August 28, 2009

Inefficient, But Green…Is That Good?

Posted by Steve Sacks under Carbon, Energy, Finance, Government, Green Economy, Water, Wind | Tags: , , , , , , , , , |
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Some power generation facilities store energy during peak hours to later use during off peak hours (and vice versa).  The best example of this is battery storage of energy from wind and solar generators.  Wind and sun generate most of their power during the day, and in the case of solar, there is no energy generated in the evening.  An example of how this process works both ways is in the case of hydroelectric power generation when water is pumped to higher elevations during off-peak hours.  During peak hours the water pumped up is released, and extra power is available.  This method is called “pumped storage.”

These processes result in some energy loss, but proponents say the cost to generate the electricity is minimal, so why not?  For a small hit in efficiency, you get clean, carbon neutral power around the clock.  For the most part, I agree.  Wind, sun and water are in high abundance for power generation, and not an ounce of carbon is produced (though the added wear and tear on equipment eventually leads to shorter life spans, higher maintenance costs, etc…)  This leads to more manufacturing and likely more carbon emissions. Regardless, these methods are all far better than popping up a new coal plant.

Now, add a “new” tool to the tool box.  Compressed Air Energy Storage (“CAES”).  I guess it’s been around for a while in Germany and Alabama, so it’s not so “new.” But it is possibly new to California!   An article from the San Francisco Chronicle on August 27, 2009 details how PG&E is seeking a federal grant of $25 Million to design a facility in Kern County, CA using CAES.  Kern County is about half-way between LA and San Francisco.  The facility would use power generated by solar and wind to pump air into porous rock reservoirs.

Then, at night when the sun’s gone, or on a day when the wind won’t blow, the compressed air is released and generates electricity.  The plant PG&E would like to see would provide 300 MW for 10 hours…that’s enough to power 750 homes.

The total cost of the facility would be about $300 Million over five years.  That may seem like a lot, but when you realize that once it’s up and running there are no added costs for fuel, it starts to make sense.

By 2010, PG&E needs to generate 20% of it’s power from renewables.  They’re not going to make it, but with efforts like this and the recent deal with BrightSource Energy (full disclaimer, BrightSource is a client of Bell, Rosenberg & Hughes, the workplace for the authors of this blog), no one can say PG&E isn’t trying.  According to a recent article in the Sacramento Business Journal, Peter Darbee, CEO and Chairman of PG&E stated PG&E has contracts that will allow the utility to deliver up to 24 percent of its energy from renewable sources by 2013.

CAES doesn’t sound ideal, but creativity like this can only lead to better things.  Also, with a carbon credit market likely around the corner, facilities like this may generate unforeseen dividends.

For the San Francisco Chronicle article that includes a great illustration of CAES, click here

For the Sacramento Business Times Article, click here

 

March 18, 2009

Renewal of Renewable Energy: Part 2

Posted by Steve Sacks under Building and Design, Energy, Green Economy | Tags: , , , , , , , |
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This week, Roland Nikles helped us out with an interesting and thought provoking post.  A friend of Roland’s has some very interesting points to add.  He wants us to remember part of the reason California has doubled its economic output in the past 20 years without a commensurable increase in energy demand is because of increased efficiency and conservation.

Large buildings in California used to use 5 watts per square foot to light space, now they only use one. The commentor notes the reductions come from technology and consciousness.  Everything from motion detectors to the human hand turn off light switches, and improvements in interior insulation, windows, and HVAC systems all add up.  He predicts buildings will be twice as efficient in 30 years, but I don’t think it’s too optimistic to think efficiencies will be even greater.  Just remember what the world looked like in 1978 if you can think back that far…

Building codes are getting green, and even WalMart has aggressive green initiatives.  Take a look at a huge portion of their website devoted to sustainability issues.  With trends such as this, ubiquitous adoption of green technology may be closer than we think, and may just beat that 30 year prediction.  Even if we end up with buildings that are twice as efficient as today, that’s a pretty good deal.

 

March 16, 2009

Renewal of Renewable Energy

Posted by Steve Sacks under Energy, Green Economy, Law, Legislation, and Policy | Tags: , , , , , , , , , |
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A partner, Roland Nikles,  at our firm, Bell, Rosenberg & Hughes sent the email below.  Thanks, Roland, great stuff!

“Peak electricity demand in California is approximately 60,000 megawatts. In excess of 20% of this is imported, mostly from the Southeastern U.S. and the Pacific Northwest.  Roughly half of this demand is fulfilled by natural gas, a little less than a fifth by nuclear plants, and a similar amount by hydroelectric power plants.  Peak usage (which happens seldom) and peak capacity are about equal, which is why we flirt with black-out conditions on hot summer days.

 

For 20 plus years environmental lobbying on the one hand, and rate capping on the other hand, inhibited the construction of new power plants.  We stood idly by as demand rose ‘til, Enron and the partly real, partly manufactured energy crisis of 2001 jolted us sufficiently to acknowledge that new capacity must be added.  In the meantime, high crude oil prices, stimulus dollars, and global warming are making alternative energy sources more viable and attractive than ever.  Advances in technology since we last subsidized renewable energy (wind power at Altamont Pass, Tehachepi, and San Gorgonio, early generation solar heat in the Mojave, and solar panels for swimming pools) promise that this time round, renewable energy will be economically sustainable on a large scale.  California utilities are mandated to achieve 20 percent renewable energy by 2017, and this appears eminently achievable.

 

BrightSource Energy of Oakland, a client [editor’s note: client of the firm at which the authors work], is one company at the forefront of this renewable energy renewal. They have contracts to develop 2,000 megawatts of solar power (heat generation technology) for California’s two major utilities:  Pacific Gas & Electric and Southern California Edison.  These contracts all by themselves represent a 4 percent increase in the state’s electrical power capacity. 

 

My brother-in-law, David, an early adopter of everything cool, has a 7kw solar panel installation on his roof.  If 3 million California households (26% of total households) had similar installations, that would add up to an additional 21,000 megawatts of renewable power.  Assuming an installation cost of $21,000 each, that would represent a cost of $3,000/kw, which I believe would be very competitive with building new nuclear power plants ($3,500 – $4,000 per kw).  

 

So let’s hear it for, clients, renewable energy, and brothers-in-law!  As Arnold would say, Go Kalifornia!”

 

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