How often have we come across lovely historical sites suffering from neglect and misuse? Every country needs to take good care of its historic places. Because things like malls, stadiums and highways can be built again. But a historic place which is neglected and misused will lose its glory and slowly disintegrate into zilch. And no amount of action plan or noble intentions can ever bring a historic place back to its former glory when it has been totally neglected and abused by us. The oldest of historic sites can be preserved for the future generations if we have a proper plan for their conservation. Conversation of historic places requires a systematic approach. If the historic site is conserved with the help of a proper plan, it will show amazing results. While chalking out a plan for the conservation of historic sites, it’s very important to keep the costs under control. If the costs go up to an unwanted level, it will draw criticism from the general public and act like a death sentence for the conservation of other similar projects in the future. The first thing which should be done by the restoration experts is to check the age of the historic site. This can be easily achieved by conducting a series of scientific tests. It can also be done if there are public or archaeological records of the site. Once we know the actual age of the historic site, we get to know the actual worth of the site - this doesn’t mean that if a site is not very ancient - it’s not worth taking care of. Also check the sturdiness of the materials which have been used on the historic site. This will need a proper list of all the materials used on all the structures found on the site. Factors such as the effect of temperature, humidity, weathering, fire, air pollution, storms and flood on the material found on the site needs to be studied in detail, so that best possible plan to prevent further degradation of the site can be prepared. Don’t forget to note the architectural design of any structures present on the site. This is needed to take help of conservation experts according to the style they specialize in. Taking the help of the best of experts who are not competent in the architectural design displayed at the historic site would create a major problem for your conservation project. Your team of conservation experts also need to keep a track of all the past repairs and changes made on the historic site. The problems faced by the previous restoration team while restoring or repairing the historic site too needs to be researched and noted down. Always remember materials like wood and leather rot quite easily, on the other hand stone articles and pottery items always manage to survive better. Once you have finished your complete study of the historic site, you can then do the restoration part of the site step by step in a phased manner till it is complete. You might even have to restrict the number of visitors, once it has been restored, as although the site has got its former glory, it might not be in a state that it can be exposed to an endless number of people everyday. For more information on the historical sites of the world, visit Matt’s website about world historical sites, especially his favorite place, tikal.
Electric car’s Technology
Historical Conservation Efforts
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: 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 diversion of water out of the river removes water for healthy in-stream ecosystems: 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: 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
Electric car’s Technology
Water Used in Generating US Electricity
Are We to Blame For Global Warming?
Global warming is one of those topics that I still find myself wondering what to truly believe. Is our CO2 production really the culprit in the warming of the planet? Or are there some other larger influences at play here. I have a hard time believing mankind’s activities are solely to blame for any kind of climate change.
After all, CO2 is only one of many greenhouse gases that can affect the warming trend. Water vapor is by far the most abundant and effective at influencing the greenhouse problem. But I don’t see any kind of public concern over evaporation of water in any way at all. Okay, I realize that there is little or even nothing that can be done about that but the point is CO2 is just a tiny fraction of the greenhouse gases affecting our climate. So if water vapor is by far the largest greenhouse gas then why are we so obsessed by manmade CO2? Mankind’s ego.
We see a small trend in the planets temperature rising and of course we assume it must be what we are doing. I am truly pleased to see that we are taking an interest in reducing pollution from cars and industry but I really have my doubts about the connection to global warming at least in the significant way the media would like us to believe.
The media is sounding the alarm bell which of course sells more newspapers than reporting the less extreme predictions surrounding the warming trend. The weather models produced by scientists predict a reduction in the temperature differences between the poles and the equatorial regions. This will in fact reduce the number of violent tropical storms, as there will be less of a temperature discrepancy to stimulate them. Also the warming of the regions closer to the poles will allow agricultural pursuits in areas where it was not possible before. Food production would be able to rise accordingly. The alarmist media isn’t interested in those types of stories it seems.
The change in the world’s temperature is just that, change. There is irrefutable evidence that the temperature of the planet has and most likely will always be changing regardless of what we are doing. What are we so afraid of? Do the alarmists doubt mankind’s ability to adapt and cope with a few degrees of temperature change or even sea levels rising a meter or so? There will doubtless be hardships and even some displaced people in some regions but man has the ability to adapt and change. We have demonstrated this through the ages. I am confident that we will not only survive these changes but also learn to use them to our advantage.
I live in Canada and if you ask anyone living north of the temperate zone about rising temperatures the resounding response would be “bring it on, we could use a little global warming around here”. Life will improve greatly for huge numbers of the world’s population with a couple of degrees increase in the planet’s temperature. Migration to areas that were before considered uninhabitable by most will have a more moderate climate allowing for farming and other activities. You can’t sell newspapers with stories like that.
The scientific data indicates that 1998 was the warmest year on record. The planet has been cooling ever since. A quote from Dr. Oleg Sorokhtin of the Russian Academy of Natural Sciences “The earth is at the peak of one of its passing warm spells, It’ll start getting cold by 2012, and really, really cold around 2041″. So who are we to believe? A respected scientist or Al Gore who has made millions from his crusade for the planet and his questionable agenda and phony pseudo science.
If the planet is warming I can honestly say I hope so. We will get by and probably do well in the process. What really concerns me is the muzzling of real science in the debate. An objective media would go a long way in helping us all deal with the facts as they truly are. Focusing on the alarmist perspective only causes undue fear where none is warranted.
Is driving our SUV’s and minivans really the problem here? Or is our planet just going through another climate cycle like it has done so many times before? The only thing I know for sure is I can’t count on the media to provide the answers.
I recently produced the feature film The Harvest Project. Find out more and view the trailer at http://www.theharvestprojectmovie.com The movie is also available for sale at http://www.filmannex.com/search/searchkey/harvest%20project You can contact me at doug_king@shaw.ca
Article Source: http://EzineArticles.com/?expert=Doug_G_King
Leading by Example: VA Funds Solar Energy Projects | CleanTechies … Just over a year ago, President Obama asked the Federal government to lead by example when he signed Executive Order 13514: Federal Leadership in Environmental, Residential Solar Permits in Central California Way Up These programs allow homeowners to use bond-backed property tax assessments to install solar panels, add insulation or make other energy-related improvements. The money is paid back over periods as long as 20 years through special tax … PurePoint Energy: Solar Energy For Dummies Renewable energy developer and consultant specializing in the installation of solar, wind, and biomass technologies. Based in Norwalk, CT, primarily serving clients in throughout New England as well as up and down the East Coast. … Ohio College to Install Huge Solar Roof Panel array will be the biggest at any US college. Solar Photovoltaic Industry Strong Support By The Government And, for the project to install solar batteries provides the conversion efficiency of silicon photovoltaic cells at least 16%; polycrystalline silicon photovoltaic products at least 14%; amorphous silicon or thin film PV products …GLOBAL PULSE: The Color of Stimulus
If I gave my family questionable marks on its efforts to reduce, I admit that when it comes to re-using I am the Queen. When I was a teenager there was a song, ‘I was country, when country wasn’t cool.’ Well, I was re-using back when it was called hand-me-downs and everyone looked down on you for wearing them. Honestly though, I can remember being about five and having a distant second cousin visit. She had brought a bag of clothes that had been her daughter’s, who had died. That may sound morbid, but I think my smiles and thanks for the ‘new’ clothes may have helped to let go of not only the clothes, but a bit of her grief as well. If you were to look in my three year old’s playroom, most of the toys you would see have been given to her second-hand from friends, purchased at charity shops or even salvaged from the bin…including her wonderful Little Tikes kitchen centre. But my re-using does not stop there, if you open my kitchen cabinets you will see stacks of old containers that once held spread, cottage cheese or something else. With the exception of the air-tight sealing bowls that my husband uses to transport his food to work each day, we do not purchase or use Tupperware, Serv-rite or any other type of plastic wear. And those plastic containers that once housed my produce such as strawberries, blueberries and peaches are now being re-used as pots for my spring seedlings. I also have a cabinet full of sauce jars that I am looking for ideas on how best to re-use. I have already filled several with nuts, bolts, nails and the like. But even after getting organised myself, I just can’t bring myself to throw these into the recycle bag when I know that they are perfectly re-usable as they are. As I mentioned yesterday, I re-use the few plastic bags we get from quick trips to the corner store for bin liners in the bathrooms. I have even taken to re-using my daughter’s Fruit Shoot bottles by refilling them with concentrate fruit and water. Of course, a tad of a warning on this one: do not freeze plastic bottles as it can cause a cancer causing chemical to leach into the drinks. So I always replace the bottles after a few uses just to be safe. But then they can go into the recycle bag (but that is tomorrow’s topic). Even dinner last night was re-used food; better known as left-overs. Anyone that reads my blog knows I have dozens (hundreds?) of ideas for re-using food as soups, smoothies, casseroles, stir-fries or just re-heated and served. I call this creative cooking and make it a staple of not only our family’s diet, but of my blog as well: offering recipes to my readers. I think one of the most beautiful examples of re-using is the folk-art form of quilting. Not only can worn-out old clothes be turned into colourful quilts, but they can tell a story: our history. I have also heard of people braiding old cloth to make rugs as well. Last year at the Green Show, I bought my daughter the cutest little purse made from old plastic juice boxes by a women’s cooperative in the developing world. Thinking back to my own childhood and the used toys and clothes that I was blessed to enjoy, I am glad that it has become the ‘cool’ thing to re-use. Not only do these items still have good life left in them, but they remind us that we, ourselves, re-use life’s lessons to improve our world. So next time before you toss that item into the bin or even the recycle bag, stop and ask yourself could it be re-used instead: perhaps that wine bottle would look nice on a table with a candle or a few flowers or could that old t-shirt be cut into squares and used instead of paper towels or how about making puppets with old and mismatched socks. The ideas are limitless…I hope you will share your favourites with me as well. Terri O’Neale is the mother of six; ranging in age from 3 to 22. She has been both a working and stay-at-home mother at various times in her life. She was also a single mother for almost five years, before re-marrying the love of her life at the age of forty. Obviously, she has a life-time of training in raising a family on a tight budget. In addition to these real life experiences, she possesses a bachelors degree in health education and a minored in environmental management in her masters programme. Terri feels strongly that this is one of the most challenging times in history for the family, but she also believes that families with the will and resolve to address the pressing issues of saving money, becoming greener, leading healthier lifestyles and spending more time with one another can endure these challenging times and come out victorious in the end. Through Frugal Family articles, blogs, videos and social networking, she helps modern families rediscover some lost art forms such as cooking, sewing, and gardening. The goal is not to go back in time or become fanatical, but to help all families find simple and effective ways that fit into their lifestyle to make moderate changes with huge impacts. For more information, check out her blog http://frugalfam.wordpress.com/.
Food & Technology Key
The Queen of Re-Use: How she does it.
Many folks have taken to Global Warming, which by definition means the planet is warming due to CO2 from man-made emissions. If the planet were warming from any other source, it would be by definition called climate change. Unfortunately for the Global Warming evangelists the planet may not be warming, in fact, as of late the solar minimum is at a record low, and the planet is cooling. Still, the believers in this doom and gloom scenario say that Climate Computer Modeling proves it. Oh, really, because as it stands humans wrote those computer models and the algorithms that generate these futurist prediction. In fact, one of the biggest issues with the climate modeling is they keep re-adjusting them to get the desired resultant. There is something seriously fishy about that. Personally, I do not like pollution, land, sea or air, or even all that space debris up there. That’s just proof of inefficiency, which is not worthy of human potential or intellect. But, computer modeling is only as good as the program and data. Garbage in = garbage out. If reduction of pollution, let’s say CO2 is the goal then let’s dump the scientific pretendism and get real; let’s just say that the human race has agreed to reduce greenhouse gases on the planet caused from mankind and then start doing it. But to hold this Global Warming doomsday theory out as real is really not helping anyone. In fact, we are liable to change our entire civilization’s infrastructure for no reason whatsoever. Because the reality is that the Earth’s atmosphere and ambient surface temperatures heat up and cool in cycles and they have for billions of years, and there is nothing that mankind presently can do about that. Think on it. Lance Winslow - Lance Winslow’s Bio. If you have innovative thoughts and unique perspectives, come think with Lance; http://www.WorldThinkTank.net/.
China 2035 Bigger Than USA
Climate Modeling Proves Global Warming
Plasma Gasification Plant Benefits
Plasma Gasification Plant (PGP) projects are being developed by at least five gas plasma technology companies, and there are real benefits to be obtained from this technology for the destruction of Municipal Solid Waste (MSW).
There is some debate still whether the process has been demonstrated to be a vaible technology which can be reliably operated by our waste management companies at reasonable cost and in compliance with all emissions regulations. However, the consensus seems to be largely in acceptance now that the technology is largely proven and inherently cleaner than incineration.
Although, gasification is used as a power generating technology, and gas plasma plants do provide a power feed-in to the local power grid, it should be realised by all that the purpose of selecting plasma gasification is currently that of achieving maximum waste mass destruction. The intent of the PGP is primarily to provide an efficent and clean method of dispoing of large quantities of residual MSW. Plasma gasification, although it does produce energy from waste is not primarliy an Energy from Waste (EfW) or Waste to Energy technology. There are other better proven, more efficient, and potentially always also cheaper ways to produce Energy from Waste, such as incineration.
PGPs suffer a high sacrificial load from the use of power at the electrodes to generate the plasma, and energy is also expended before the MSW reaches the plasma zone in the gasifier in chopping up and ensuring that the particle size of the waste is quite small. For this reason they do expend a large proportion of the power generated just in maintaining their own internal power demand.
However, as a waste destruction method producing an inert residue without creating at the same time high levels of toxic gaseous emissions the gas plasma process excels according to reports made to date. It has every reason to be cleaner as well because the reactions which take place in the plasma state take place so quickly and completely that the toxic organic chemicals produced in other combustion processes simply don’t get a change to be produced.
For a waste management process PGP therefore holds a very good prospect of adoption, as it is a process which is very efficient at diverting waste away from landfill, and thus scores highly among local authority waste disposal engineers who are constantly seeking to comply with regulations to reduce the amount of organic waste sent to landfill.
The PGP process however, also holds another merit and that is that it is being viewed more favourably by the public than incineration, and one main reason for that would be its clean emissions record when compared with incinerators historically.
Throughout Europe the requirement for BMW to be reduced by ever larger percentages necessitates the use of new technology to achieve this high rate of waste diversion, even after high recycling has also been achieved.
Look out for a plasma gasification plant appearing in a district near you soon, and look favourably upon it!
Steve has built a great web site where there are a lot more facts about gasification. This is a hot subject indeed for this technology which has become an essential read for all those who appreciate renewable energy issues and are interested in taking action to reduce the impact of climate change.Article Source: http://EzineArticles.com/?expert=Steve_D_Evans
Green’s Meets
Unless you have been trapped in a cave for the last seven months you are well aware of the disaster overtaking the American automobile industry. Our government is using billions of taxpayer’s dollars to prop up an industry that has been one of the leading facilitators of numerous ills in our society, which will also take billions of dollars to repair, if it is even possible to do so. Air pollution which contributes to increased medical costs, urban sprawl, a negative balance of payments from importing oil and global warming can all be traced at least in part to our addiction to the automobile. Now that I’ve ranted about the autos effect upon our society I also greatly acknowledge that we all, myself included, greatly enjoy the mobility and freedom provided by the pernicious machine. We can’t live with ‘em and we can’t live without ‘em. What are we to do? A lot has been written about the currently nonexistent plug-in electric car. This machine when it finally hits the market could help solve some of our problems but current pricing estimates place the car in the forty thousand dollar range. I’m sure of one thing, it won’t solve many problems if you don’t sell them and at that price I’d hedge my bets. However, there is one personal transportation option on the market that fits into all of President Obama’s initiatives for energy self sufficiency, global warming (reduction of green house gases), health care (exercise and weight loss), environmental protection (reduction of air and water pollution), and infrastructure renewal. That option is the Electric Bicycle. The electric bike using lithium batteries (traditional lead-acid is very environmentally harmful) can go, depending on load factors and riding habits, roughly twenty miles at twenty miles an hour on one charge. It is almost completely silent, gives off no emissions, does not use foreign oil, does not require much room to operate or park, never needs a tune up and provides exercise. It eliminates many of the drawbacks of riding a traditional bicycle for basic transportation while having few of its own. I recognize that not many of us are hardy enough to ride a bike in the rain, snow or freezing cold but that applies as well to motorcycles, motor scooters and traditional bicycles. The electric bike can get you farther, faster without arriving at your destination soaked in sweat. It can operate in many places where other motorized vehicles cannot and makes taking hills a cinch. Riding five or ten miles to work is no big deal and you can simply pedal around bottled up traffic. Usually the lightweight batteries easily detach from the bike and can be carried into your place of work or school for recharging. Some electric bicycles offer high tech extras such as LiFePO4 batteries that are good for a thousand recharges, regenerative braking that helps recharge the battery much as a Prius does, and internal gearing to generate more torque for uphill climbs. Most electric bikes use what is referred to as a hub motor. This is not a traditional gear or belt-drive motor but is built directly into the hub of one of the wheels. This motor contains two internal rings of opposing magnets that when power is applied causes the wheel to spin. Such motors need little service and never require oil changes, spark plugs or new belts. Electric bikes come in several of styles. There are the traditional “beach cruiser” and mountain bike styles as well as electric folding bikes, tricycles and “road bikes”. The electric folding bikes are particularly interesting. Smaller and lighter than a traditional bicycle, they easily fold up and fit into a car trunk and can be carried on a commuter or subway train with little effort. You can take the train to your stop, unfold the bike and pedal on your way. They are also useful for those who live in tight quarters and have no external place to store their ride. For those of you that are moderately handy with tools, there are a number of electric bike kits on the market that allow you to adapt an ordinary bicycle into an electric bike. One company, Worldwide Electric Bikes, has a particularly well-designed kit that has many of the features I previously mentioned. These electric bike kits do not require a high level of mechanical ability to install. A few common hand tools, a basic understanding of how things go together and the ability to read directions is all that is required. However, if you don’t know the difference between a crescent and a hex wrench, you may wish to buy a pre-made bike or have someone install the kit for you. If you do choose to go the kit route, you can end up with a much more powerful and sophisticated bike for substantially less money than a factory built electric bike. Electric Bicycles in all forms have long been a staple of personal transportation in Europe and Asia where there are hundreds of thousands in operation. In the United States bicycles have traditionally been dominated by the toy or recreation market or for the dedicated enthusiast. In both Europe and Asia, cycling has been a traditional means of basic transportation. I believe that this is going to be more and more the case in this country. People are avidly seeking relief from the high financial and societal cost of automobiles. The electric bicycle, while not a panacea, is definitely poised to help provide a portion of that relief. Electric Bicycles are inexpensive to purchase, require no license or insurance, have a negligible cost of operation and are totally “green”. So, what’s not to like? http://www.worldwideelectricbikes.com
free battery electric vehicle
Green Transportation - No Bailouts Necessary
Water Efficiency - The Resource Matrix Part 2 of 4 - Water’s Role in Global Warming
Last week, we introduced you to the Resource Matrix, which is everywhere, it is all around us. It is the world that has been pulled over your eyes to blind you from the truth.
We showed you how economics leads to people maximizing their benefits in “win-lose” propositions: you want diamonds and gold for nothing and they want to give you useless junk for a king’s ransom. And how we’ve been hypnotized in believing what they want is also what we want.
But the scales have been falling from our eyes, we’re beginning to see the truth, and the power has been shifting away from the “I want your goodies for nothing” crowd:
- Do-gooders have increased our awareness and worked to change deals from “win-lose” to “win-win”
- There is no “free lunch:” finite energy resources will run out; actions have consequences, and the consequences of our actions are already visible, rather scary, and quite irreversible; and that the “I want your goodies for nothing” crowd hasn’t been telling the truth
We now realize we’re all in this together: we have greater awareness of our actions and the desire to change, and have ways to change.
Hallelujah and Praise the Collective!
Today, we introduce the resource called water, its parallels with fossil fuels, and its role in global warming.
None of this is to dismiss or diminish the contribution of fossil fuels in global warming. Hey, just like the Special Olympics, if you participate, you get a medal. We just think that gold-medal winner Fossil Fuels has stolen the spotlight, letting silver-medalist Water Use keep us hypnotized in believing that water is a free lunch, and that nature will clear up polluted waters while getting away with breaking the rules.
Water, water, everywhere,
not a drop to drink.
According to our friends at How Stuff Works, who I wrote about sarcastically for their oxymoronic clean coal article in discussing how true public relations stuff really works, gives us this data:
- 98% of the planet’s water is in the oceans. It’s salt water - we can’t drink it or irrigate our crops with it.
- 2% is usable. Of that 2%:
- 80% is locked up in polar ice caps and glaciers
- 18% is underground in aquifers and wells
- 1.8% is in lakes and rivers
- 0.2% is elsewhere: either floating in the air as clouds and water vapor, locked up in plants and animals (and your body), and in foods and beverages.
Okay, so 20% of the usable water (only 0.4% of all water on Earth) is accessible, right?
Well . . . no. Many of the aquifers, wells, lakes, and rivers have been sucked dry like a once-juicy fly carcass in a spider’s web. (The 18% and 1.8% you see above is like the money in the Social Security Fund: there actually is nothing there.)
And many of those water sources that do still have a drop to drink are worse than the ocean’s salt water. Drink salt water and you’ll need to yawn into a bucket. Drink this water and you’ll kick the bucket.
And I know you aren’t asking this burning question:
“So . . . global warming to release fresh water from ice caps and glaciers is a good thing, no?”
Percentage this, percentage that.
Talk my language, will you?
I know I’m pulling the disgusting old government trick: drowning you in an ocean of water statistics.
So let’s make it plain and simple:
You bring in $10,000 a month. You’re also living high on the hog and doing your personal best to outshine every bling-bling Hip Hopster Musical Artist in materially conspicuous consumption:
- $9800 goes to the McMansion mortgage and gold-plated Rolls Royce lease
- $160.00 goes to investments in clothing and accessories
- $0.40 has been lost in the sofa cushions
- $39.60 a month is for everything else: food, phone and electric bills, income taxes, and all the other non-essentials: Don’t spend it all in one place!
Aquifers and wells and lakes and rivers:
Dry or polluted, oh my!
Fred Pearce, author of When the Rivers Run Dry, helps us quickly understand it:
We can all save water in the home. But as laudable as it is to take a shower rather than a bath and turn off the faucet while brushing our teeth, we shouldn’t get hold of the idea that regular domestic water use is what is really emptying the world’s rivers. Manufacturing goods … consumes a certain amount, but that’s not the real story either. It is only when we add in the water needed to grow what we eat and drink that the numbers really begin to soar. (emphasis mine.) (Fred Pearce, When the Rivers Run Dry, Boston: Beacon Press, 2006. p 3)
Here are a few numbers he gives:
- to grow a pound of rice: 250 to 650 gallons of water
- to grow a pound of wheat: 130 gallons
- to produce a quart of milk: 500 to 1000 gallons
- to produce a pound of cheese: 650 gallons
- to produce a 1/4 pound of burger: 3000 gallons
He kindly puts water use into perspective in annual terms:
- 1 ton (265 gallons) for drinking
- 50 to 100 tons (13,250 to 26,500 gallons) around the house
- 1500 to 2000 tons (397,500 to 530,000 gallons) for food and clothing
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sidebar:
How Many Gallons to Produce One Pound of Beef?
Lies, damned lies, and statistics
US Beef industry’s Cattlemen’s Association: 441 gallons
Fred Pearce: 12,000 gallons
Water Footprint Network: 1854 gallons (calculations: 15500 litres of water per kg; 4079 gallons per kg; 1854 gallons per pound)
In an industrial beef production system, it takes an average three years before the animal is slaughtered to produce about 200 kg of boneless beef.
The animal consumes nearly 1300 kg of grains (wheat, oats, barley, corn, dry peas, soybean meal and other small grains), 7200 kg of roughages (pasture, dry hay, silage and other roughages), 24 cubic meter of water for drinking and 7 cubic meter of water for servicing.
This means that to produce one kilogram of boneless beef, we use about 6.5 kg of grain, 36 kg of roughages, and 155 litres of water (only for drinking and servicing).
Producing the volume of feed requires about 15300 litres of water on average.
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Where does all that water come from?
From virtually everywhere
If it comes from imported goods (Thai rice or Egyptian cotton), the water comes from those countries.
When the water is collected from rivers or pumped from underground, as it is in much of the world, it’s:
- increasingly expensive
- increasingly likely to deprive someone of water (nothing to drink)
- increasingly likely to empty rivers and underground water reserves
And when the rivers are running low, as they are more frequently, there is less water to grow anything at all.
The water used in growing and producing goods around the world is known as “virtual water” and the trade of these goods is known as “virtual water transfers.”
And who’s the biggest water exporting Mouseketeer of them all? The United States.
When you drink coffee from Central America, you are influencing the hydrology of the region, virtually taking a share of the Costa Rican rains. The same is true within a national and regional boundaries. The Colorado River is drained so Californians can eat their Big Macs and have friends over for a Sunday afternoon barbecue.
In the same way that your use of fossil fuel is measured as a “carbon footprint,” your water use, actual and through virtual water transfer, is measured as a “water footprint.”
How big is my water footprint?
I’ll show you mine if you show me yours
Arjen Y. Hoekstra, professor at the University of Twente, the Netherlands, introduced the water-footprint concept in 2002. It “shows water use related to consumption within a nation, while the traditional indicator shows water use in relation to production within a nation.” (Hoekstra and Chapagain, Globalization of Water, Malden: Blackwell Publishing, 2008, p. 3)
With Hoekstra and Chapagain’s water footprint calculator (waterfootprint.org), you select your country, input food, domestic water use, and industrial goods consumption, press a button, and you get your:
- total water footprint for the year
- bar charts for the three components
- bar charts for individual food categories
For example, you’re in the US, eat only 1 pound of cereal a week (.4545 kg) and have a low-fat, low-sugar diet, use a low-flow showerhead, use a no-flush eco-toilet, and never run the tap while brushing your teeth. Two extremes:
- You’re the hippiest of the hip: making $10,000 a year: Your water footprint: 245 cubic meters (65,170 gallons)
- You’re the hippiest of the Yuppies: making $120,000: Your water footprint: 2979 cubic meters (792,414 gallons). Difference due to your income’s effect on industrial production.
Three notes on the calculations, because Professor Hoekstra is European and lives in the social welfare country that started birthing hippies in Amsterdam decades before they showed up in the US at Woodstock:
- You input kilograms for food:
- 1 kilogram = 2.2 pounds = 35.2 ounces
- 1 ounce = 0.028 kilograms. 1 pound = 0.454545 kilograms
- Your water footprint is in cubic meters per year:
- 1 cubic meter = 35.3 cubic feet = 266 gallons
- The higher your income, the greater your water footprint, even if you don’t personally consume anything: you’re a capitalist pig supporting the Establishment Regime, I guess
So how is Cinnamon’s capitalist water footprint? Answer: 650 cubic meters (172,900 gallons)
I showed you mine. Now you show me yours:
Get the naked truth: Calculate your waterfootprint now:
Water’s running out:
I get the fossil fuel analogy so far.
And what about climate change?
We return to Fred Pearce’s book to find an example, of which he has oceans:
China’s Yellow River: The fifth longest in the world, it begins high in the mountains of eastern Tibet and journeys more than 3000 miles. Almost half a billion people depend on it for drinking and crop irrigation, and it’s made China the world’s largest wheat producer and second largest corn producer. Yet more than half of the lakes it feeds have disappeared over the last 20 years, and a third of pastures have turned to desert. This desertification generates huge dust storms that choke lungs in Beijing, close schools in Koreas, dust cars in Japan, and rain dust on mountains across the Pacific and Western Canada.
State irrigation projects along the Yellow River soak up the majority of its water - the total official allocations are greater than the actual flow.
The resulting drought could be an early warning sign of global warming.
Much of the declines in moisture reaching rivers is in line with prediction of climate researchers. So how does this global warming happen?
Higher air temperatures from desertification increase evaporation from oceans and intensify the water cycle. This increases atmospheric water vapor - 8 to 10% more than today. This increases global rainfall, but the rain is being redistributed: middle latitudes (read: the US) are becoming drier. Higher temperatures increase evaporation on land, meaning soil dries out faster, meaning less rainfall is reaching rivers.
The higher temperatures melt glaciers and snowpacks. At first, this leads to unpredecented floods. After the glaciers disappear, meltwaters that feed rivers disappear. The combined decreasing rainfall and increasing evaporation will lower moisture by 40% in the southern and western states.
The Sierra Nevada snowpack could diminish by 70 to 80 percent over the next 50 years. And some of the world’s most productive agricultural regions could dry up.
Global climate is becoming more extreme: the dry areas become drier, and the wet areas become wetter. And more areas are becoming dry deserts. Loss of habitat and agricultural lands. It’s a vicious cycle.
So what can you do?
Navigating through the Resource Matrix
As Fred Pearce points out, your drinking and bathing account for 0.05% of your total water consumption. Your food and clothing weigh in at 95.00%, although I find his 12,000 gallons needed to produce a pound of burger rather wild.
As Professor Arjen Y. Joekstra shows with his Water Footprint Calculator, your consumption of meats accounts for a lot, as does your guilt by association of being in an industrialized country.
The obvious solution: eat fewer e-coli burgers from your neighborhood Salt and Fat Slop Bucket restaurant.
The wiser solution: like your choices in energy use, become more aware of the resources needed to produce anything and the consequences. Such as luxurious cotton grown in the Egyptian desert.
Next article in the water efficiency series:
How an illiterate, lice-infested, foul-mouthed
peasant on some other side of the globe affects you
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.
And all of this is for one purpose:
To help you see the Resource Matrix, everywhere, all around you.
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
s.a.g.a.: IKEA To Install Solar Panels on Eight California Locations IKEA today announced plans to install solar energy panels on eight of its California locations. Pending governmental permits, installation can begin in late Fall, with completion expected in early 2011. Collectively, the eight buildings … White House to Install Solar Panels | World View Update By spring of next year, the White House will install solar panels and photovoltaics on top of the White House living quarters to supply hot water and also some of the electricity used by the First Family. The planning for the solar … Solar Knowledge: IKEA Stores to Install 20000 Solar Panels IKEA Stores to Install 20000 Solar Panels. IKEA plans to expand its use of renewable energy this year by installing nearly 20000 solar panels on eight of its California locations. The Swedish home furnishings retailer expects the panels … Sean Diamond Sustainability: Solar: to wait or to install? I recently had a conversation with a potential customer about installing solar PV. The customer was asking whether it makes more sense to wait a few years before installing solar or to install solar now. In particular the customer was … Home Solar Power â?? The Start Of Energy Freedom | Web Magazine Today You’ll begin to love the sweltering sun in the summer when you install home solar power. Home solar power means lower electric bills and no loss of power no matter how bad the storm or how many neighbors are without utilities.Green Technology
With the current economic problems, hopefully more people are interested in saving money and recycling. Businesses are always interested in keeping the customers they have and getting new ones. The cost of fuel has been big in the news for years but, when compared to plastics, it’s a small percentage of petrochemical use. Saving on the use of petrochemicals for making plastics can extend the timeframe before peak oil and lower the price of fuels. Most grocery stores offer a five cent per bag discount if you bring in your bags. You can do that in a variety of ways. One is by taking the old plastic bags back and another is using cloth bags, which can often be purchased at the store. Usually, grocers will sell cloth bags with their advertising on them at their cost, which is cheaper than an equivalent type bag can be purchased elsewhere. By doing that, the grocer gets their investment back and advertisement as well. If your grocer doesn’t have a program of that type, tell them about the advertising value and mention that you take your bags everywhere, including their competitor’s store. If you don’t want to spend the money on cloth bags, reuse your old plastic ones. Plastic bags aren’t as durable as cloth and it’s a good practice to double bag when using a plastic bag more than once or twice. We’ve found cloth bags to be a good investment. Most of our bags are almost twenty years old. If we save two cents a bag and buy ten bags of groceries, and do that five times a month, we’ve saved a dollar a month. That doesn’t sound like much but our cloth bags paid for themselves the first year, with the last eighteen plus years being pure savings. Tying the bags off keeps the goods inside from spilling all over the trunk on the way home. But, tying them off presents another problem. Getting them untied, especially the plastic bags, can be difficult if not impossible. Most people consider it not worth the effort and rip them apart. There’s a simple answer to that problem. Since a picture is worth a thousand words, I have a brief slide show that explains the process. Once the bags are tied in the manner I show in the pictures, they untie easily and can be used over and over. Since a picture is worth a thousand words, I have put together a slide show tutorial. You can access the slide show by going to the URL in the resource box. Helpful health, how-to, travel and automotive information can be accessed by going to http://www.newliferoadmap.com
Tech Lab’s Comedy Hour
Saving Money and the Environment, One Bag at a Time
Green Tip - Reuse It
It is good practice to reuse as much as you can. It will prevent waste and for plastic items help keep them out of dumps!
Items you can Reuse at least once:
* water bottles. as long as you keep them clean, you can reuse them several times. It will save you money just to refill the bottle with tap. refrigerate it and you are good to go.
* newspaper. you can use old newspapers to clean your windows and mirrors, as shelf liners and more. reusing newspapers can really help save on paper purchases, thus saving trees!
* donate or free-cycle. items like clothes, toys, books…almost anything can be donated or given away instead of tossed. just make sure it is clean and in decent condition.
* make compost. use your unused natural food items to make compost.
* batteries. stop buying one time use batteries and only purchase rechargeable ones.
* refillable. buy condiments, shampoos and the like in large containers and refill smaller user-friendly container for it. This will help you buy less bottles and use less plastic!
* bags. stop using paper and plastic bags. buy canvas bags and reuse them over and over again.
* paper. any time your printer messes up or you make an error when using paper, let your kids use it to color on. or, you can use it as scrap.
* clothing. use old socks, t-shits and cloth materials as rags, to clean the car or to dust with.
* egg cartons. these can be reused for arts and crafts, paint holders, taco items, or even to organize jewelry or small items.
* plastic milk jugs. these can be used for pots for plants or even to water them.
* cardboard boxes. go to a fun place with your kids that has a hill and have a summer sledding competition! cut large squares and use the cardboard as your “sleigh.”
As you can see, there are many many ways that you can reuse items you use everyday. Be creative and brainstorm about how you can make the most of everything and be a good steward to God’s planet!
Copyright © Green Christian Network, All Rights Reserved
About the Author: Cindy Taylor is a Christian stay at home Mom who love the Lord and cares about God’s planet. You can see her passion and writing at her website, Green Christian Network (http://greenchristiannetwork.com).
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