Archive for Energy

Vision of a sustainable energy future

I’ve been meaning to write an article outlining a vision of a sustainable energy future, where biomass is converted into fuel and electricity through pyrolysis and the waste product, carbon is used as a fertilizer a-la terra preta to produce more biomass.  The good news is I don’t have to.  The Engineer Poet did, and it’s just part of a much broader vision you’ll find here.   He also goes into a great discussion of transportation technologies and efficiency which would never have made it into the article I’d write.  I like it when other people crunch numbers, so I don’t have to.

Give yourself a half hour to read the whole article.  It’s worth it.

( Terra Preta: I got a comment from Erich J Knight on terra preta here that went into a lot of depth, but I deleted it by mistake.  Forturnately, he says pretty much the same thing in his blog.  I first heard about terra preta from Ron Larson, chair of the American Solar Energy Society, who is very active in the local (Denver) renewable energy scene.  If you haven’t heard about terra preta, and are concerned about globabl warming or soil fertility without fertilizers from fossil fuels, it’s worth looking into.)

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Hedging Your Peak Oil Risk

In today’s issue of Peak Oil Review, I wrote a commentary on how to use the financial markets to hedge your peak oil risks.  These risks include not only the cost of energy, but possible job or income losses due to a slowing economy.  I  include some discussion of securities which pay dividends based on income from renewable energy, or may do so in the future.

Peak oil is key to my belief that investing in renewable energy and energy efficiency companies is not only the right thing for the planet, but also the right thing for your pocketbook.  Peak Oil Review is an excellent source for staying up with events and commentary related to peak oil.  It’s on my weekly reading list.

You can read my entire commentary  here (pages 4-5.)

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Five minutes with Xcel’s Dick Kelley

Richard C. Kelly

Dick Kelley, the President, CEO, and Chairman of the Board of Xcel Energy spoke to the board and invited guests of Western Resource Advocates last Friday.  I was invited as a supporter of WRA.

 

His speech was widely reported in the press because he called for national regulation of greenhouse gas emissions.  The AP story emphasized Kelly’s shift from being an environmental skeptic to calling for national Carbon emissions regulation.  This is a big shift, and a giant step for a utility, but Kelly is not so much of an environmental advocate as he might sound.

 

I had a short conversation with him before dinner.  After we introduced ourselves, I told him I’d been making his life harder recently at the Colorado PUC.  Like anyone who’s been successful in business, he didn’t miss a beat, and told me that it was great, and the more people’s input we had, the better.

 

He said that Xcel had been opposed to Amendment 37 because of the cost of the solar set-aside, a position I’m actually sympathetic with.   After all, is it better to have 1 MW of solar photovoltaics on people’s roofs, or 20 MW of Wind?  When you look at the subsidies needed to get people to install PV (which is an Amendment 37 requirement), we could probably get 20x as much wind energy onto the grid for the same cost.   It’s not that wind cost 1/20 as much as solar, but since the price of electricity from wind is comparable to the price of coal, it does not take much to get a lot of wind, while solar needs to be heavily subsidized.

 

What I really would have liked in A37 was an allocation for Demand Side Management (DSM) and energy efficiency.  If the same incentives could have gotten us 20 MW of wind or 1 MW of solar, it could also have gotten us 40 MW of DSM and energy efficiency.  (none of these numbers are precise… it’s hard to tell what an incentive will accomplish until it is implemented, but we do know that DSM is cheaper than wind is cheaper than solar.)  But energy efficiency was not on the table when A37 was being written… polling data said that adding “energy efficiency” to the bill dropped popular support by so much that we couldn’t have gotten it passed.

 

Dick Kelley also told me that Comanche 3 (a new 750 MW coal plant) would be the last conventional coal plant that Xcel would build.  I told him Comanche 3 would be fine with me, if they’d just shut down Comanche 1 and 2 (a couple old, less efficient plants at the same site.)  That was an option that’s clearly off the table, but he did say Xcel needed to find a way to clean up the emissions of those plants.  I suggested wood chips, like Aquila is doing at their  Clark Generating Station in Canon City.  By co-firing wood and pine needles from necessary forest thinning, Aquila is able to reduce net CO2 emissions, as wel as NOx, SOx, and Mercury.

I mentioned the option of hybridizing concentrating solar thermal power (CSP) with existing coal plants.  He didn’t really understand the concept, and thought I was talking about photovoltaics.  I’m not sure I was able to explain myself well.  Put simply, when heat is available from the sun, it can be used to displace heat from coal (or natural gas) in an existing generator.

Kelly also said he’d like to raise wind to 20-25% of generation, but after that they’d have to see what the effect on reliability of the grid would be.  I brought up the idea of Pumped hydro or CAES.  He didn’t seem familiar with the fact that Colorado’s Big Thompson Project could be adapted for pumped hydro fairly easily.  As he said, new big hydro is not going to happen.  Which is all the more reason for adapting out existing reservoirs for energy storage with pumped hydro.

I was encouraged that he has recognized that Carbon Emissions are a massive problem, and that the utilites, who are the biggest emitters of carbon, are going to have a big part in the solution, but discouraged that he knew so little about several pieces of the solution that have great potential to be quickly viable.

Xcel likes wind, but is not looking at new ways to increase how much they can put on their system… they’ll just go to 20-25% and see what happens.  They’re pursuing IGCC (Internal Gasification Combined Cycle a.ka. “Clean Coal”) with carbon sequestration in a pilot plant, which many environmentalists feel is just a distraction from renewable energy, pointing out that no one has ever done any sort of sequestration on a large scale.  To me, that is an argument for IGCC with Carbon Sequestration, on a small scale: let’s give it a try and see if we can make it work or not.

IGCC is a lot better than one of the other ideas that Kelly brought up in his speech: he thinks that part of the solution will be nuclear power.  Nuclear power is indeed carbon neutral, but it requires diminishing uranium supplies, or the use of breeder reactors which make plutonium, an element which is not only extrememly toxic, but also an excellent material for making nuclear bombs.  We still haven’t figured out what we’re going to do with the waste from our existing reactors… until we do that, I think it’s crazy to look into building more.  And considering the real threat of terrorism, a nuclear reactor or wastepile makes a much better target than a solar array or wind farm.

When it comes to Kelly’s call for national regulation of carbon emissions, it’s a great step in the right direction, but it was a far cry from calling for a carbon tax (which economists think would be the most effective method of carbon regulation.)  Kelly knows global warming is real, and he knows that our politicians are going to do something about it.  By calling for national mandatory regualtion (but not a tax) he’s trying to shape the debate to come out in a way that Xcel will find easier to deal with. 

With a little more education about alternatives such as CSP, and ways to make the grid able to accept more intermentent resources (Time of use pricing, DSM, and energy storage), he may come to realize that Xcel has lots of ways to live in a carbon taxed or carbon limited world.  And he seems willing to listen; so if you get his ear for five minutes, try to make the most of it.

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Net Zero Electricity for less than $700

A few months ago, I wrote a blog comparing the number of negawatts you could produce by giving away Compact fluorescent Light bulbs (CFLs) to the amount of electricity you can produce with a rooftop photovoltaic system.  The CFLs had photovoltaics beat six ways from Sunday, and I concluded that you could do better by putting the money you were considering investing in a PV system in a Bank CD, and using the interest to give away CFLs.  Since I actually believe my own calculations, I set out to do just that.

 

I offered a $2 a bulb rebate (up to $5) for anyone who bought CFLs and sent me a receipt.  Apparently, $5 is not enough money to get most people off the couch, and I did not get a single receipt sent to me (the offer is still on, by the way.)  However, I also give away CFLs (usually something interesting like an outdoor spot or a candelabra bulb… most of my prospects have already replaced everything they can with the twisty type) to potential clients who come by my office, and the blog started making the rounds of the internet, eventually making it to Marc Dreyfors, who is on the board of the Environmental Educators of North Carolina (EENC).  EENC was planning their annual conference, and they usually offset the carbon from their conference by giving away CFLs, and Marc had the bright idea of asking me to fund it.

 

They calculated (with the help of Clean Air Community Trust) of
Asheville, that they needed to replace 51 60-watt incandescents with CFLs to offset the 16.7 tons of Carbon their conference was expected to produce.  My thought was: “we need to think bigger than that!” because I wanted to offset some of my own carbon as well.  They were fine with that, they just didn’t want to be greedy.

 

In the end, I funded the replacement of 320 60-watt bulbs (with 11w CFLs) and 80 100-watt bulbs (with 25w CFLs).  After the tax deduction, that cost me about $600, and EENC was able to use my grant to persuade Progress Energy (their local utility) to stump up a $500 donation to expand the program further.

 

I arbitrarily decided that EENC would get half the carbon offsets from my donation for their work, and I’d get the other half for coming up with the cash.  Assuming the bulbs we gave away are used just 1 hour a day, that means that all my CFL giveaways are saving someone over 12 kWh of electricity each and every day, which is more than my wife and I use.   With the help of a programmer-friend, I’m tracking the progress on my website. (on the right hand side.)  Note that the offsets cost only about half a cent per kWh over the lifetime of the bulbs, about a third of the cost of buying green tags from someone like Sterling Planet.   If I tried to produce 12kWh a day with a PV system here in Colorado, it would cost about $12,000 after all the rebates, and I’d save about $170 a year on my electricity bill.

Now I just have to do the calculations to figure out how many bulbs I need to give away to offset my use of natural gas, gasoline for my wife’s Prius, and biodiesel for my Jeep. 

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Down at the Public Utilities Commission

I just testified on Friday in the Colorado Public Utilities Commission rate case for Xcel Energy.  The case has been going on since April, and is in its last stages.  I only recently got involved (Who pays attention to rate case hearings, anyway?)
To be clear, a rate case is not a Least Cost Planning (LCP) process, which is when the regulators decide if the utilities plans to meet future needs of consumers are prudent.  That is, when they decide what sort of generation they need.  This is somewhat relevant because much of the opposition to this rate case is really opposition to the new coal plant being built by Xcel in
Pueblo, Comanche 3.  

Given the reality of global warming (which many people are just now starting to realize is a real and immanent threat), the fact that coal is our most carbon-intensive fossil fuel (not to mention all the other emissions associated with coal), and the fact that the planned life of a coal plant is 50 years, the opposition is understandable.  Unfortunately, this rate case is not the proper forum to oppose construction of new generation.

A rate case, is about how Xcel is allowed to charge for their electricity, and how much they are allowed to charge.  When it comes to how much they are allowed to charge, this is determined by setting an allowable Return on Equity (ROE) for shareholders, as well as a Debt/Equity mix.  Because debt is cheaper for a company to raise, a higher ratio of debt to equity will be cheaper for ratepayers, but the more debt to equity there is, the less stable a company will be, and the higher return both debt holders and equity holders will demand in order to take the risk of owning the debt or stock.

I made three basic arguments. 

  1. In order to avoid perverse incentives, it is best that in any situation, the parties should share risk in proportion to their ability to take action to reduce that risk. 
  2. The return on equity allowed under the settlement agreement was higher than is necessary to induce shareholders to own the stock under current market conditions,
  3. The rate mechanism, as envisioned in the settlement, contained several perverse incentives which would lead to behavior by Xcel that will likely place costs on ratepayers which would likely be prudently avoided if Xcel has an incentive to do so.

The first point about perverse incentives is important mainly for future planning.  If Xcel bears the risk that costs will exceed their projections, they will be much more conservative about their cost projections.  In this case, that means that cost projections will be higher, and take more of the unpredictability of fuel costs into account.  In addition, holding Xcel accountable for unexpected environmental costs will lead them to be much more conservative about their assessments of future environmental costs. This better information both of these effects will lead renewables to be seen in future least cost planning cases much more favorably, because many have zero fuel cost (and hence zero fuel cost risk), while their lower environmental impacts will lead to lower future environmental costs.

Energy efficiency measures, demand side management, time of use pricing, and investments in large scale energy storage, all of which lower fuel costs by reducing or shifting fuel use will also be more likely to be pursued by a company that bears modeling risks, because these measures all reduce risk by reducing fuel use or shifting it to lower cost times.

Widespread adoption of demand side management, time of use pricing, and energy storage also all favor intermittent renewables such as wind and solar by shifting usage to times when these resources are available.

Basically, energy efficiency and renewables are excellent way of addressing both the price and environmental risks that are currently borne by ratepayers for utilities.  Shifting some of these risks to the utility will lead the utility to take more proactive action to address these risks, both through renewables and through other mechanisms we may not yet have thought of.  That is the beauty of incentives rather than mandates: they inspire creative thinking, and usually come up with cheaper and more effective solutions to the same problem.

I’d like to be clear here that I don’t think that Xcel is the problem; I see Xcel as the solution.  What I hope to accomplish is to provide carrots and sticks will induce Xcel to be much more responsive to environmental and energy cost concerns.  With those properly designed incentives, I expect that Xcel will be able to accomplish more than many environmentalists could ever hope to win in mandates.  And Xcel shareholders should be well compensated for the risks of these investments; I want them to be able to do well by doing good. My second point, that the return on equity (ROE) allowed under the settlement agreement hinges on weaknesses on the various methods of calculating appropriate ROE.  ROE is the compensation that shareholders demand and are entitled to for taking on the risks involved in operating a public utility.  These calculations are inherently tricky: the formulae are fairly simple, but actually getting good numbers to put into the calculations can be very tricky.  The essence of the problem is that financial markets, and the formulas are all forward looking.  To really know what ROE is appropriate, we would have to know about future growth and risks of the company.  This information is unknowable, and in practice, the calculations are based on past information, and stock prices.

There were three calculation methods used, two of which depend on estimating the risk premium (Risk premium and Capital Asset Pricing model or CAPM) that shareholders demand in order to hold the stock, and the other (Discounted Cash Flow model, or DCF) of which depends on analyst predictions of future growth rates.  The Risk premium and CAPM use historical market data to derive those risk premiums, and the results of those calculations from those methods led to almost uniformly higher estimates of ROE than the DCF method.  I believe this is because the markets are currently demanding much lower risk premiums than they have in recent years.  These lower risk premiums are partly a function of the market run-up since 2002, and partly a function of the run-up of the late 1990s, which, in my opinion and in the opinion of many other market analysts whom I respect.  I bring up Alan Greenspan, the former fed chairman in my testimony, but I also include Richard Russell, Nouriel Roubini, Pimco’s Bill Gross, and Yale’s Robert J. Shiller in that.  I chose Alan Greenspan because he has the most kudos and is most likely a recognizable name.  I note that when Xcel’s witnesses were trying to trash my testimony, they convieniently chose not to mention Greenspan.

 However, if I’d been able to travel a week into the future, I would have probably tried to include Bill Gross’ November Investment Outlook  column in my testimony as an exhibit.  As allways, Bill leaves me in awe with his depth of research and clear reasoning. 

The DCF method is also flawed in its reliance on analyst estimates, since analysts can easily be caught up in the market mood as well, but they are often a much more sober lot, and so based my recommended ROE on the low range of the DCF calculations of other analysts.  If you look at the confidence index graphs at the International Centerfor finance at Yale, you will note that institutional and individual confidence tend to follow the same long term ternds.           

Finally, in reference to the perverse incentives in the Electric Commodity Adjustment (ECA) primarily concern two parts of the ECA: the Baseload Energy Benefit (BLEB) and time of use (TOU) pricing.           

With regard to the BLEB, this is an incentive for Xcel to keep their coal plants running as much as possible, under the assumption that coal is the cheapest form of electricity generation that is dispatchable (i.e. that they can turn on and off at will.)  I have serious problems with a lot of the assumptions that go into the BLEB.  I had problems with the form of the equation they used, given that it was based on annual average prices for natural gas, as opposed to real time prices, but that was a minor point compared to the things which the BLEB left out. Carbon Intensity of various fossil fuels, lb Carbon/MBtu.

Source: Treepower.org           

The BLEB left out of the costs of coal all the environmental costs of its use, thereby giving coal a great incentive than it deserves.  Also, only natural gas an coal were had reference at al.  Xcel’s explanation of this is that only gas and coal are dipatchable, yet part of what they say the BLEB is designed to encourage is improved maintenance of their coal plants to ensure that they are always available.  All forms of generation can benefit from improved maintenance.  Using their logic that the form or generation with the cheapest fuel cost should be incentified, there should clearly be strong incentives for improved maintenance of renewable resources such as wind and solar.            Finally, while wind and solar power are not now dispatchable, with the addition of energy storage such as pumped hydro or CAES, they can be made dispachable.  Incentives for coal will only delay investments which improved the dispatchability of other forms of generation. 

Here are links to my testimony, as well as all the testimony in the case, and the settlement agreement. 

Xcel did me the honor of spending several hours of the hearing trying, with various degrees of success, to tear apart my arguments.  I almost didn’t get any chance at all, but Ratepayers United Colorado’s attorney Gina Hardin managed to get me about 5 minutes to respond to multiple comments from several other witnesses.  Thank you, Gina!

             Here is my take on what they had to say (from my notes.) Frederic Stoffel – Testifying in his former capacity as VP Energy Policy development for Xcel. Stoffel totally misinterpreted my testimony, by saying that he felt that I wanted Xcel to take on all environmental risks, and the price risk of any deviation from projections.  Note that while this blog makes it clear, I’m not sure if he didn’t get it because I was unclear, or because he simply chose to misinterpret what I was saying to make it easier to defend against.  I feel I managed to counter this argument effectively in my five minutes on the stand the next day. 

I did not fare so well at the hands of George Tyson, Xcel VP and Treasurer.  In my analysis of appropriate ROE, I glossed over a major salient point, saying Public Service of Colorado had a “high” bond rating from S&P.  I had gotten this impression reading other testimony in the case, but in fact, PSCo’s senior unsecured debt rating is BBB-, one tiny notch over junk status.  Oops!   This makes a lot of my arguments about risk premiums irrelevant, because a debt downgrade (which might indeed follow if the commission were to assign my recommended ROE of 8.9%) would seriously impinge on PSCo’s ability to operatate, even if shareholders at the moment are not worried about such an event.  (In fact, shareholders shouldn’t be worried about this case, because the realistic chances of this settlement being thrown out are nil.  The main reason we were doing what we were doing is to demonstrate that there is real ratepayer unhappiness, so, when we have a more sympathetic PUC with one or two new appointments from Bill Ritter, who we hope and expect to win the election Tuesday – If you have not voted yet, do it! – then we can go back and appeal this.)   

But Xcel did feel that they needed to counter what I had to say, since for both Tyson and Robert B. Hervert spent much more time attacking my testimony against the settlement than they did on any aspect of the settlement itself.  Considering how little they said about the settlement agreement, I get the feeling that they probably would not have even taken the stand under other circumstances. Hervert is a CFA charterholder, and economic and financial consultant for Xcel.  He took me to task for my conclusions about risk premiums.  His points were basically that he sees no indication that investors are currently asking lower risk premiums, and that analysts are not being swept along with that sort of mood, either.  I really can’t argue with that: it’s impossible to judge if valuations are currently high now because the current outlook really is good, or because people are too exuberant.  All I can say is, “Time will tell.” 

He also took more to task for saying that the VIX is at historically low levels.  If you will note from the graph, it has currently only been this low once before (the index did not exist prior to 1990,) and, he noted that it is currently within “one standard deviation” of its mean.  This is bad analysis, which I would not expect from a Charterholder, and it really gets me steamed because I wasn’t able to dissect his mistake fast enough to pass a good question to Gina Hardin to allow her to challenge it by crossing him. 

(Skip this paragraph if math makes your eyes glaze.)  Hervert’s mathematical sin is that the VIX does not conform even roughly to a normal (or even symmetrical) distribution, and so talking about “standard deviation” in reference to a lopsided distribution such as the VIX really is not relevant.   

Anyway, I wish I’d had time to bring that point up in the few minutes I actually got on the stand.  Not that anyone would have understood it, which is why I stuck to my main points about incentives and Stoffel’s misinterpretation of my testimony. 

I really don’t care that much what ROE Xcel is authorized.  I’m much more concerned about the incentives that they are given. With the right incentives, Xcel would stop trying to build coal plants and instead invest heavily in energy efficiency, demand side management, time of use pricing, energy storage, transmission, and renewable energy generation, and make a lot of money doing it.  That’s what I would hope to come out of a rate case.  Maybe under our next governor, we’ll get something like that.

So go vote Tuesday (even if you don’t live in Colorado.)   It really does matter who wins even the small races.  If you had the time to read through this multipage diatribe, surely you have enough time to make it to the polls.

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25x’25

I spent much of the last week at the 25x’25 “Twenty-Five by Twenty-Five” second implementation planning meeting.  25x’25 is a coalition advocating the vision that “By 2025,
America’s farms, forests and ranches will provide 25 percent of the total energy consumed in the
United States, while continuing to produce safe, abundant, and affordable food, feed and fiber.”   That’s at least 25% of our energy from renewable sources.

            25x’25 is an open alliance; the participants are the organizations who have endorsedthe 25x’25 vision outlined above.  These include 18
US Senators, 91 Congressmen, 18 state governors, 4 state Legislatures (including
Colorado).  I attended the conference as the representative of the
Colorado Renewable Energy Society. 

            I highly encourage my readers to endorse 25x’25 (you can endorse as an individual, or as an organization, or both.)  Your endorsement helps them demonstrate that a broad swath of Americans support the 25x’25 vision, and will help convince the US House and Senate to pass the concurrent resolutions for 25% of the nation’s energy supply to come from renewable sources.

We are currently in the process of coming up with our vision of how
America can achieve 25x’25.  Any endorsing individual or organization can participate.  The goal is agree on a series of recommendations (the Implementation Plan) as to how we can achieve the 25x’25 vision.  When the Implementation Plan is complete, which we plan to achieve by January, in time for the next congressional session, all partners will have a chance to endorse the plan.

Since the whole process is by consensus, and the 25x’25 goal is an ambitious one, it would be easy to believe that the Implementation Plan will turn out to either be watered down to the point where it does not say anything, or end up endorsing so many points of view that it would be ludicrous to call it a plan at all.

Having now participated in two conference calls and two days of face-to-face meetings, I’m happy (and somewhat surprised) to report that we’re actually managing to form a consensus among a large group of people and organizations you would not expect to get along under ordinary circumstances.  For this, I can only shake my head in wonder at the diplomacy and perseverance of the Steering Committee.  They managed, though two days of what could have turned into a verbal free-for-all, to keep us all focused on the need to work together to reach the very ambitious goal we’ve all agreed upon.  (In that same spirit, and understanding that many of the participants have been willing to voice their true opinions and step away from the party line, I will not name any names here.  This also has the advantage of covering for my lousy memory for names.)

How do they do it?  By keeping us focused on the fact that we all agree on the goal: 25% of our nation’s energy from renewable sources by 2025, and reminding us that we’re never going to get there by half measures.   The second thing they did was keeping the discussion focused on “Yes, if…”: continually reminding people to stay in the mode of working together, and instead of thinking about all the reasons that something was impossible to accept, to instead say “I could accept that if it were this were also to happen.”

So my kudos to the people I met on the steering committee.  I was impressed.

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That “Free” set-top box isn’t free

Here’s an article from Reuters about the hidden costs of set top boxes… up to $76 a year in electricity bills for a cable set-top box.

This is one of those opportunities for energy conservation that I really like to push: you not only can save energy, but money as well, and it does not require sacrificing quality of life.  CFLs and Passive Solar architecture also come to mind… there are so many energy saving opportunities that pay for themselves, it breaks my heart.

Most consumers don’t see the money or electricity they’re wasting here, and so they don’t know that they need to be more discriminating.  These hidden cost provide a great opportunity for useful government regulation.  Requiring that A/V equipment have a sleep mode that uses 1 watt instead of 30 watts would only add marginally to the cost of most equipment (See this great Economist in-depth article on the subject from this spring)  Oops- it’s only available to subscribers.   Some highlights:

 STRANGE though it seems, a typical microwave oven consumes more electricity powering its digital clock than it does heating food. For while heatictq237.gifng food requires more than 100 times as much power as running the clock, most microwave ovens stand idle—in “standby” mode—more than 99% of the time. And they are not alone: many other devices, such as televisions, DVD players, stereos and computers also spend much of their lives in standby mode, collectively consuming a huge amount of energy. Moves are being made around the world to reduce this unnecessary power consumption, called “standby power”.

In 1998 … standby power accounted for approximately 5% of total residential electricity consumption in America, “adding up to more than $3 billion in annual energy costs”…. results, published in 2000, revealed that standby power accounted for as much as 10% of household power-consumption in some cases.

…In 1999 the International Energy Agency, based in Paris, adopted Dr Meier’s proposed “one-watt” standard as a target for standby consumption. In 2000 Australia became the only country to adopt this standard nationally, in the form of a voluntary scheme that began in 2002. The aim is for most new products to meet the one-watt standard by 2012.

In addition to these various voluntary schemes, there have been some mandatory measures. Perhaps surprisingly, one of them was introduced by President George Bush, as a result of the California energy crisis of 2001. That year, Mr Bush issued Executive Order 13221, which states that every government agency, “when it purchases commercially available, off-the-shelf products that use external standby power devices, or that contain an internal standby power function, shall purchase products that use no more than one watt in their standby power consuming mode.” Given that Mr Bush is not renowned for his environmental credentials, this came as quite a surprise to those in the industry.

That law does not apply to consumers, and there are a ton of energy hog products out there.

What can you do?  Buy Energy Star  rated products.   I also have a tester called a Kill-a-Watt from P3, to see which of the gadgets I already have are energy hogs.  Some nonprofits have these available for loan, and if you live in Denver, I’ll loan you mine.  The Center for Resource Conservation in Boulder has a nice little calculator you can use with it, too.

If you find you already have products that use a lot of power on standby (and you probably will,) consider plugging them into a power strip, and turning them off that way.  That’s not always an option, though.  I found that my VCR/DVD combo uses 30 watts all the time, and it would lose it’s programming if I turned it off with a power strip.   I’m thinking about replacement.

I also think this is a great argument for laptops over desktop computers… laptops are designed to conserve power, because they have to make the battery last… most desktops are not.  If you want a big screen and a keyboard, you can always use a docking station. 

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