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April 9, 2012

Spain Halts Feed-In-Tariffs for Renewable Energy

April 9, 2012
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A couple years ago, President Obama hailed Spain’s promotion of wind and solar energy through massive subsidies as a way to grow the economy and create jobs. At the time, Dr. Gabriel Calzada explained that the Spanish success was a mirage and that Spain’s “success” was actually costing jobs and creating a huge financial liability. Now, the reality of Spain’s disastrous policies is clear to the Spanish government. Hopefully, the unsustainable nature of subsidies will become clear to the promoters of wind and solar as well.

Beginning next year, Spain will halt new feed-in-tariff (FIT) contracts for renewable energy. Feed-in-tariffs are used to accelerate renewable investment by providing long-term contracts that pay the owners of these projects above-market rates for the electricity produced. Because renewable technologies generally cost more than conventional fossil fuel technologies, the government guarantees that renewable firms get the higher cost for their technologies.  Consequently, utilities or consumers or both pay more for electricity.  Similar policies have been proposed in the United States.

Spain is changing its position on renewable energy FIT contracts due to fiscal challenges and lower credit ratings. The electricity system deficit due to the higher cost of electricity is over 24 billion Euros and that amount is growing. To put this in context, this is $520 per Spaniard.

Because most renewable energy is not economic compared to coal, natural gas, or hydroelectric power, government hand-outs are needed to compete with conventional generating technologies. These hand-outs are increasing Spain’s national debt. Spain’s announcement halting new FIT contracts affects 4,500 megawatts of pending wind capacity and 550 megawatts of pending solar capacity, along with other uneconomic technologies.[i]

Spain’s Electricity System Deficit

Spain does not allow its electric utilities to pass on the increased cost of electricity produced from wind and solar to ratepayers and this includes the above market rates the FIT entails. Over the past decade, the utilities have been forced to pay above-market rates to the producers of wind and solar through the feed-in tariff, but they have been unable to charge the cost of the feed-in tariff to ratepayers. As a result, the electricity system deficit has increased over time.

Spain began deregulating its electricity market in 1997 when it supposedly allowed generators to compete among themselves. However, Spain also decided to control rates to consumers to avoid unpredictable market variations in electricity prices. The result on electricity prices can be seen in the following graph that compares Spain’s consumer price index, and real and nominal electricity prices, indexed to 1996–before Spain deregulated its generating sector.

Instead of allowing utilities to increase rates, the government allowed utilities to maintain a deferral account that allowed them to recover shortfalls in any individual year from revenues generated in subsequent years. The following shortfall in the financial statements of its utilities was created that resulted in a growing electricity system deficit because revenues from future electricity sales were insufficient to pay for the cost of the electricity generated. Contributing to this shortfall and stemming from unemployment above 20 percent is lower electricity demand that declined 2.6 percent from its peak in 2008 resulting in excess generating capacity.

According to E3 Analytics, an energy consultancy:

“In order to cover this gap, utilities in Spain started auctioning off the debt; however, in 2009, the Spanish government was forced to step in and provide sovereign backing for this debt. Predictably, this has generated two further problems for the government: first, assuming responsibility for the deficit effectively increases its net debt; and second, these debt auctions directly compete with Spain’s own bond issuance.”[ii]

Spain’s Renewable Energy

Renewable energy growth in the Spanish electricity market began after 1998 with the wind industry. Solar photovoltaics (PV) began to be developed with Spain’s 2004 reforms and biomass and biogas technologies, after its 2007 reforms. The annual additions to Spain’s renewable energy capacity between 2005 and 2010 are shown below:

The following graph depicts the share of each renewable energy source projected for 2013 compared to the premium payments that will be received by that technology in that year. While wind power will remain the largest source of renewable generation (65 percent), it will represent less than a third of total premiums paid (30 percent). In contrast, both solar PV and concentrating solar power (CSP) have a larger proportional share of the total renewable payments due to their higher costs.

Outcome Not Unexpected

In 2009, the Institute for Energy Research sponsored a report on the Spanish renewable energy industry and its associated programs that identified a number of issues. Gabriel Calzada of King Juan Carlos University, who led the study, found that the “green jobs” agenda that the Spanish Government instituted resulted in job losses elsewhere in the country’s economy. For each “green” megawatt installed, 5.28 jobs on average were lost in the Spanish economy as an opportunity cost.  For solar technologies, that number is 3 times more than for wind technologies. For each megawatt of wind energy installed, 4.27 jobs were lost, and for each megawatt of solar energy installed, 12.7 jobs were lost.[iii]

Although solar energy employs many workers during a plant’s construction, it consumes a great amount of capital that could have created many more jobs in other parts of the economy. The Spanish Government began to realize these issues and in 2009, it slashed subsidies to solar power, subsidizing just 500 megawatts of solar projects, down from 2,400 megawatts in 2008.[iv] Thus, it is not unexpected that Spain has had to take further action regarding renewable energy even though it must meet renewable targets set by the European Union by 2020.


The United States needs to make sure it doesn’t continue to follow in Spain’s footsteps. Between the  loan guarantees issued by the Department of Energy, the rebates from the 1603 treasury program that expired last year, the production tax credits to wind technology that will expire this year without government intervention, and investment tax credits available to solar technologies, the United States has increased its deficit only to find that wind and solar energy remain at just one percent of the country’s energy supply and that several of the companies that it backed have failed wasting American taxpayers’ hard-earned dollars.  Proposals mandating utilities to buy more expensive alternative energy simply stick consumers with higher bills and transfer their money to “green” energy companies.  Spain’s recent policy decision confirms what is becoming clearer every day: alternative energy in its present form is expensive and governments, utilities and consumers cannot absorb the costs for very long.  Eventually, the chickens come home to roost.

[i] Renewable Energy World, Spain Imposes “Temporary” Halt to New Renewable Energy and Co-generation Projects, April 3, 2012,

[ii] E3 Analytics, FITs and Stops: Spain’s New renewable Energy Plot Twist & What it All Means, March 2012,

[iii] Universidad Rey Juan Carlos, Study of the effects on employment of public aid to renewable energy sources, March 2009, .

[iv] Wall Street Journal, “Darker Times for Solar-Power Industry”, May 11, 2009, .

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  • Fiona Woo

    Renewable energy (RE) sources face huge discrimination as a result both of
    the subsidies enjoyed by fossil fuels and nuclear energy, and of the
    failure to internalize the negative external effects of fossil fuels, namely the
    pollution that conventional energy sources cause. It is thus not a level playing field on which you are comparing the costs of RE with those of coal, nuclear etc. Even if we are to employ a conventional cost analysis, the long-term nature of FITs means RE will reach market-competitive price. An essential component of a successful FIT, however, is a strong commitment by the government to FIT policy in order to ensure a stable, predictable environment in which the RE investment can grow. This recent decision of the Spanish government undermines its credibility as a stable country in which to invest. More on government creation of uncertainty in RE investment here:

    • JohnInMA

      I keep reading about the cost of externalities as the key to leveling renewable energy costs, but it isn’t supported by the data.  Only in the rarest cases, where every possible pollutant is included in the analysis, and every theoretical health related cost is accounted, does this even begin to ring true.  Most everyone who studies the energy market, but who isn’t convinced, are simply not willing to accept every assumption and every hypothesis needed to conclude that renewable energy will be cheaper in the long run.  The fact that countries where public welfare costs are much more socialized than in the U.S. (Spain in this article, for example) will not fully take that leap says a lot about the validity.  They went as far as they could before the real costs, and not the hypothetical costs, become too much of a burden.  Some claim it is near catastrophic.

      The economics of subsidizing to “balance” the external costs just doesn’t work.

      • Fiona Woo

        The main barrier to countries welcoming clean energies is not due to a lack of validity in the fact that using such energies will pay off, as you argue, since there are not only projections but proven case studies that they are economically worth converting to, but rather a lack of political will. With short (eg. four-year, in the US) election cycles politicians focus on the shot-term rather than the long-term gains.

        In any case, the beauty of the feed-in tariff is that it is not a government subsidy and need not increase government spending. It’s simply a legal obligation for utilities companies to connect renewable energy from decentralised producers to the grid and to buy it at a certain price. The most common way to fund this is to share the costs over all end-users, so the increase in price per household is minimal.

        The second beauty is the tariff’s built-in obsolescence: the more producers there are, the faster grid parity is reached. All the figures show a trend towards convergence to market prices.

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