Economics of Wind Energy
One of the most important economic benefits of wind power is that it reduces the exposure of our economies to fuel price volatility. This benefit is so sizable that it could easily justify a larger share of wind energy in most European countries, even if wind were more expensive per kWh than other forms of power generation. This risk reduction from wind energy is presently not accounted for by standard methods for calculating the cost of energy, which have been used by public authorities for more than a century. Quite the contrary, current calculation methods blatantly favor the use of high-risk options for power generation. In a situation where the industrialized world is becoming ever more dependent on importing fuel from politically unstable areas at unpredictable and higher prices, this aspect merits immediate attention.
Markets will not solve these problems by themselves because markets do not properly value the external effects of power generation. Governments need to correct the market failures arising from external effects because costs and benefits for a household or a firm who buys or sells in the market are different from the cost and benefits to society. It is cheaper for power companies to dump their waste, e.g. in the form of fly ashes, CO2, nitrous oxides, sulphur oxides and methane for free. The problem is that it creates cost for others, e.g. in the form of lung disease, damage from acid rain or global warming. Similarly, the benefits of using wind energy accrue to the economy and society as a whole, and not to individual market participants (the so-called common goods problem). This EWEA report on the Economics of Wind Energy provides a systematic framework for the economic dimension of wind energy and of the energy policy debate when comparing different power generation technologies. A second contribution is to put fuel price risk directly into the analysis of the optimal choice of energy sources for power generation. Adjusting for fuel-price risk when making cost comparisons between various energy technologies is unfortunately very uncommon and the approach is not yet applied at IEA, European Commission or government level. Through this report, EWEA proposes a methodology for doing so. The methodology should be expanded to include carbon-price risk as well, especially given the European Union’s December 2008 agreement to introduce a real price on carbon pollution (100% auctioning of CO2 allowances in the power sector) in the EU.
This section is presented with sub-sections:
Basic Cost of Wind Energy
Cost of Wind Power compared to Other Technologies
The Price of Wind Energy
Grid, System Integration
Effect of Wind Energy on Electricity Market Prices
EWEA Documents
Wind Energy The Facts - Economics (March 2009)
Wind Energy The Facts - Industry & Markets (March 2009)
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Economics of Wind Energy March 2009 (1.7 MB)
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WETF-Executive Summary (3.3 MB)
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EWEA Factsheet on Wind Energy, Finance and Economics (234 KB)
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EWEA Factsheet on Wind Energy and the Job Market (172 KB)
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Focus on 2030 (November/December 2006) (1.0 MB)
Other Documents
Other Links
MAKE Consulting :
Market Report: The Wind Forecast - Market Outlook (Sept. 09)
Business Study: The Offshore Report (Sept. 09)
EER (Emerging Energy Research) :
Europe Wind Power Markets and Strategies 2009-2020 (Sept. 09)
Wind Turbine Supply Chain Strategies, 2009-2020 (July 09)
Global Wind Turbine Markets & Strategies, 2009-2020 (June 09)
US Wind Power Markets & Strategies, 2009-2020 (May 09)
BTM Consult :
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