leaps and bounds in the areas of IVF, genetic research, cloning, stem cell research, along with the progress in the prevention, cure and management of various diseases. Other fields such as astronomy, environmental science, weapons/warfare and engineering have also had their fair share of extraordinary development achievements.

Looking at the issues of Global warming and human environment interaction we are currently facing within our natural environment. Should we really be in a race to ruin the land where we live? We cannot keep up with the current technology, just look at all the equipment you have taken to the recycle tip in just the last 12-24 months. Consider how many Televisions, Videos, DVD players, Computers, Laptops, Hi-fi’s and Home entertainment systems you have changed or bought recently, the list is endless. When an improvement is made to a product it can sometimes make the original product obsolete. Satellite Navigation equipment a new and easily available product for everyone. Even if you only use it once a year it is believed to be a must have product. Mobile phones is another product every man and his dog has one these days. How often do you change your mobile phone for the latest model? Can you ever imagine being without a mobile phone? How did we ever cope without them? The raw materials used to make a phone cannot be recycled easily. 

I believe as we get to understand one part(s) of our lives we seem to lose sight of others parts that are equally as important. What can be done to slow down the rate of change or how do we as a nation become more aware of the effects of the rate of change has on our environment.

If we could not have a new television or other new product until the old one had been recycled properly we would help the environment tremendously. Today if we implemented this many products or versions of products would be missed because of the speed at which technology changes. Like the latest flat screen with super clear picture quality. It seem that every other week we get the next new and improved product. Just look at washing power or washing up liquid advertisements.

Just some food for thought more to come soon.

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You will find something of interest…

News Of Peletex Story

The Perfect Solar Storm: A Global Disaster

The average solar cycle lasts for eleven years. The cycle includes a minimum of solar activity and a maximum. The sun is unusually quiet right now and has been for some time but there should be an increase in solar activity at some point in the near future.

The best current scientific estimate for the next solar maximum is 2012. If this estimate is correct, there is still a few years to try and prevent the potential of a future global disaster. A disaster that would begin on the surface of the sun and could end with tragedy on earth.

The surface of the sun is a mass of plasma that contains highly charged energy particles. Once in a while, some of these particles escape the suns surface and a mass of plasma travels through space on the solar wind. This process is known in scientific terms as a coronal mass ejection but it can also be called a solar storm.

A disaster for the planet would occur if a solar storm reaches and hits the earths magnetic shield in just the right way. If it were to happen, millions of people would lose their lives and the planet would be thrown into chaos as the technology that has become crucial to every day living suddenly gets taken away.

The perfect solar storm will start with skies that will be filled with a bright red aurora. However, soon everything will become dark as every electric bulb becomes devoid of light. The storms damage to the electric grid would be caused through an increased DC current. The runaway current would knock out and melt hundreds of key transformers within minutes, cutting off power for hundreds of millions of people.

Those damaged transformers cannot be repaired only replaced and installing a replacement takes a well-trained crew a week or more. Its incredible to consider that most major electrical utilities have just one or two suitably trained crews available for these type of transformer repairs. In addition, there are only a few spare transformers available and the rest would have to be built to order. Its a process that can take nearly twelve months.

So, the power blackout from the perfect solar storm would last for months but its not just the absence of light that would be the problem. Drinking water would still come through the taps for maybe half a day after the storm. With no electricity to pump water from reservoirs, there would be no more tap water after that.

The electric grid is necessary for almost all natural gas and fuel pipelines to operate. As a result, fuel and natural gas will quickly run out and without food delivery, supermarket shelves would soon become bare. Soon it would become necessary to control public hysteria and the military would have to be called in to restore civil order

There will be no power for heat, cooling or refrigeration until the grid is repaired and after their back up generators run out, hospitals will not be able to provide modern healthcare. A lack of water and food will result in spreading disease but Pharmaceutical companies without electricity will not be able to produce the necessary medicine.

Of course, many will say that this is absurd science fiction and it cannot happen here, but this chilling disaster scenario was outlined in a report released last January (funded by NASA) by the US National Academy of Sciences (NAS).

The fact is that a storm from the sun did hit the earths magnetic field in 1859. The effect of this solar storm on earth became known as the Carrington Event. The event was named after the amateur astronomer who observed two patches of intensely bright and white light emanating from a large group of sunspots that may have produced the event.

The solar storm that produced the Carrington Event created a red aurora across the planet from the poles to the tropics. Throughout the world, telegraph systems crashed, machines burst into flames, and electric shocks rendered operators unconscious. Compasses and other sensitive instruments reeled as if struck by a massive magnetic fist. It can happen again and the technology of the planet is now much more advanced and vulnerable.

The next solar maximum is estimated to return in about three years. A global disaster from the perfect solar storm can be prevented with proper contingency planning. There is still time for the government to be proactive and prepare to avoid disaster by creating a potential response to quickly repair the damage to the electric grid from the perfect solar storm.

James William Smith has worked in Senior management positions for some of the largest Financial Services firms in the United States for the last twenty five years. He has also provided business consulting support for insurance organizations and start up businesses. He has always been interested in writing and listening to different viewpoints on interesting topics. Visit his website at http://www.eworldvu.com or his daily blog at http://www.eworldvublog.blogspot.com

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