People turn off lights in vain, ignoring real efficiencies
A survey on perceptions of how to save energy was done. I found this statement int he conclusion of the paper (see link at end of article) to be a double edged sword:
It is therefore vital that public communications about climate change also address misconceptions about energy consumption and savings, so that people can make better decisions for their pocketbooks and the planet.
From a press release by: The Earth Institute at Columbia University
Many Americans believe they can save energy with small behavior changes that actually achieve very little, and severely underestimate the major effects of switching to efficient, currently available technologies, says a new survey of Americans in 34 states. The study, which quizzed people on what they perceived as the most effective way to save energy, appears in this week’s Proceedings of the National Academy of Sciences.
The largest group, nearly 20 percent, cited turning off lights as the best approach—an action that affects energy budgets relatively little. Very few cited buying decisions that experts say would cut U.S. energy consumption dramatically, such as more efficient cars (cited by only 2.8 percent), more efficient appliances (cited by 3.2 percent) or weatherizing homes (cited by 2.1 percent). Previous researchers have concluded that households could reduce their energy consumption some 30 percent by making such choices—all without waiting for new technologies, making big economic sacrifices or losing their sense of well-being.
Lead author Shahzeen Attari, a postdoctoral fellow at Columbia University’s Earth Institute and the university’s Center for Research on Environmental Decisions, said multiple factors probably are driving the misperceptions. “When people think of themselves, they may tend to think of what they can do that is cheap and easy at the moment,” she said. On a broader scale, she said, even after years of research, scientists, government, industry and environmental groups may have “failed to communicate” what they know about the potential of investments in technology; instead, they have funded recycling drives and encouraged actions like turning off lights. In general, the people surveyed tend to believe in what Attari calls curtailment. “That is, keeping the same behavior, but doing less of it,” she said. “But switching to efficient technologies generally allows you to maintain your behavior, and save a great deal more energy,” she said. She cited high-efficiency light bulbs, which can be kept on all the time, and still save more than minimizing the use of low-efficiency ones.
Previous studies have indicated that if Americans switched to better household and vehicle technologies, U.S. energy consumption would decline substantially within a decade. Some of the highest-impact decisions, consistently underrated by people surveyed, include driving higher-mileage vehicles, and switching from central air conditioning to room air conditioners. In addition to turning off lights, overrated behaviors included driving more slowly on the highway or unplugging chargers and appliances when not in use. In one of the more egregious misperceptions, according to the survey, people commonly think that using and recycling glass bottles saves a lot of energy; in fact, making a glass container from virgin material uses 40 percent more energy than making an aluminum one—and 2,000 percent more when recycled material is used.
Many side factors may complicate people’s perceptions. For instance, those who identified themselves in the survey as pro-environment tended to have more accurate perceptions. But people who engaged in more energy-conserving behaviors were actually less accurate—possibly a reflection of unrealistic optimism about the actions they personally were choosing to take. On the communications end, one previous study from Duke University has shown that conventional vehicle miles-per-gallon ratings do not really convey how switching from one vehicle to another affects gas consumption (contrary to popular perception, if you do the math, modest mileage improvements to very low-mileage vehicles will save far more gas than inventing vehicles that get astronomically high mileage). Also, said Attari, people typically are willing to take one or two actions to address a perceived problem, but after that, they start to believe they have done all they can, and attention begins to fade. Behavior researchers call this the “single-action bias.” “Of course we should be doing everything we can. But if we’re going to do just one or two things, we should focus on the big energy-saving behaviors,” said Attari. “People are still not aware of what the big savers are.”
The other authors of the study are Michael DeKay of Ohio State University; and Cliff Davidson and Wändi Bruine de Bruin of Carnegie Mellon University.
The paper, “Public Perceptions of Energy Consumption and Savings,” is posted at: http://www.pnas.org/content/early/2010/08/06/1001509107.full.pdf
Author contact: Shahzeen Attari shahzeen.attari@gmail.com 703-447-3748 http://www.columbia.edu/~sza2106/
More info: Kevin Krajick, science editor, The Earth Institute
kkrajick@ei.columbia.edu 212-854-9729
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“In my home I have utilised CFLs in two locations – kitchen and landing. In both they have increased my power usage by a factor of two to three. Since the landing didn’t need a bright light, the 20W CFL was adequate, but had to be left on from dusk to bedtime. ”
So true. If the light is off, then you flip it on when you want light now, not in 10 or 15 minutes .
So the poor lightbulbs get left on, because otherwise you’d be waiting 15 minutes to walk down the stairs safely.
I cannot see things by the CFL so I supplement the light in my entertainment area with a darn floodlight. Not too efficient but I can see what I am doing.
It’s true, the new appliances just suck.
And everything, everything, has indicator lights, clocks, and microprocessors so forget about using a switch to save that power. You lose too much time reprogramming the darn things.
A laptop may use less power but it is also ,as mentioned about other items, unfixable,
un-upgradeable, and will be obsolete before it stops working even so.
My desktop tower can be repaired and tarted up so I still use the 2005 model to mostly great effect.
We DID buy a hybrid car ( Honda Insight) because we were buying a car, paying cash, and the Honda fit our needs and tastes.
Of course it is so highly rated that it actually cleans city air as you drive, so I should drive behind Steve and clean up the excess Co2 emissions from his over-efforted bike riding. LOL
How about stopping the transfer of money from poor people in rich countries to rich people in poor countries, via foreign aid & cap and trade schemes? Hah?
this article was confusing esp. the graphs and i did not find it helpful
When is that insane law prohibiting us from buying incandescent lightbulbs due to take effect? I want to stock up before then.
I like incandescent lighting. I like my big van (and the Mustang GT I hope to buy), I like our big house (though the kids have left), and my various computers and associated drives and other gizmos, not to mention our new giant TV (55″), our appliances, and our gas central heating (no AC really needed here in Massachusetts; we have ceiling fans). If we couldn’t afford this stuff, we’d scale back. But at the moment we can, and as far as I’m concerned it’s nobody’s else’s blinking business, least of all the federal government’s.
/Mr Lynn
Bear in mind, when making comparisons between SEER and EER (central and window rating numbers respectively), one must assume an approximate conversion is in lieu of some specific information:
SEER = EER ÷ 0.9 = SEER = EER * 1.1111…
An EER of 10 translates roughly to an SEER of 11.2 or so …
Using a value of .83 fudge factor value an EER of 10 yields an SEER of 12 and so on.
For a central air system e.g. here in Texas (and other southern states in the summer), one must account for some loss of ‘cooling’ capacity to the ductwork often run in a *hot* attic or the ductwork comprised as part of the ceiling with the blown-in insulation the next layer up … a window unit does not have those handicaps and those now ‘dead’ air spaces may now serve somewhat as insulation …
( this EER to SEER ‘fudge factor’ seems to range from .7 to .9 depending on conditions, etc)
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Not exactly true; the cooling of the filament allows a higher current draw on the next active 1/2 sinusoidal cycle … I can’t give you a number, but I recall it was distinct on the Oscilloscope trace. The ‘color’ spectrum and output brilliance also changes …
Source: Incandescent lamp experiments performed involving a cathode ray-based O-scope and a current shunt some 30 years ago for the purposes of observing initial bulb current draw at turn on and other states given an applied sinusoidal voltage …
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GOOD memory.
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Conservation is nice. Surplus is nicer.
focusfusion.org
¼¢/kwh power within 5 yrs, or bust! 🙂
But, they could … the particular models purchased just weren’t spec’d to work that way (unity power factor, or to put it into english, pull current proportional to the applied voltage through 360 degrees of that applied sinusoidal voltage).
The complexity of such a unity power factor switchers is higher though, and that’s also reflected in higher cost … usually that’s the determining factor.
Survey of the literature, incl. various designs (unity power factor switcher):
http://www.google.com/search?client=opera&rls=en&q=unity+power+factor+switcher&sourceid=opera&ie=utf-8&oe=utf-8
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You wouldn’t want to see what that 60 Hz ‘waveform’ looks like our here in the hinterland nowadays either; the top portion has been lopped due to those peak-rectifying non-unity power factor devices like wall-warts and TV power supply units (PSU) and PC PSUs as well … my next subject of some study, I think.
Well, here’s a youtube video showing the lopped-off sinusoidal waveform (the top waveform; it is used here for ‘phase reference’ against the received noise pulses on the bottom waveform in the video):
[youtube=http://www.youtube.com/watch?v=ozzp4RW5G54&fs=1&hl=en_US]
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For a different take on recycling, check out plascoenergygroup.com . Plasma torch reduces waste to syngas, and a small lump of slag for use as aggregate per ton. Plus electricity to sell to the utilities.
That’s the way to go. Videos here:
http://www.plascoenergygroup.com/?Media_Centre
Very impressive.
Unfortunately the company is private, or I’d be tempted to buy a few shares.
/Mr Lynn
My own contrubution from the Department of Anecdotal Anecdotes Department (as Bill Tuttle above put it) is, I suppose, an illustration of Jevon’s paradox. Consumer warning: my failing memory has likely mangled some details.
Several years back, a small U.S. town (IIRC, it was Hood River, Oregon) had a program sponsored by the government and/or the local electric utility to add insulation to older, poorly insulated homes at little or no cost to the homeowners. Many houses evidently had electric heat, and the objective was to reduce power consumption.
Naturally, plenty of folks jumped at the opportunity, so lots of homes got insulated, and then next winter… (the more cynical among you will already have predicted what’s coming)… electric consumption increased!
Turns out that many houses in town didn’t just have electric heat, they also had wood burning stoves. With no insulation, trying to keep warm with the electric heater was like throwing wads of money out the windows. The homeowners didn’t have a lot of cash, but they had chainsaws and they knew how to use them. So they burned wood. But once their homes were snugly insulated, it became affordable to use the heaters. Being human, the residents succumbed to the convenience of warmth at the flick of a switch and abandoned their chainsaws. Well, maybe they still used them to carve lawn bears from Douglas fir stumps.
Dave Bob;
So, house insulation saved the trees! Whuda thunk? 🙂
I would say the real savings with glass come from its ability to be cleaned with superheated steam and ri used, in face I believe that using somthing again without re processing is the only real re cycling that adds up, have a lauge at the mountains of recycling stored on WW2 airfields in the UK, it cannot be landfilled as the EU would fine each council what madness.
How about if I don’t feel like saving energy but willing to pay for the energy I use? Can I not do that without being labeled an earth-wrecker?
Looks like an energy intensive “PRO’-CESS” (process for those south of the Canadian border) in the first few steps; doubt the ‘energy gain’ is over unity, meaning, the overall process consumes more energy than it produces … now, this in and of itself is not a bad thing, because a lot of garbage has been disposed of by a means other than simple burial (and I would say ‘later reclamation’ 1/2 an eon or so from now as the earth overturns her surface and once again the materials are precipitated out given time and temperature and gravity) …
So, for the ‘betterment of mankind’ do you A) choose the energy intensive short-time ‘pro-cess’ or B) the long time earth-based re-cycle process?
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‘Joe E says:
August 20, 2010 at 12:10 pm
How about if I don’t feel like saving energy but willing to pay for the energy I use? Can I not do that without being labeled an earth-wrecker?’
If everyone was happy to pay a price for your energy that reflected the true environmental cost then that would be just fine!