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Elizabeth Cutright Elizabeth Cutright Distributed Energy Editor

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DE Editor's Blog

March 23rd, 2009 10:40am PST

The Dark Side of the Smart Grid

Posted By Elizabeth Cutright 2 Comments

I’ve been talking a lot about the possible opportunities that can open up for onsite power and distributed energy with the creation of the “Smart Grid.”  In my mind, the ability to manage demand while switching back and forth between the grid and a localized power source is what makes this grid “smart” and energy efficient—especially when renewable energy is added to the mix.  As far as I’m concerned, onsite power is integral to any national power initiative.  In fact, the benefits of the smart grid and renewable energy greatly diminish the further energy must travel from the source.

And yet, that’s exactly what could happen if the call for efficiency and renewable energy is morphed into promoting the construction of new power transmission lines across large swathes of open land in order to power large population centers.  In “The Dirty Green Line”, author Katharine Mieszkowski explains how the power companies and powerful politicians (including President Obama and Senate Majority Leader Harry Reid) are lobbying for a new national grid similar to “the Interstate Highway System in the 1950s.”  Called the “electric superhighway,” by Reid (who has initiated legislation to make this superhighway a reality), the idea of a national grid has even been touted by environmental groups like the National Resources Defense Council and the Sierra Club. 

With these kinds of supporters, what could be the downside?  For starters, as critics point out, this grid would traverse over wide-open spaces—including not only the rural heartland, but also sensitive habitats and even national parks like California’s Anza-Borrego Desert.  Additionally, there’s no guarantee that these transmission lines will only be used to transport electricity from renewable energy sources.  It’s also important to note that the further that electricity travel from it’s source, the more of it is lost along the way—cutting significantly into the efficiency of using renewables.  And, finally, let’s not forget that, in the end, it’s the taxpayer that will be footing the bill for this project—money that, as Jim Harvey (executive director of the Alliance for Responsible Energy) points out in Mieszkowski’s article, could be taken and invested in renewable energy technologies.  “Transmission is a 19th-century technology,” says Harvey.  “Adding more transmission is not going to encourage conservation and reduce our consumption.  The solution is point-of-use generation.  We need to look at electricity near its point of use."

As Mieszkowski points out, many cities—including Gainesville, FL and Los Angeles, CA—are experimenting with municipal projects that combine renewable energy (mostly solar) with onsite power generation.  Even in a small city like Santa Barbara, CA, this idea has taken root: Under a new city program, a 384-kW solar system will be spread out atop several city buildings.  No new transmission lines will be needed, and any excess power generated by the system will be sold back to the grid.

What do you think?  Does it seem fair to say that, ultimately, the smartest future lies in a power system that keeps use close to source while taking advantage of existing infrastucture?  

Click Here to read more about Santa Barbara’s city solar project.

What Do You Think?

Post a Comment

bullardrr

March 31st, 2009 11:28 AM PT

For starters, I copy below an excerpt from the article by Ms. Cutright: "Even in a small city like Santa Barbara, CA, this idea has taken root: Under a new city program, a 384-kW solar system will be spread out atop several city buildings. No new transmission lines will be needed, and any excess power generated by the system will be sold back to the grid." Attention is directed at the last sentence. Need I say more.

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energy4joe

March 25th, 2009 1:03 PM PT

Yes! Point of use generation of electricity makes the best sense. Implementaion of co-generators for hot water & electrical generation can go a long way also, probably near 30% reduction in combined gas & electric resources for most commercial facilities. Aside from Solar PV, Solar Parabolic Steam can be at point of use in a combined system. Why hasn't Vanadium Redox storage systems taken off? It seems the perfect solution for point of use power storage???

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