The Windpower Industry’s “top ten” false and misleading claims … Number 5 – Wind technology is noiseless and creates few disturbances.

Posted on December 1, 2009 by morgan

From stopillwind.org

# 5. Wind technology is noiseless and creates few disturbances.

Tall wind turbines in concert with each other, especially those sited on prominent ridgetops, create profound noise reverberations extending out for more than a mile, sounding like “a boot tumbling in a dryer” or the revving of jet engines on a runway. It is very difficult to predict noise levels in the mountains compared to flat land. Noise levels will be amplified in some areas and diminished in others depending on the shape of the terrain, the wind direction, the changes in wind velocity, and so on.

The impact on people also depends on whether wind turbines operate in synchronization and whether the noise “beats” or throbs. This also depends on wind direction and velocity. Who will get bombed? Who knows? That is likely very hard to predict. The travel of sound waves and their behavior is similar to the way water waves travel. Most of us have seen how water behaves when waves enter into a gap or a split or channel of rocks in the ocean. The waves travel inward and pile up-and-up as the channel restricts them. The more the channel narrows, the greater the piling of the wave. Sound behaves in the same way. The more it piles up, the louder it gets.

A letter from Meyersdale, Pennsylvania resident Bob Laravee, who lives 3,000 feet from the windplant, documents how he measured the noise over a 48-hour period. The results “showed an average reading of about 75 decibels during that period.” “According to the EPA, noise levels above 45dB(A) disturb sleep and most people cannot sleep above noise levels of 70 dB(A).” Turbine noise is so irritating and disconcerting that it often causes people to seek medical attention, as Rodger Hutzell in Meyersdale had to do. Wind leases typically contain “noise easements” to protect the company from liability.

Noise from European windplants is a notorious and well-documented nuisance there. The wind industry is very aware of this problem but often tries to “hide” it by taking visitors during the day directly under the turbines where there is typically little noise or by conducting tours from May-September when wind speeds are typically lower.

A leading acoustical researcher of the noise problem, G.P. van den Berg of the University of Groningen in the Netherlands, believes loud aerodynamic sounds are generated when the moving propeller blade passes the turbine tower mast, creating sound pressure fluctuations. Such fluctuations may not be great from an individual turbine, but when several turbines operate “nearly synchronously, the pulses… may occur in phase,” significantly magnifying the sound. Van den Berg also notes a “distinct audible difference between the night and daytime wind turbine sound at some distance [more than one mile] from the turbine”—a finding consistent with the experiences of Meyersdale residents. (Both quotes were taken from G.P. van den Berg, Effects of the Wind Profile at Night on Wind Turbine Sound: Journal of Sound and Vibration (November 2004) 277:955-970.)

The problem is so acute and well documented that the First International Conference on Wind Turbine Noise was held in Berlin, Germany on October 17 and 18, 2005. Organized by INCE/Europe in collaboration with the European Acoustics Association, the conference addressed “Wind Turbine Noise: Perspectives for Control”

A New York physician, Nina Pierpont, has called the phenomenon, Wind Turbine Noise Syndrome; her book on the subject has been released to the public – Wind Turbine Syndrome: A Report on a Natural Experiment.

Regulatory agencies and county zoning ordinances should insist upon acoustical field research to assess this noise phenomenon, requiring independent measurements and interviewing nearby residents. They should pay particular attention to noise measurement averages. Averages would not mean much if they were applied, say, to residents living next door to an outdoor pavilion during a rock concert. And it will not mean much to the residents of a rural community, either—who are used to the enjoyment of a quiet landscape.

An exemplary noise testing protocol for windplants was recently approved as part of the Shawano County, WI wind ordinance. Other polities should strongly consider adopting this standard to protect citizens from windplant noise. This county had been targeted for industrial wind development and the citizens there, aware of problems with wind technology, vowed to protect the public by establishing regulations and testing protocols that the wind industry and enabling agencies now must follow.

Other nuisances industrial windplants may cause are:

*Shadow Flicker and Strobe Lighting. When turning with the sun behind them, turbine blades cast moving shadows across the landscape and into houses in ways that may affect surrounding properties at a considerable distance; these are commonly described as a strobe effect within houses that can be difficult to block out. “Some people lose their balance or become nauseated from seeing the movement. As with car or sea sickness, this is because the three organs of position perception (the inner ear, eyes, and stretch receptors in muscles and joints) are not agreeing with each other: the eyes say there is movement, while the ears and stretch receptors do not. People with a personal or family history of migraine, or migraine-associated phenomena such as car sickness or vertigo, are more susceptible to these effects. The strobe effect can also provoke seizures in people with epilepsy.” (Nina Pierpont, in a personal conversation. Dr. Pierpont was formerly a clinical professor of pediatrics at Columbia, University and is now in private practice in Malone, New York).

*Lightning and power surges. Wind turbines themselves may cause irregularities in the power supply as wind speed changes. Within the power grid, supply and demand must always be balanced; there is no storage of electricity on this scale. When the wind dies, there is less power (brown-out) until a plant using a more reliable resource powers up to increase production. When the wind gusts, there may be power surges. Residents living near the installation in Meyersdale, which came on-line in December 2003, have had to replace stove elements and small appliances due to power surges which started at that time. Residents of Lincoln Township, Wisconsin, near a wind installation noticed an increase in power surges associated with lightning strikes in their area after the turbines went on-line in June 1999. [Two computers protected by surge protectors and a TV set, all in different houses, were simultaneously “fried” one evening when lightning struck a nearby wind turbine tower.]

* Shoddy site construction practices can also cause serious erosion problems, especially if built along steep slopes. There is much documentation about how turbine blades throw bolder-sized ice that has accumulated on the blade surface during winter. There are documented—and very dangerous—fires caused by malfunctioning turbine equipment.

Posted in Industrial Wind Health Issues, Jon Boone, Windpower Industry False Claims | Tagged , , | Leave a comment

Birds and bats hope to find three wise men in Bethlehem – (Bethlehem, PA, that is!)

Posted on November 30, 2009 by morgan

From istockanalyst.com:  “Authority weighs wind farm plan: Conservationists laud the idea, but turbines could harm birds, bats, some wildlife experts fear.”

Same argument, different town – how much is our heritage/view-shed/environment/wildlife/community worth?

Seems, In the Pocono Mountains, there is a special spot where the songbirds gather.  On their way to and from their Caribbean winter homes, golden-winged warblers, whippoorwill and other neotropical birds feed on and nest near the blueberry and huckleberry bushes in the breezy barrens of Tunkhannock Township.

Well, you can almost predict what’s coming next, can’t you?  That same breeze is attracting wind chasers, alternative-energy companies hoping to harness the wind and feed an electric power grid with green energy. They’re looking to put turbines, standing possibly 400 feet from ground to blade tip, on prized property surrounding Bethlehem’s water supply.

So, what’s the big question?  You guessed it – Water officials are far from sold on the idea of a wind farm on such sensitive land, but with early income estimates of at least $500,000 a year, officials say it’s worth considering.

Did somebody say MONEY?????  Whohoo!!!  “This could potentially bring a significant amount of income to the utility, and we have an obligation to our rate-payers to explore that,” said David Brong, the city’s director of water and sewer resources. “We also have an obligation to be stewards of the land.”

Well then, what’s to debate?  The same argument about saving wildlife has been tried before gang.  Public officials will take the money, pat themselves on the back and put another feather in their cap.  Heck, here in the Alleghenies we’ll see your songbirds and raise you a Golden and Bald Eagle, and we’ll both still lose.  Check with the Mountain Communities for Responsible Energy and the court battle their waging with the LLCs hawking taxpayer subsidized multi-million dollar Lego sets in an attempt to protect their wildlife.  The Attorney for the wind folks suggests they count how many birds and bats are bludgeoned after the turbines are up and they’ll take a look at “adaptive management.”

The conservationists have fallen for the story line of clean, renewable energy which will eliminate carbon from your beautiful communities.  Hate to tell you Bethlehem, but unless three wise men show up by Christmas to stop these monstrosities, the only thing related to carbon you’ll see disappear will be the migratory birds that visit and the bats that reside in Carbon County.

Read the entire story – the same players pop up with the same statistics driving the same agenda.  Comments welcome.

Wake up folks!  Industrial wind doesn’t work:  “The Windpower Industry’s “top ten” false and misleading claims … Number 6 – Windplants will reduce the mining/burning of fossil fuels and lessen dependence on foreign oil.” … “Just a little reminder – wind won’t replace coal. Sorry, but it’s just a fact!” … “A Conversation with Jon Boone – Industrial Wind and the Environment” … “Yeah, but that was in Minnesota! The wind plant tax deal we have here is rock solid!

Posted in Bat/Bird Kills, Mountain Communities for Responsible Energy | Tagged , , | Leave a comment

Allegheny Treasures blog – why bother?

Posted on November 29, 2009 by morgan

Today begins the third month of Allegheny Treasures – Happy Anniversary to us!!!

If you’ll indulge me on this “milestone” day, I’d like to spend a few moments answering a question I’ve been asked on a couple of occasions – why bother?  If you have a problem with industrial wind coming to the high ridges of the Allegheny front, why don’t you just send a letter to the editor?  You know you can send a letter to the WV Public Service Commission, don’t you?

Well, I did both.  The letter to the PSC was duly recorded and tossed in with several others. Some were for and some against and a fair number came from people who don’t live within easy driving distance, but felt compelled to tell the Public Service Commission what a great idea it is to put the wind plant in our neighborhood.  And that’s fine, everyone should have a point of view.

And that is all Allegheny Treasures is intended to be – a place to present a point of view.  My experience is, unless you’re employed by the newspaper with access to the ink and the authority to place the articles you choose, writing a letter every thirty days may not be enough to present your point of view.  It’s not nearly enough when you consider the money, organization and political push on the wind side.  It’s tough to get attention over here, except for the occasional note of displeasure expressed by writers implying you’re just a backward thinking NIMBY, trying to stop jobs and increased tax revenue.

Well, there’s a much larger story to tell and frankly, the newspapers aren’t telling it.  I don’t know why – it’s all out there.  I agree that industrial wind, unless you simply repeat everything the developer provides, is a complicated issue.  It takes a lot of reading and digging and linking and more digging to get at the real story and the local news folks may not have the time, or in some cases, the inclination to go to that depth.  The AWEA and the LLCs developing wind projects pump out the printed material and canned speeches making it easy to process that point of view.  To get to the other information is an effort.

On September 28, 2009, after much frustration at the lack of information in my local papers I started my education.  My respect for the reasonable, respectful and dedicated individuals trying to create dialogue has only grown.  They have participated, contributed and guided my little adventure and the supply of material available to me is mind boggling.  I am amazed at the number of truly professional and dedicated individuals living on the “dark side” of the industrial wind issue.

My disappointment came from the realization that others, publicly portraying an interest in real energy solutions, seem to dismiss these educated arguments for the slick and glossy presentations of the industrial wind business and their enablers.

I was told some time back that the reason so many articles represented the side of the wind developers was that the “other” side did not provide information.  Well, I guess reporters haven’t been able to find this little blog, or the hundreds of others in existence far longer than mine that present the negative side of the industrial wind juggernaut.  I hope the lack of interest is not a result of the type of reporting one local editor spoke of when describing a sports report – “FROM STAFF REPORTS,” which is “newspaper-speak” for either listening to the game on the radio or having a coach calling it in ...”  “Phoning it in” would be unfortunate for the community which relies on a balanced presentation of facts.

So, thank you to the folks who mentored, corrected and educated me.  For those who drop and do not agree with the conclusions, please do disagree.  That’s how we learn.  Your comments will be published just as those coming from folks who do happen to agree.

For members of the press who happen to drop by Allegheny Treasures, you’ll find I make every attempt to embed links and supply references to materials I comment on and, should you find an item of interest, you’re welcome to use any and all.  Everything you see here came from people a lot smarter than I am.

Finally, for any members of the press who choose simply let this issue drift to conclusion without question I can only say – you’re the reason I bother.

We make every effort to be accurate.  Should you find an error, omission or broken link, please notify me in the comment section.  Corrections will be made as quickly possible.

Posted in Allegheny Mountains | Tagged , | Leave a comment

Wind Turbine Syndrome: Clinical study of health effects of large wind turbines published

Posted on November 28, 2009 by morgan

From National Wind Watch:  “Wind Turbine Syndrome: Clinical study of health effects of large wind turbines published

Rowe, Mass., Nov. 28, 2009 — Dr. Nina Pierpont, a pediatrician and population biologist in Malone, New York, has announced the publication of her book-length study Wind Turbine Syndrome: A Report on a Natural Experiment. [1]

In interviews with ten families living 1,000-4,900 feet away from recently built industrial-size wind turbines, a “cluster” of symptoms was revealed: from sleep disturbance, which affected almost everyone, to headache to tinnitus, vertigo, nausea, irritability, memory and concentration problems, and panic episodes. Industrial wind turbines have a total height of 300-400 feet or more, with blades of 125-150 feet that sweep 1.5-2 acres of vertical airspace.

The book includes supportive reviews and notices by several noted physicians in related disciplines. Although primarily directed towards medical professionals, it includes an informative and often poetic version for the lay audience.

The individuals affected by Wind Turbine Syndrome noticed that they developed symptoms after the turbines near their homes started turning. Symptoms were relieved when they left the area and resumed on their return. Eight of the ten families eventually moved away from their homes because of the severity of the symptoms.

Although not everyone living near turbines is subject to these symptoms, the data Pierpont presents are a concern, considering the current political drive to construct more and ever larger industrial wind turbines close to people’s homes, as well as in the habitats of other equally or more sensitive animals.

Pierpont’s sample size was large enough to show that individuals with pre-existing migraines, motion sensitivity, or inner ear damage are particularly vulnerable. People with anxiety or other mental health problems are not particularly susceptible, she says, contradicting the common claim of industry developers that “it’s all in their head”.

“This report is a public health wake-up call that our elected officials and administrators need to take very seriously”, said Eric Rosenbloom, president of National Wind Watch, a clearinghouse for information about the adverse effects of industrial wind energy development.

Pierpont and other health and noise experts agree that at a minimum, large wind turbines should be 2 kilometers (1-1/4 miles) from any residence. [2]

According to Pierpont, low-frequency noise or vibration from the wind turbines acts on the balance organs of the inner ear to make the body think it is moving. And this misperception of motion affects other brain functions, including physical reflexes, spatial processing and memory, and physiological fear responses (such as pounding heart and nausea).

Notes
1. Santa Fe, NM: K-Selected Books. See http://www.windturbinesyndrome.com/.
2. http://www.wind-watch.org/ww-noise-health.php.

National Wind Watch® is a nonprofit corporation established in 2005 by campaigners from around the U.S. to promote knowledge and raise awareness of the negative environmental and social impacts of industrial wind energy development. Information, analysis, and other materials are available on its web site: http://www.wind-watch.org.

Posted in Industrial Wind Health Issues, Wind Tower Safety | Tagged , | Leave a comment

Just in case you local town folk woke up today thinking you’re intelligent, this wind developer has news for you!

Posted on November 27, 2009 by morgan

According to jetcat4445, the individual kind enough to post this little ditty to youtube, the gentleman speaking is John Calaway from Ecogen, an LLC involved in industrial wind.  I saw his name connected with Babcock and Brown, but hey with his charm he could be working anywhere.

Anyway, it seems Mr. Calaway is tired of dealing with the local flunkies who actually have the most to lose when his taxpayer subsidized tinker toys are plopped in their midst.  The following youtube clip shows him addressing the New York State PSC in an effort to remove these locals, who are obviously in over their heads and should just clam up, from the decision making process on issues that will impact their lives for decades to come.  He seems to think that it’s a burden on the locals to have to decide what’s best for them.  Yeah … me too!  I want my state government telling me what’s best for me.

I came away from watching this with a new definition for arrogance – John Calaway.  But then, I kinda like participating in my life.  How about you?

Enjoy the clip.  My favorite part starts about 2:40 in.  Send a comment if you care to, and let us know your favorite part.

 

 

Related reads:  “The Windpower Industry’s “top ten” false and misleading claims … Number 7 – Industrial wind developers are interested only in providing a public service” … “Open letter to Tal McBride, partner, Highland New Wind Development LLC” … “Boiling Frogs” … “Maryland to open new Bald Eagle meat processing facility in Garrett County.” … “Hey, there’s this PSC hearing on a wind farm in my district. How about dropping by and slamming the folks I represent and, oh … would you drop off this note for me?”  “Email to Governor Joe Manchin questioning the decision by the WV Division of Culture and History to allow wind installations to negatively impact historic sites.” … and a really great place to drop by – “Cohocton Wind Watch

Posted in Wind Energy Legislation, Wind Energy Shenanigans | Tagged , , , , | 1 Comment

The Windpower Industry’s “top ten” false and misleading claims … Number 6 – Windplants will reduce the mining/burning of fossil fuels and lessen dependence on foreign oil.

Posted on November 27, 2009 by morgan

From stopillwind.org

#6. Windplants will reduce the mining/burning of fossil fuels and lessen dependence on foreign oil.

Nonsense. Here are the facts:

Foreign Oil

Wind only generates electricity. Electricity generation is only part of our energy production. Sixty percent of the nation’s energy use does not involve the making of electricity. Coal and gas-fired power plants do pollute the air with toxic hydrocarbons. But the sheer volume of automobile exhaust combined with home heating demand are major contributors to the problem It is folly to suggest that thousands of wind turbines blanketing the mountains of the eastern US would do anything of significance to mitigate these other energy forces evidently contributing to the warming of the planet. Allegheny Power, the major electricity provider in the region including Western Maryland, reports that oil accounted for three-tenths of 1% of the resources used to generate its power in 2008. Nationwide, this figure is about 1%. Even if industrial wind generated ten percent of the nation’s electricity, it would not staunch the fossil fuel emissions thought to be involved in accelerating global warming, given our nation’s increasing energy consumption and given that wind can only intermittently, and in a continuously variable way, address the electricity portion of the energy production problem—the minor portion.

Given that wind only produces electricity, given that we use so little oil for electricity production, and even if large numbers of wind turbines displaced the three tenths of one percent of our electricity now produced by oil, the region would still be heavily dependent on coal and gas, power sources often described as “dirty”—and we would still be mightily dependent on foreign oil, contrary to what the wind industry claims.

Fossil Fuels

Wind technology in the uplands of the eastern United States stands little chance of displacing fossil fuel extraction efforts or reducing its consumption, given our increasing rate of electricity demand. Wind machinery has problems accessing and controlling its source of power. Because of the variable nature of wind velocity, sometimes it is not strong enough to generate power and other times it is too strong to be commercially tapped. The industry has attempted to increase its effectiveness by making taller machines and targeting them on high ridges with excellent wind potential. Nonetheless, because of its intermittency, wind technology will require compensation from other, often “dirty” power sources for the time it does not operate or works at sub-optimal levels—which is more than 70% of its rated capacity.

A wind turbine is designed to generate optimal electrical power relative to its size, shape, ability to withstand stresses, rotor sweep and efficiency, and location, among other conditions. The wind needs to blow eight to fourteen miles an hour before a turbine will produce electricity, and a turbine is programmed to shut down when the wind velocity exceeds 50 or 55 miles per hour to prevent harm to its gears. If the wind were to blow at a sufficiently consistent velocity all the time and the turbine never broke down, the turbine would be operating at 100 percent of its capacity potential over a year’s time—its Rated Capacity. However, because the wind is intermittent and volatile, and the turbines at various times require maintenance, they actually will produce electricity only some of the time. Using a combination of considerations, such as meteorological testing, weather history, the history of turbine effectiveness, among others, energy experts assign a Capacity Factor for each turbine model, which predicts the amount of electricity a turbine will actually produce in a year. No existing windplants located in the Pennsylvania, New Jersey, Maryland (PJM) region have achieved a capacity factor of more than 30 percent. This means that 70 percent of the time they are not producing electricity. Consequently, a windplant rated at 47 MW, for example, will annually generate in the neighborhood of 12-15 MW (25-30% of its rated capacity). Sixty percent of the time it will produce less than 12-15MW. And at peak demand times frequently generate nothing. Whatever it does produce would be continuously skittering, never steady, since any wind “power” is a function of the cube of the wind’s speed. Consequently, a change in the wind speed of from 11 to 22mph would mean that the wind energy would increase sevenfold—from 6 to 73% of its rated capacity. And vice versa.

Other power sources, such as coal or nuclear, also don’t work all of the time and must be supplemented by power sources that are working. The electricity grid has a complex monitoring system for predicting and maintaining its supply. Electricity must balance the rate of production with the rate of consumption at all times. A fundamental problem with supplying electricity is that electricity cannot be stored at industrial levels. Once generated, electricity must be delivered and consumed immediately. However, power sources like coal and nuclear are rarely volatile when producing their yield. Nuclear has a national capacity factor of 92%, meaning that it produces its capacity factor, or a requested portion thereof, virtually all the time throughout the year. Large coal plants do the same, and have a capacity factor over 80%. The volatile, extremely unpredictable nature of wind resource makes its technology different from other power sources not only in degree but in kind.

The variable nature of wind energy might not pose a problem to the region’s electricity grid at present levels. However, increasing the percentage of wind energy to higher levels would require significant and expensive technological modifications to the grid and to the various transmission systems out to the end user. It would also present major challenges for the grid’s management.

This may not be a substantial concern until wind energy becomes a major contributor to the electricity grid, adding, say, two or three percent to the total electricity supply. A “Wind Report 2004” by E-On/Netz, one of Germany’s largest electric grid operators, confirms this analysis, adding many other “price” caveats: given the intermittent and volatile nature of the wind, both the mechanics of grid operation and transmission technology would have to be retooled—at substantial cost—to back up wind generation. In fact, if wind energy increased to provide, say, just a small percentage of the power for the PJM grid, primarily fossil-fueled generating plants would have to fire up to levels of 90 percent to function as a “shadow” back up service. This report also confirms that wind utilization rates rarely achieve 30 percent, that is, they don’t work more than 70 percent of the time.

Even with a generous 30 percent capacity factor, more than 2000 giant 2.5 MW turbines are needed to mathematically equal the annual production of one 1600 MW coal plant. But they can’t do so functionally, for what must happen when 5000 MW of wind is producing only 100MW at peak demand times, which happens frequently. Even if we placed huge wind machines at all the good wind sites possible in the uplands east of the Mississippi River (a region with only 5% of the wind energy potential of the continental US), this would still not reduce the mining or burning of coal, given that our demand for electricity will continue to increase. In fact, wind technology works least when the need is greatest—summer peak demand, when the wind is typically not very active. For example, at the newly constructed Mountaineer wind facility in West Virginia, the capacity factor during summer months averages less than 15 percent—half of the average annual capacity factor. This is also true for the mountains of western New York state, based upon anemometer projections for that region.

Consider the following graph showing the relationship between demand for electricity and the potential of windpower to meet it in the uplands of the Mid-Atlantic region.

This region comprises all or most of six states and Washington, DC. Its ridges have less than one percent of the nation’s wind energy potential. Moving from left to right, the upward curve on the graph represents the demand for electricity that is expected to increase in the region at a conservative projection rate of two percent each year into the foreseeable future, particularly as the current recession ebbs. Present supply comes from the PJM Interconnection, the world’s largest grid operator, which taps a variety of power sources—primarily fossil fuels, with negligible contributions from wind.

However, if (and this is a most improbable if) the wind industry could immediately exploit all the wind potential available in the region’s uplands, saturating it with 30,000 huge turbines functioning at a capacity factor of 30 percent (see the table below), then it could produce, mathematically, enough electricity to supply about one-fourth of the present level of demand. In the graph, this hypothetical supply from wind is represented in blue atop the ongoing level of demand. But note, in about 15 years, our increased rate of demand will absorb any yield produced by wind, necessitating additional energy sources to supply it. Unless wind turbines fill up the Chesapeake Bay and are constructed off the ocean’s shore, the projected additional future power sources will not come from wind, for the industry will be tapped out on land. As the graph rather dramatically shows, wind energy development of the region’s uplands—at its realistic maximum—will not result in a net reduction of greenhouse gases or cut the present rate of the burning of coal and other fossil fuels. The very best case scenario for wind in the Mid-Atlantic region is that future wind energy development will only slightly lessen the rapidly increasing rate in the growth of demand for electricity from “dirty” power sources. But the dynamics of wind volatility will ensure that the industry will not produce any meaningful carbon emissions offsets.

The claim wind companies make about potential wind energy production may seem impressive. However, a million hamsters churning treadmills will also produce electricity. But what’s the point? In this larger scheme, industrial wind’s comparatively minuscule energy production would immediately be engulfed by increasing demand. The PJM grid coordinates the delivery of more than 163,000 MW of electricity annually to the region. A 45 MW wind facility might annually contribute 14 MW of unreliably intermittent energy to the grid—.0000858 percent of the grid’s current supply. The boast that this kind of energy plant would be an important first step in the direction of a comprehensively effective wind system is therefore unsupportable.

See the chart below.

Potential Amount of Electricity That Could Be Generated Annually From Renewable Sources Within States Of The Mid-Atlantic Region

Chart showing potential amount of electricity that could be generated annually from renewable sources within states of Mid-Atlantic region.

1. Source information is from a national report entitled – Generating Solutions: How States Are Putting Renewable Energy Into Action – A Report of the US PIRG Education Fund and the State Public Interest Research Groups. February 2002. [“This report examines 21 states and their potential for electricity generation from renewable resources using state-of-the-art technology.” Estimates of amount of electricity possible for energy sources were based on studies by government (mainly National Renewable Energy Laboratory), industry and the Union of Concerned Scientists (UCS).] Amount of electricity is shown as Million kilowatt-hours.

2. Union of Concerned Scientists estimate based on a state breakout of data developed for Doherty, Julie P., “U.S. Wind Energy Potential: the Effect of the Proximity of Wind Resources to Transmission Lines,” Monthly Energy Review, Energy Information Administration, February 1995. Includes class 3 and higher windy land area within 20 miles of existing transmission lines, excluding all urban and environmentally sensitive areas, 50% of forest land, 30% or agricultural land, and 10% of range land.

3. Number of modern industrial wind turbines is calculated by dividing each state’s Wind Potential by the average amount of electricity annually generated by a 1.5-MW turbine. An “average” 1.5-MW turbine produces only about 30% of its rated capacity each year (i.e., Capacity Factor = .30), so its annual output would be about 4 million kilowatt-hours (1,500 kw *.30 * 8760 hrs/yr).

Unfortunately, the demand for electricity will be so great over the next thirty years that additional coal plants are likely to be built. Florida Power and Light, the nation’s third largest electric utility company, now owns over one-half of the wind energy facilities in the US. Moreover, AES Corporation, which operates a coal-burning power plant at Cumberland, Maryland, has recently joined with US WindForce (which has several approved and planned projects in West Virginia and Maryland), lending its financial backing to wind energy development in the region. US WindForce is the most ambitious developer of wind energy in the Alleghenies.

Such “equity investments” between wind and coal will likely grow in number, as the former industry reaps the cachet of association with a major electricity producer while the latter gathers in the use of wind’s generous tax avoidance shelters and its reputation as a green energy source. The irony of these partnerships should not be lost on the public.

Unless we have a major change of political direction, fossil fuel combustion, and the toxins it emits into the air, will increase in the future, contributing to such dire statistics as the rate of asthma’s doubling every five years. The wind industry will not itself alter this circumstance. Only when the public insists upon implementing appropriate standards and newer equipment to increase efficiency, as well as conservation measures that reduce per capita consumption demand, will air quality improve. Indeed, because of some of these measures residual to the last Administration, which mandated newer, more efficient coal-burning technology, air quality in the region has actually improved in recent years.

Altogether, the wind industry in the uplands of the eastern US is not an answer to the concerns about global warming, energy independence, air pollution, or public health.

Related posts:  “… the total amount of power produced by all the 2,300 turbines so far built in Britain amounts on average to a mere 900 megawatts, barely the output of a single medium-size conventional power station” … “Just a little reminder – wind won’t replace coal. Sorry, but it’s just a fact!” … “A Conversation with Jon Boone – Toward a Better Understanding of Industrial Wind Technology

Posted in Environment, Jon Boone, Wind v Coal, Windpower Industry False Claims | Tagged , , , | Leave a comment

Happy Thanksgiving – from the mountains of Appalachia

Posted on November 25, 2009 by morgan

Sit back and enjoy the gift of the mountains!

Produced by Jamie Ross – Directed by Ross Spears

Posted in Appalachian Mountains | Tagged , | 1 Comment

Open letter to Tal McBride, partner, Highland New Wind Development LLC

Posted on November 24, 2009 by morgan

From The Recorder

…..Highland New Wind- Letter to the Editor…Pocohontas County….

Resident takes issue with McBride’s statement
An open letter to Tal McBride, partner, Highland New Wind Development LLC:

NIMBY, the acronym for Not In My Backyard, is a pejorative label.

It’s a slur used to discredit those who question the merits of a particular development by not-so-subtly implying that we are narrow-minded and selfish, that we put our selfinterest ahead of the common good, that we are standing in the way of progress for all.

Of course, such a slur depends, for its force, on maintaining the belief among the majority of the population that a particular development is in the common interest and represents progress for all.

Industrial wind power on Appalachian ridges is not development in the common interest; it is development in the economic interest of the very few.

How do I know this? Because I have done the research. Why am I saying it? Because it is the truth. And, as George Orwell said, “In a time of universal deceit, telling the truth is a revolutionary act.”

If industrial wind power in Appalachia made economic, environmental or common sense, I would be compelled — not just as a writer and a former environmental consultant, but as a mother with concerns for my son’s future — to say that it did.

If industrial wind power in Appalachia were actually “green,” if it limited our dependence on coal-fired utilities and reduced CO2 emissions, if it benefited local communities by creating jobs and lowering energy costs, then, yes! Yes, of course, I would be for it! Absolutely! I’m no fool.

Listen, I grew up at a hazardous waste recycling plant started by my parents in the early 1970s. Talk about witnessing, firsthand, the dark side of fossil fuels. Yikes! I have spent most of my adult life attempting to help various industries become better environmental citizens, create less waste, and, in so doing, pocket more profits.

If industrial wind power in Appalachia made economic, environmental or common sense, I would welcome it! I would work for community-based siting regulations. I would work to insure transparency in a community-based regulatory process that provided citizens an authentic cost-benefit analysis.

Make no mistake, I would support industrial wind in Appalachia if any data existed to support it other than outrageous government-guaranteed profits for wind developers.

Such data does not exist.

Industrial wind power in Appalachia is not good for the people of Appalachia. If it were good for Appalachia, I would be the first human being on board. This is my adopted home. I am a child of the Mississippi Delta, but my soul found its home in these mountains.

Not in My Back Yard? No, Tal, you got that wrong. Not in anyone’s back yard if that yard is located on the forested ridges of the eastern United States.

I have repeated the phrase that industrial wind on Appalachian ridges makes no economic, environmental or common sense. It doesn’t for the residents of Highland and Pocahontas counties. It doesn’t for the nation as a whole.

But it does for you, doesn’t it? And that, after all, is the point. You stand to make a tidy fortune, courtesy of the taxpayers, while the ratepayers take a hit underwriting the equipment upgrades necessary to tie your paltry megawatts to the grid. For you, it’s a deal too good to be true. You’ve hit a once-in-a-lifetime jackpot. No wonder you have proven yourself capable of saying just about anything if it helps to make this deal go down.

As for me, I wear the NIABY label with pride — Not in Anyone’s Back Yard. And I will continue to dedicate myself to revealing the real costs and benefits of industrial wind. Industrial wind is not the answer to slowing climate change or reducing dependence on foreign oil. Industrial wind does not lower electric bills or create jobs.

Industrial wind does disrupt scenic and historic landscapes revered for generations. Industrial wind does kill unknown numbers of eagles and other raptors.

Industrial wind does stand to make you, personally, a boatload of cash.

Dawn Baldwin Barrett
Brightside Acres
Pocahontas County, W.Va.

Accessed: http://www.therecorderonline.com/news/2009/1119/letters/022.html November 24, 2009

Posted in Appalachian Mountains, West Virginia Wind | Tagged , , , , | 1 Comment

Boiling Frogs

Posted on November 24, 2009 by morgan

The old folk tale says if you place a frog in hot water it will jump out of the pan, but if you place it in cold water and slowly bring up the heat, the frog will just sit there and cook to death.  Actually, it’s not true about the frog, but it does seems true for us humans.

As example, simply look to the push to use industrial wind turbines to help meet alternative and renewable energy goals.  Not to pick on West Virginia, but I live here and can see the patchwork quilt that will blanket the Alleghenies beginning to form.  Take a look –

Back on On June 17, 2009, Governor Joe Manchin signed WV House Bill 103

Here’s an excerpt from the bill:

(a) General rule. — Each electric utility doing business in this state shall be required to meet the alternative and renewable energy portfolio standards set forth in this section. In order to meet these standards, an electric utility each year shall own an amount of credits equal to a certain percentage of electricity, as set forth in subsections (c) and (d) of this section, sold by the electric utility in the preceding year to retail customers in West Virginia.
(b) Counting of credits towards compliance. — For the purpose of determining an electric utility’s compliance with the alternative and renewable energy portfolio standards set forth in subsections (c) and (d) of this section, each credit shall equal one megawatt hour of electricity sold by an electric utility in the preceding year to retail customers in West Virginia. Furthermore, a credit may not be used more than once to meet the requirements of this section. No more than ten percent of the credits used each year to meet the compliance requirements of this section may be credits acquired from the generation or purchase of electricity generated from natural gas.
(c) Twenty-five percent by 2025. — On and after January 1, 2025, an electric utility shall each year own credits in an amount equal to at least twenty-five percent of the electric energy sold by the electric utility to retail customers in this state in the preceding calendar year.
(d) Interim portfolio standards.
(1) For the period beginning January 1, 2015, and ending December 31, 2019, an electric utility shall each year own credits in an amount equal to at least ten percent of the electric energy sold by the electric utility to retail customers in this state in the preceding calendar year; and
(2) For the period beginning January 1, 2020, and ending December 31, 2024, an electric utility shall each year own credits in an amount equal to at least fifteen percent of the electric energy sold by the electric utility to retail customers in this state in the preceding calendar year.

On the surface this seems an admirable thing to do.  Bring down the level of emissions that results from burning fossil fuels by using the sun and the wind.  West Virginia, thankfully, still sees the value in coal and natural gas as part of the energy portfolio and seems willing to support improved methods of utilizing these abundant and necessary resources.

Of course, the Obama Administration, in spite of promises to Governor Manchin when campaigning, is attacking on all fronts.  Unfortunately, West Virginia is not held in high esteem like, perhaps, Pakistan, where Secretary Clinton urged the country to develop its coal resourcesto exploit your coal as opposed to being dependent upon imported energy is a choice for you to make, but it is certainly a choice that your neighbors have made. And that’s something that should attract foreign investment and should attract capital investment within your own country. And we don’t know how we’re going to proceed on the climate change issue. We’re working hard to come to some framework before Copenhagen, but coal will be, for the foreseeable future, part of the energy mix. And if you have these kinds of reserves, you should see the best and cleanest technology for their extraction and their use going forward.”  Interesting how we continue to encourage those outside of our country and discourage those within.

Anyway, back to WV House Bill 103.  Typical of most legislation, state legislators pick goal values out of the federal sky, apply incentives to encourage participants to meet them, delegate authority to enforce the credit shell game that attempts to regulate producers, pat themselves on the back and pretty much forget about the chaos that will ensue.  Unfortunately, in the methods utilized to structure these programs there is far more use of politics than science.  A scientist normally works to a rounded decimal where politicians speak in terms of tens, fifteens and twenties. e.g. 10% by 2015.  A scientifically based number would more likely be 8.7% or 11.5% by 2015.

But more to the point, this political acceptance of anything that sounds good is what has made industrial wind energy is the poster child for wishful thinking over reality.  The emperor’s clothes of environmental politics, you might say.  The ultimate David Copperfield stage show of flashing lights masking the illusion.  But I’m drifting off the topic.

By 2015 it’s fair to say a number of the legislators passing House Bill 103 will be retired or staring retirement in the face.  Governor Manchin will be in the middle of his first term as Senator.  By 2020, I wouldn’t be surprised to find only a few of the folks who voted for this legislation remaining in their seats.  By 2025, only the youngest of the current gang will be able to judge the success of their efforts from their seat of elder wisdom in Charleston by measuring the size of the subsidies sent home by the Senior Senator from West Virginia, Joe Manchin.

So, before too much time passes, ask your legislator these questions:

1 – “Which agency have you assigned responsibility to balance the mix between alternative:

(A) Advanced coal technology;
(B) Coal bed methane;
(C) Natural gas;
(D) Fuel produced by a coal gasification or liquefaction facility;
(E) Synthetic gas;
(F) Integrated gasification combined cycle technologies;
(G) Waste coal;
(H) Tire-derived fuel;
(I) Pumped storage hydroelectric projects;
(J) Recycled energy, which means useful thermal, mechanical or electrical energy produced from:(i) Exhaust heat from any commercial or industrial process; (ii) waste gas, waste fuel or other forms of energy that would otherwise be flared, incinerated, disposed of or vented; and (iii) electricity or equivalent mechanical energy extracted from a pressure drop in any gas, excluding any pressure drop to a condenser that subsequently vents the resulting heat; and
(K) Any other resource, method, project or technology certified as an alternative energy resource by the Public Service Commission.

and renewable:

(A) Solar photovoltaic or other solar electric energy;
(B) Solar thermal energy;
(C) Wind power;
(D) Run of river hydropower;
(E) Geothermal energy, which means a technology by which electricity is produced by extracting hot water or steam from geothermal reserves in the earth’s crust to power steam turbines that drive generators to produce electricity;
(F) Biomass energy, which means a technology by which electricity is produced from a nonhazardous organic material that is available on a renewable or recurring basis, including pulp mill sludge;
(G) Biologically derived fuel including methane gas, ethanol not produced from corn, or biodiesel fuel;
(H) Fuel cell technology, which means any electrochemical device that converts chemical energy in a hydrogen-rich fuel directly into electricity, heat and water without combustion; and
(I) Any other resource, method, project or technology certified by the commission as a renewable energy resource.

2 – Is this same agency responsible to determine the maximum number of wind turbines to be permitted in the state of WV, (including additional transmission lines and peripherals)?

3 – “Plus or minus 10, what is the maximum number of industrial wind turbines to be permitted in West Virginia before land and air saturation is achieved?  Don’t know? – how about plus or minus 20?  30?  50?  100?  500?  OK … 1,000!  5,000?  Just pick a number, please!

4 – “How many acres, square or linear miles will the quantity of wind turbines you are authorizing, consume?

5 – “What will finally trigger the responsible agency that saturation is reached and one more turbine will be the proverbial straw?

I’m going to write State Representatives, perhaps you can do the same.

Here’s the place to find the contact information – WV State Senate Members Search and WV State House Members Search.

By the way … if they don’t have the answers, chances are you’re already in hot water!

Posted in Allegheny Mountains, Wind Energy Legislation, WV State Government | Tagged , , , , , | 1 Comment

“… the total amount of power produced by all the 2,300 turbines so far built in Britain amounts on average to a mere 900 megawatts, barely the output of a single medium-size conventional power station”

Posted on November 21, 2009 by morgan

An interesting read at Telegraph.co.uk.  The article has to do with the love affair between wind and the BBC, but here’s the quote that caught my attention – the total amount of power produced by all the 2,300 turbines so far built in Britain amounts on average to a mere 900 megawatts, barely the output of a single medium-size conventional power station.

Assuming that number is anywhere near correct you need to see it in relation to the amount of air and land US WindForce wants to consume here in Allegheny Mountains, directly in the migratory path of endangered species.  All for the sake of 23 turbines?

Now, I don’t know if there’s a direct parallel, but certainly enough to get a vision of 100 Pinnacle Knobs stretched along the Allegheny Mountains to replace 1 medium sized coal fueled power plant.  Maybe the wind industry will say design is improved and it only takes 75 windplants of 23 turbines each, or 50 windplants.  Still, that’s a little much for me, and I suspect the Bald and Golden Eagles getting smacked along the way.

The real issue is, the coal fired plant won’t be shut down anyway, even if you put up 200 windplants or perhaps cover that Appalachians completely.  If only our political leaders would take the time to understand that concept!

BEGIN TELEGRAPH.CO.UK ARTICLE

“BBC sells the wind farm scam to farmers” –The BBC loves to talk about wind farms, but not about the glaring matter of their costly inefficiency, says Christopher Booker.

By Christopher Booker
Published: 4:42PM GMT 21 Nov 2009

When the BBC runs one of its propaganda campaigns in favour of windfarms, as Farming Today was again doing recently, the only point of interest is how many of the basic facts they leave out. One thing they invariably try to conceal is how derisory is the amount of electricity these windmills produce.

Although Farming Today interviewed one of the sternest technical critics of wind turbines, Dr John Etherington, a retired environmental academic who has just published an excellent book on the nuts and bolts of wind power, they asked him with seemingly wide-eyed disbelief how he could justify his claim that turbines generate less than 30 per cent of their capacity.

Yet, as any half-way competent journalist should know, this information is freely available on the climate change department’s website. The very last thing the BBC ever wants to admit – though the information is available from the same source – is that the total amount of power produced by all the 2,300 turbines so far built in Britain amounts on average to a mere 900 megawatts, barely the output of a single medium-size conventional power station.

The other point the BBC is always careful to conceal is how much money the developers make from these windmills, thanks to the near 100 per cent hidden subsidy we all pay them through our electricity bills. Farming Today was quite happy to encourage farmers to lease their land by telling them that they could hope to make up to £20,000 a year from each 2 megawatt turbine. What they did not explain was that the same turbine will yield its developer around £400,000 a year –a cool £10 million over its 25-year life. Something else Farming Today neglected to mention was the title of Dr Etherington’s book, The Wind Farm Scam.

END TELEGRAPH.CO.UK ARTICLEAdditional articles from Mr. Booker here.

Related:  ““Environmentalists ignoring long-term issues” – Rick Webb, Virginia Wind” … “A Conversation with Jon Boone – Industrial Wind and the Environment” … “Just a little reminder – wind won’t replace coal. Sorry, but it’s just a fact!” … “A Conversation with Jon Boone – Toward a Better Understanding of Industrial Wind Technology” … “”

Posted in Pinnacle Knob, US WindForce, Wind Energy Shenanigans, Wind v Coal | Tagged , , , , | Leave a comment