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Wind Energy’s House of Cards

By Steve Goreham | August 31, 2010

The International Energy Agency (IEA) recently issued their 2009 Wind Energy Report. Brian Smith, chair of the IEA Wind Executive Committee, states that wind member countries “installed more than 20 gigawatts of new wind capacity” (nameplate capacity). The report was written by representatives of 20 member countries, consisting of 14 European nations, Australia, Canada, Japan, Korea, Mexico, and the United States.

The report is very optimistic about wind energy’s prospects. Member nations report on “how they have progressed in the deployment of wind energy, how they are benefitting from wind energy deployment, and how they are devising strategies and conducting research to increase wind’s contribution to world energy supply.” But a deeper analysis shows that the wind industry is a house of cards built on a foundation of sand.

The house of cards is a global industry based entirely on subsidies, price guarantees, and mandates. Wind generation systems are not deployed anywhere in the world without extensive government financial or mandated support. Fourteen of the 20 IEA member nations use feed-in tariffs (FITs) to force utility companies to buy electricity from wind farms at above market rates. Examples are FITs used by Finland, Germany, Greece, Netherlands, Portugal and Spain, which are set in the range of 7.8-12.1 Eurocents per kilowatt-hour, equal to 11.2-17.4 U.S. cents per kilowatt-hour. These are subsidized wholesale prices, yet significantly above the average U.S. retail price of 9.7 cents per kilowatt-hour. Nine of the twenty nations mandate that utilities supply a percentage of electricity from renewables. Nations that have provided little government support for wind, such as Japan, Korea, Mexico, and Norway, have seen little growth in installations.

In the U.S., the 2009 Recovery Act authorizes a direct cash grant of 30% of the total value to wind projects. Alternatively, the federal government provides a 30% investment tax credit, or a 2.1 cents per kW-hr production subsidy. State governments add loan guarantees, further investment tax credits, and the forbearance of property and sales taxes. Twenty-nine states have enacted Renewable Portfolio Standards to force utilities to purchase renewable energy, primarily wind. These mandates raise the price of wind energy, a further subsidy to the industry. In total, taxpayers are subsidizing 30-50% of the price U.S. wind energy installations. Wind must be subsidized because it is much more expensive than electricity from coal, natural gas, hydroelectric, and nuclear sources. According to the U.S. Department of Energy, wind-generated electricity is about 80% more expensive than coal-fired power, and off-shore wind is significantly more expensive. The IEA representatives from Denmark and the United Kingdom estimate costs for offshore wind at roughly double the cost of onshore wind. The planned Cape Wind project in Nantucket Sound reportedly will deliver electricity at a whopping 27 cents per kW-hour, compared to the Massachusetts average price of 16 cents per kW-hour and the U.S. average of 9.7 cents.

Advocates claim that subsidies are needed to help wind energy move down the learning curve to become cost competitive with other technologies. But wind turbines have been deployed for more than 20 years. As of 2009, the United States had installed about 33,000 wind turbine towers. World installations have exceeded 140,000 turbines. When will this cost competitiveness be achieved?

Despite the growing number of installations, total wind energy costs are increasing. Wind installation costs per kilowatt-hour decreased from the early 1990s until 2001, but have been rising since. For example, U.S. installations reached a cost low of $1,285 per kw-hr in 2001, but have since risen steadily to $2,080 per kw-hr in 2009, an increase of 62%. It’s unlikely that electricity from wind will ever be competitive with conventional fuel sources.

A close read of the IEA Wind Report reveals issues with actual wind turbine operating lifetimes and maintenance. Wind turbines that were installed in the 1990s are now being replaced in Denmark, Germany, Netherlands, and other nations. In the harsh weather environments of high-wind corridors, many of these turbines have not reached the 20-year lifetimes claimed by manufacturers. In comparison, operating lifetimes for coal-fired power plants consistently reach 50 years.

Very costly repairs are often required to maintain wind turbine operation. Japan reports that lightning hits and typhoons have damaged “a considerable number of wind turbines,” finding that on average, each turbine will fail three times over its 20-year life. Denmark reports that each turbine’s gearbox must be replaced on average four times during its lifetime, costing about 20% of the price of a wind turbine.

The story of Denmark is illustrative. Over the last 20 years, Denmark has installed 5,100 wind towers, one for every thousand citizens. A map with a black dot for each wind farm shows that 300-foot-high steel and concrete towers can be seen from almost every field, farm, hill, and seashore of this nation. In 2009, these towers provided only 767 megawatts of electricity, less than the output of a single conventional coal-fired power plant. This single power plant would occupy the space of one black dot on the map.

Wind towers provide only about 10% of Denmark’s electricity, but contribute to electricity rates of 28 Eurocents per kilowatt-hour, the highest in Europe and four times the U.S. price. Yet, Danish government officials are proud of their wind system. Why would they install 5,000 towers instead of one coal plant? It’s because they believe they are reducing global warming.

In fact, the global wind industry is built on a foundation of sand—the hypothesis that man-made global warming is destroying Earth’s climate. The IEA report contains repeated statements about carbon emissions saved by wind installations in each nation. Yet, mounting satellite temperature data, new studies of ocean cycles such as the Pacific Decadal Oscillation, and research on solar activity, show that global warming is due to natural cycles of the Earth,not man-made greenhouse gas emissions. Should global warming alarmism fail in its efforts to promote wind energy, the subsidies will disappear, and the house of cards will collapse. Then the world will be left with 140,000 silent monuments to Climatism.

Steve Goreham is Executive Director for the Climate Science Coalition of America and author of Climatism! Science, Common Sense, and the 21st Century’s Hottest Topic.

September 9, 2010 Posted by | Economics, Science and Pseudo-Science | , | Leave a comment

Mining the soil: Biomass, the unsustainable energy source

Written by Atheo | Aletho News | December 26, 2009

The promotional material from Big Green Energy, aka Biomass Gas & Electric, presents biomass as “clean, renewable energy”, sustainable and green. The US Department of Energy uses the terms “clean and renewable” when introducing visitors at its website to the topic.

But is it accurate to describe the repeated removal of biomass from agricultural or forested lands as sustainable?

A quick review of some basics on the role of organic matter in soils belies the claim.

To support healthy plant life, soil must contain organic matter, plants don’t thrive on minerals and photosynthesis alone. As organic matter breaks down in soil nitrogen, phosphorus, and sulfur are released. Organic matter is the main source of energy (food) for microorganisms. A higher level of microbial activity at a plant’s root zone increases the rate of nutrient transfer to the plant.  As the organic matter decreases in soil so does this biochemical activity. Without organic matter, soil biochemical activity would nearly stop.

In addition to being a storehouse of nutrients, decaying plant matter keeps soil loose, helping soil remain both porous and permeable as well as gaining better water holding capacity. This is not only beneficial to plant growth but is essential for soil stability. Soil becomes more susceptible to erosion of all types as organic matter content is reduced.

The value of returning organic matter to the soil has been well-known to farmers since the earliest days of agriculture. Crop residues and animal waste are tilled back into the soil to promote fertility.

Denny Haldeman of the Dogwood Alliance asserts that there is no documentation of the sustainability of repeated biomass removals on most soil types. Most documentation points to nutrient losses, soil depletion and decreased productivity in just one or two generations.

A cursory search of the Department of Energy website does not reveal that they have given the issue of soil fertility any consideration at all. However the biomass industry is supported by both Federal and State governments through five main advantages: tax credits, subsidies, research, Renewable Portfolio Standards, and preferential pricing afforded to technologies that are labeled “renewable” energy. Without government support, biomass power plants wouldn’t be viable outside of a very limited number of co-generation facilities operating within lumber mills. But under the Sisyphean imperative of “energy independence”, and with generous access to public assistance, the extraction of biomass from our farmlands and public forests is set to have a big impact on land use (or abuse).

In sustainable farming, manure is not “waste”

The creation of an artificial market for agricultural “wastes” harms entire local agricultural economies. In Minnesota, organic farmers are concerned that a proposed turkey waste incinerator will drive up the price of poultry manure by burning nearly half of the state’s supply. The establishment of biomass power generation will likely make it more difficult for family farms to compete with confined animal feeding operations and will contribute generally to the demise of traditional (sustainable) agricultural practices.

Similar economic damage will occur in the forest products industries. Dedicating acreage  to servicing biomass wood burners denies its use for lumber or paper. Ultimately, the consumer will shoulder the loss in the form of higher prices for forest products.

As available sources of forest biomass near the new power plants diminish, clear-cutting and conversion of native forests into biomass plantations will occur, resulting in the destruction of wildlife habitat. Marginal lands which may not have been previously farmed will be targeted for planting energy crops. These lands frequently have steeper grades, and erosion, sedimentation and flooding will be the inevitable result.

It gets worse.

Municipal solid waste as well as sewage sludge is mixed with the biomass and burned in locations where garbage incineration was  traditionally disallowed due to concerns over public health. Dioxins and furans are emitted in copious quantity from these “green” energy plants. Waste incineration is already the largest source of dioxin, the most toxic chemical known. Providing increased waste disposal capacity only adds to the waste problem because it reduces the costs associated with waste generation making recycling that much more uneconomic. In terms of dangerous toxins, land-filling is preferable to incineration. The ash that is left after incineration will be used in fertilizers introducing the dangerous residual heavy metals into the food supply.

In reality biomass fuel isn’t sustainable or “clean”.

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Update February 3, 2011:

In a new study funded by the USDA Agriculture Research Service, scientists simulated experiments lasting from 79 to 134 years. Hero Gollany, the author of the study, summarizes:

“Harvesting substantial amounts of crop residue under current cropping systems without exogenous carbon (e.g., manure) addition would deplete soil organic carbon, exacerbate risks of soil erosion, increase non-point source pollution, degrade soil, reduce crop yields per unit input of fertilizer and water, and decrease agricultural sustainability.”

Update – Summit Voice, April 19, 2012:

Report: Large-scale forest biomass energy not sustainable

Forest biomass questioned as fuel source

SUMMIT COUNTY — Large-scale use of forest biomass for energy production may be unsustainable and is likely to increase greenhouse gas emissions in the long run, according to a new study.

The research was done by the Max-Planck Institute for Biogeochemistry in Germany, Oregon State University, and other universities in Switzerland, Austria and France. The work was supported by several agencies in Europe and the U.S. Department of Energy.

The results show that a significant shift to forest biomass energy production would create a substantial risk of sacrificing forest integrity and sustainability… Full article

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Also by Atheo:

January 9, 2012

Three Mile Island, Global Warming and the CIA

November 13, 2011

US forces to fight Boko Haram in Nigeria

September 19, 2011

Bush regime retread, Philip Zelikow, appointed to Obama’s Intelligence Advisory Board

March 8, 2011

Investment bankers salivate over North Africa

January 2, 2011

Top Israel Lobby Senator Proposes Permanent US Air Bases For Afghanistan

October 10, 2010

A huge setback for, if not the end of, the American nuclear renaissance

July 5, 2010

Progressive ‘Green’ Counterinsurgency

February 25, 2010

Look out for the nuclear bomb coming with your electric bill

February 7, 2010

The saturated fat scam: What’s the real story?

January 5, 2010 – Updated February 16, 2010:

Biodiesel flickers out leaving investors burned

December 19, 2009

Carbonphobia, the real environmental threat

December 4, 2009

There’s more to climate fraud than just tax hikes

May 9, 2009

Obama, Starving Africans and the Israel Lobby

December 23, 2009 Posted by | Author: Atheo, Deception, Economics, Environmentalism, Malthusian Ideology, Phony Scarcity, Science and Pseudo-Science | , , , , , , , , , , | 18 Comments

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