Tuesday, June 24, 2008

Is Solar just Blowing Sunshine?

When initially deciding the four topics to start off my blog, I included solar because of its popularity. Solar energy is a very broad topic and this post is not intended to cover all possible aspects and applications of solar. Instead, I will focus on photovalic applications and not other more sophisticated uses, as many are still in the research phase.

In simple terms, photovalic modules are used to collect solar energy which is then transformed into electricity. This electricity can either be AC or DC. In some instances, such as calculators, garden lighting, and other applications with very low electrical requirements.

However, when compared with traditionally generated electric power, solar is not economically efficient. The US Department of Energy states:

"The cost of larger PV systems (greater than 1 kW) is measured in "levelized" costs per kWh—the costs are spread out over the system lifetime and divided by kWh output. The levelized cost is now around 30 cents/kWh." http://www1.eere.energy.gov/solar/pv_quick_facts.html

As of January, 2008 the US average cost per kWh was 10.2 cents, well below the solar cost of 30 cents/kWh. Again, this figure comes from the US Department of Energy, http://www.eia.doe.gov/cneaf/electricity/epm/table5_6_a.html



So, why is solar so popular? In many respects, it is the new, shiny toy. Also, there is the allure of "free" electricity. However, as the old adage states, "If its too good to be true, then it probably is." One has to recall that to convert one form of energy to another, there is loss. When one burns coal, heat is the main output, true also for any fuel that burns. What makes coal and fossil fuels in general, more efficient is that their combustion creates very high amounts of heat per unit. This heat is generally used to create steam, which then turns turbines (dynamos) to create electricity.

Solar has potential, but at today's cost points, it is only economically efficient in certain applications. Personally, I am renovating my home and looked into solar roofing shingles, as well as other PV collectors. In both cases, their cost well exceeded the benefits. However, a solar-powered attic fan may be just the thing.

2 comments:

efashionista.blogspot.com said...

Since a lot of solar is publicly financed (tax rebates, credits, FIT rate models), KWh from fossil fuel sources will go up to around 15c as solar will drop down from 30c.

Both forces will push solar cell use up to 15% of residential by 2015.
At that point, kWh solar parity is achieved.

WRGII said...

Thank you for your comment and I encourage you to comment on other posts.

Why would the price of base power go up? Solar and wind are already subsidized.

Parity won't be truly realized until the cost to produce kWh is met without subsidies.

I think there is a chance that solar can improve its cost structure, but I don't think it will ever produce the base loads that nuclear, coal and natural gas produce.

Thanks again!

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