Feed-in Tariffs, Solar Boon or Boondoggle

A feed-in tariff, or FiT, is designed as an incentive to energy producers to develop renewable energy sources, and usually consists of a rate, fixed by legislation, that guarantees higher returns than conventional energy sources.

For example, if energy from fossil fuel generation were billed to customers 0.10 cents per kilowatt hour, energy from renewables would likely command 0.20 cents or more for the same kilowatt hour.

The feed-in tariff is already widely used in Germany, and similar programs in Greece, Italy, Turkey and South Korea have boosted renewable energy markets. Closer to home, Ontario, Canada and Gainesville, Florida, have also adopted German-style feed-in tariffs.

In Germany, the policy increased solar manufacturing and installation, thus driving down the cost of solar and making it more competitive with fossil-fuel generation. However, as a whole, the feed-in tariff system doesn’t work well where fossil-fuel generation prices are low (as in the United States), or where a plethora of utilities – sometimes serving the same state – create a welter of policies. Nor does it encourage energy conservation. And it has even been known to have the opposite effect of stimulating renewables, as witness the recent fiasco in the Spanish solar marketplace, where the rollback of 2008 FiTs has left the solar industry dazed.

It won’t work as a standalone solution in California, says Sue Kateley, executive director of the California Solar Energy Industry Association, who advises a combination of different programs, including a retail electricity program aimed at energy conservation, a utility-scale program, and a wholesale-electricity program.

In spite of that, California’s Attorney General, Jerry Brown, filed (on June 25) with the state’s utility commission arguing that feed-in tariffs are not only legal under federal statutes, but should be used to spur the growth of renewables.

It’s a significant policy maneuver, in that feed-in tariff opponents may find themselves outvoted and outwitted by the California Public Utility Commission (PUC), which is currently conducting hearings on the matter in conjunction with the state’s renewable portfolio standard (RPS; 33 percent by 2020).

Of course, since the AG is the legal arm of California government, but the PUC gets to set electricity rates and determines utility standards, it may turn out to be a regional political storm for which California is becoming famous (as witness Governor Arnold Schwarzenegger and budget opponents).

But it has inspired hope in feed-in advocates, and supports the conclusions of a March National Renewable Energy Laboratory (NREL) report that suggests FiTs and RPS’ can work well in conjunction.

As report co-author Karlynn Cory notes, RPS policies set the goal and let the market figure out the path, so the choice between RPS and Fits doesn’t have to be an either-or. A third NREL report focusing on FiT best practices will be issued later this year.

Ron Kenedi, vice president at Sharp Solar Energy Solutions Group, makes the either-or argument moot by noting that America doesn’t need feed-in tariffs to drive solar energy. In fact, Kenedi sees the lack of feed-in tariffs as a strength, allowing the U.S. solar industry – which is still taking shape, and likely won’t explode until 2012 – to “grow naturally” into its full solar potential, rather than being forced into a particular shape by legislation.

In the end, it may simply come down to government’s ability to legislate FiTs based on the type of technology, application (rooftop vs. ground installation), and size. However, doing this across the board in the U.S. – for 3,100 public utilities, 2,100 non-utility power producers, five independent system operators, and a transmission system that has only recently begun adapting to renewables – may represent the greatest challenge in setting prices and contract lengths.

In short, FiTs, for all their dynamism, may not fit.

Power Purchase Agreements Drive Solar Energy

A recent analysis by Alexander von Welczeck, the CEO of Mill Valley, California-based Solar Power Partners Inc., the third largest solar energy developer in the United States, highlights the importance of power purchase agreements, or PPAs, in driving the solar energy industry to new heights.

As Welczeck points out, the current recession has had an impact on the solar energy industry. In fact, market research firm iSuppli Corp. expects the photovoltaics industry in 2009 to drop to 3.5 gigawatts, down 32 percent from 5.2 gigawatts installed in 2008. This drop in installed capacity is obviously expected to impact solar industry revenues as well, largely due to massive overcapacity, falling prices and weak demand. The loss, says iSuppi, is expected to top more than 40 percent.

The government has attempted to stabilize the industry, first in the form of the American Recovery and Reinvestment Act of 2009, which provided investment tax credits (ITCs) for solar installations, and more recently by adapting the ITC to grant status for those firms whose negative tax liability made claiming ITCs impossible.

State and local incentives, from rebates to tax relief, also help defray the costs of solar installations, but the real problem for consumers (whether business or individual homeowners) has always been the high upfront costs of installing a solar system, which averages out to about $10,000 per kilowatt but drops the more one installs. Thus, a 1-kilowatt system might cost up to $10,000, but a 7-kilowatt system might cost only $63,000.

The cost/benefit ratio, however – remembering that a kilowatt is 1000 watts, and the utility generally charges about eight to ten cents per kilowatt hour – makes the cost of each solar-generated watt between $7 and $10. When times are tough, as they are now, a $7-watt of electricity is literally unthinkable, and incentives cover, at most, 30 percent of upfront costs.

In come PPAs, which offer cash-strapped homeowners and businesses the opportunity to go green and reduce their carbon footprint, install renewable solar, and still benefit with electricity costs that are manageable on almost any budget.

PPAs are offered by independent solar producers, who arrange for financing, install, own and operate solar systems. Unlike companies or individuals, PPAs have the permitting and rebate portions of solar installation down to a science, so the system flows smoothly from the initial contract to the refund/grant/tax break. This is a huge benefit, since estimates place the average cost of solar paperwork at about $1 per watt. For novices, the cost can obviously go much higher.

According to Welczeck, the majority of commercial solar capacity installed in California between last year and this was PPA-driven, and no wonder, since this type of solar incentive – which delivers electricity, under long-term contract, at a fixed rate sometimes as low as that offered by the local utility – has found considerable favor with municipalities and public entities (like hospitals and schools) facing budget constraints not seen since the early 1980s.

Solar is also good for creating jobs, as recently noted by Sharp Solar Vice President T. C. Jones, Jr., who says that the work at the Tennessee Sharp solar factory “couldn’t be done without human hands”.

Given state and local government incentives, and the emergence of PPAs as a positive force in the solar industry, doomsayers who predict the solar industry will bottom out this year might want to wait until all the figures are in to prognosticate.

Why was Pueblo, Colorado Left out of WREZ Renewable Report?

A Western Renewable Energy Zones (WREZ) Phase 1 Report lists 54 locations between British Columbia in the north and New Mexico in the south that the Western Governor’s Association (WGA) and various energy groups (including renewable groups) pinpoint as prime locations for the development of solar, wind, geothermal, hydro and biomass projects.

It doesn’t list Pueblo, Colorado, and Pueblo County Public Works Director Greg Severance wants to know why, particularly since the Pueblo Chemical Depot – a chemical weapons storage depot – has hundreds of acres of unused land sitting idle that could be devoted to commercial solar installations.

Actually, the reasons why the Depot was excluded are fairly self-evident. The agency managing the land, the Pueblo Depot Reuse Authority, typically has to go through the Defense Department to make any major land-use changes. This can be a long and arduous process. For example, the Reuse Authority spent seven years trying to include vacant rail spurs in the master plan in order to start sub-leasing track to a Texas firm. The plan was finally approved in 2006.

More recently, Helios Energy attempted to buy land at the facility, but was stalled by the fact that the facility will be in a quagmire of conflicting dominions until the last of the stockpiled weapons is destroyed, sometime between 2017 and 2020.

Helios had previously opted to go the lease route, but found that said lease – for 25 years under a power purchase agreement (PPA) with Xcel Energy – would likely be invalid, since the Reuse Authority might not be a viable agency once the mustard gas was disposed of.

Currently, Senator Mark Udall (D-CO) is attempting to put through legislation that would transfer surplus depot land to the agency that currently sub-leases facilities and other Depot property to private tenants, and one other firm has approached the Depot’s Reuse Authority with an eye to building a commercial solar installation.

The Pueblo question is not, however, uppermost in Severance’s mind. He also wants to know why much of Colorado was largely ignored – a premise supported by Todd Hartman, spokesman for the governor’s energy office, who confirmed that the study left out much of the state because it did not have strong representation, with only one member from the (Colorado) Governor’s Energy Office on a steering committee of 28 members.

Severance, who admits he didn’t even hear about the WREZ report until he attended a governors’ conference meeting in Park City, Utah, suspects the problem may lie with the fact that the Colorado portion of the study was done by a contractor.

Severance had since been in touch with Colorado Governor Bill Ritter’s office, and his letter concerning the oversight points out that the Army acknowledges 21,693 acres of Depot land stand unused. In addition, the U.S. Environmental Protection Agency’s National Renewable Energy Laboratory – which has 7 out of 17 of its solar radiance monitoring stations (MIDC) in Colorado – has already listed Pueblo and several other areas as excellent resources for solar generation.

Even more important, according to Severance, is the fact that Pueblo and surrounding areas already have the transmission infrastructure a number of the 54 locations lack. However, his arguments may be moot, since Interior Secretary has already “fast-tracked” 21,000 acres in Colorado for solar development. Just not necessarily the same 21,000 acres.

In terms of size, the largest planned solar farm in the United States (and possibly the world) is Rancho Cielo in Belen, New Mexico. When completed, this thin-film installation by Signet Solar will provide 600 megawatts of electricity on a mere 700 acres. Think what Signet could do with 35 times as much space!

Solar LED Lamps

Q: Hi,

I want to help the 2 million displaced Pakistanis by buying Solar LED lamps and replacing them with the Kerosen Lamps that are burning down many tents.

Do you who are the manufacturers of these Solar LED lamps?

Thanks
Atif

Asked by atif

A: We do not know the manufacturers, but we do know the operators of: http://www.solarlighting.com/

They are a great resource to use for solar led lamps, and they also do a lot of work internationally. Good luck with your quest!

Ask Cooler Planet a question.

Is the Federal 30% Tax Credit applied to the gross or net cost of a system?

Q: Is the 30% tax incentive applied to the amount before or after the utility company rebate. Some companies are saying before some companies like yours say after. It seems as though no one has the facts. I also wonder if a business can apply for both a 30% residential and 30% commercial tax credit if the owner lives at the place of business such as a resort. Would the owner qualify for both residential and business incentives for going solar?

Asked by justin

A: According to our sources, the 30% federal tax rebate is applied to the net cost of the system (which would be after any local/utility rebates). A given system is only eligible for either the residential or commercial incentive and not both. A local professional would be better qualified to answer all specific rebate questions for your area. You can get in contact with one using our form here: http://solar.coolerplanet.com/RequestInformation.aspx.

Ask Cooler Planet a question.

Are DIY solar panels worth the effort to save money?

Q: A 3-4KW residential grid tied PV system costs about $25-$39,000 for panels & install. That is still too much $ even w/incentives, payback being 12+ years. So I keep reading about DIY panels (100W apparently you solder cells & assemble yourself). Intended more to power specific appliances, they can be connected & grid tied if connected at box by qualified electician/pro. How much would it cost for that connection? DIY worth considering? We built our own solar water panel 25 yrs ago, still in use.

Asked by Leena

A: Any solar is good solar! If you have the technical skills, there is no reason not to give it a try. However, DIY solar thermal is much more simple than solar electric. First, the incentives are only available for grid tied systems and panels usually come with a warranty that may only be available with professional installation. DIY is always worth considering but because the specific placement of the panels has a great deal to do with their efficiency, its usually worthwhile to speak with a pro. Even if a professional system takes 15 years to pay off, there will be 15 years following of free energy.

Ask Cooler Planet a question.

Where can I go to get a loan for a solar panel system?

Q: Where can I go to get a loan for a solar panel system. Are there specific banks you recommend? Is a down payment required?

Asked by Justin

A: You can finance your system in a number of different ways. The easiest way is through home equity. If that is not available there are a number of banks with special ‘green’ financing options. Contact your local banking center. Money is also available from government incentives, rebates and grants. These can be found on Cooler Planets solar calculator. Another option that may be available is called a PPA, or power purchase agreement. This requires little money down but you simply purchase the energy rather than owning the system.

If you wish to purchase a solar system, you will usually need a down payment. It is usually lower than one might think based on the federal, state and local incentives.

Ask Cooler Planet a question.

Free Solar In California, Save Money Today

Here’s a great comment I’d like to share with you all.  One of our readers, Matt, was able to give us a complete breakdown of not only his experience with solar but its full fiscal benefits realized by owning the system.  

To my surprise I was amazed at how fast the system paid itself off and now is purely generating profit.  This is a Maryland example, but California has many of the same incentives.  If the below scenario seems intriguing, we encourage you to get in contact today with a verified solar installer from cooler planet.  

First off, I do not believe in Global Warming but I do believe in saving money and natural resources.

I too did question the costs and figures with installing solar. Here are my real world numbers that show I will make my money back in 3 years with my PV system.

I installed a $33,600 3.68kWh PV system.
I received a $10,000 Federal Tax Credit (Courtesy of the 1st Stimulus Package Oct 2008)
I received a $9,200 Maryland State Grant (Taxed by the Federal Government at 28% – $6,624)
I receive a $38.18 Maryland State Tax Credit (3 year total ~$114)
I save $655 in electricity per year (3 year total $1,965)
I earn $2,700 in SRECS (3 year total after tax)
Total return after three years – $21,403

In addition, there is a formula to compute the value added to your home. Obviously, a $33,000 system does not add 33K to the value of your home. Most home improvement projects like a remodeled kitchen or bathroom return 80% – 85%. As per a 1990’s survey of home prices with solar and without solar – they determined that for every one dollar saved in electricity it adds $20 to the value of your home. Therefore, saving $655 per year in electricity x $20 adds $13,100 to the value of your home.

Added value to my home – $13,100

Therefore, after three years – I will have saved $21,403 and gained $13,100 in home value = $34,503

If you do not calculate the increase in home value the breakeven point is 13 years. Please keep in mind that Federal and States offers are constantly changing grants and tax breaks. (For example – Maryland halved their Grant in 2009.)

In my case getting solar was a no brainer. My ROI is 7-8% per year – better than Bank CD’s or the volatile stock market. I would suggest that each person research their state grants to see if solar is worth it. You may just be surprised.

Is a Solar Hot Water System a good place to start to convert a house to green?

Q: What is the effect of a solar hot water system on a 1800SF houses’ monthly bill? Is this a good place to start to convert my house to "green"?

Asked by Nancy McCormick

A: The answer will depend on if you have a gas, electric, or oil heated hot water system. A thermal system will decrease the amount of electricity, gas, or oil that you are spending on a monthly basis for heating the water. It will not depend on the size of your home. You would need to meet with a solar hot water installer to find the exact figures on how much it would save you on a monthly basis. It is a great place to start to convert your house to “green” due to the relatively lower cost than a PV electrical system.

If you would like to find an installer in your area, fill out our request information form and we’ll be in contact with you: http://solar.coolerplanet.com/RequestInformation.aspx

Ask Cooler Planet a question.

Recycling Grocery Bags isn’t Enough

I am going to gripe a bit too much here, but it appears that society is so slow to change. Not enough is being done. Recycling grocery bags is cool and kind of green, but it is obvious we need to change that way we live even more so, such as alternative-energy like solar power.

Yet, people are so slow to catch on the importance of changing the type of resources we use to power our homes or buildings.  All the studies prove that we will live for the better, environmentally, if we make these changes. The changes can be made because there are solar companies out there who know how it is done.  Sure it will take some concerted investment of time and money, but it can be done. Sure most people are too busy dealing with the problems of day to day survival to be concerned with the headache of a long range investment like solar energy. Sure the oil companies are keeping the price of fuel down, so the alternative-energy methods are not economically appealing.  But, we need to plan for the future by starting now. Why can’t government mandate every new home built be solar powered? I think that is what it is going to take to get people off their butts and do something positive for this environment.

Recycling bags for grocery shopping is cool and in vogue, but to be realistic, more needs to be done to save this planet and our environment.