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Saving Energy Without Derision 698

George Maschke writes "Saving Energy Without Derision (5 mb PDF) is a new (and free) e-book by former Sandia National Laboratories senior scientist Dr. Alan P. Zelicoff. This book is intended to be a real-world, no-nonsense, thoroughly documented collection of easy-to-implement recommendations to help the average thoughtful person to pick the 'low-hanging fruit' of conservation and renewable energy. The author is after the easy 75% of actions we can all take (but almost uniformly ignore) that most certainly make a difference in energy costs (after all that's what most people care about) and adjuring a bit of unnecessary adverse impact on the environment (which a few folks actually think is important beyond the mere dollar valuation). The author welcomes comments and intends to continuously update the book (consistent with readership interest) and address many new topics. For example, next on his list is an analysis of the economics and scientific basis of fuel-cell vehicles powered by hydrogen. (Bottom line, he maintains, is that it's a cruel hoax and energy disaster, and far less useful than, for example, heavy hybrid automobiles that get about 50 - 60 miles on an electric charge alone -- which accounts for more than 85% of driving in the US and elsewhere on a daily basis -- and which are available now.)"
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Saving Energy Without Derision

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  • 5 mb PDF? (Score:5, Funny)

    by Nova Express ( 100383 ) <[moc.liamg] [ta] [nosrepecnerwal]> on Saturday September 18, 2004 @01:00PM (#10285643) Homepage Journal
    The Amazing Creskin predicts the number of Slashdotters who will post without having RTFM will reach an all-time high!

    • Re:5 mb PDF? (Score:5, Informative)

      by apzelic ( 814632 ) on Saturday September 18, 2004 @03:37PM (#10286581) Homepage
      Yes, indeed when the "Slashdot effect" took over, the server where my website is hosted crashed. The server owner/host isn't very happy, but this is my mistake and I apologize to all of the MANY readers who want to download the book. If you can't connect (I have no idea how much longer it will be before the server is rebooted, and when it is, I may be forced to remove the book), just send me an e-mail and I'll send you a copy (and hope you'll find it useful enough to send a small voluntary donation of $5 or $10 so that I can continue to update it with useful science and new technologies). My e-mail: zalan8587@qwest.net
  • by drgonzo59 ( 747139 ) on Saturday September 18, 2004 @01:02PM (#10285656)
    Might be outdated! HERE [216.239.39.104]
  • by D-Cypell ( 446534 ) on Saturday September 18, 2004 @01:02PM (#10285661)
    With the increasing interest in hydrogen fuel cells it may be time for the 'coalition of the willing' to begin the inva^H^H^H^H liberation plans of those countries that possess surplus hydrogen reserves.

    It also might be time for a manned mision to the sun...
    • by prichardson ( 603676 ) on Saturday September 18, 2004 @01:14PM (#10285724) Journal
      Please tell me that was sarcasm.

      Fuel cells will not provide us with energy. They will only help store it. If we had the perfect battery (long life, close to completely efficient, no leakage, no memory, high output, quick recharge) then the electric car would become a lot more feasible. The electric car is a good thing because your power plant can burn oil and coal at around 80% efficiency. Your car burns gas at, IIRC, a meager 20%-40%. Also, this would allow new forms of electricity generation to not only affect your home, but also your car, trains, trucks, and planes.
      • Fuel cells under research right now are designed to allow the hydrogen to come from complex hydrocarbons...the easiest source right now [i.e. gasoline] only they use battery-type reactions to generate the electricity directly under optimum conditions...meaning better efficency and environmental benifits.

        Like the Post said, it's still a somewhat cruel joke because you still need Gas for the plan to work and only save 10-20% usage... NOw if they could use Alchol or methane.... grown from crops... powered by

      • by egarland ( 120202 ) on Saturday September 18, 2004 @03:45PM (#10286624)
        The electric car is a good thing because your power plant can burn oil and coal at around 80% efficiency. Your car burns gas at, IIRC, a meager 20%-40%.

        This is a common misconception but it's simply not true. The theoretical limit of efficiency is for an internal combustion engine like the one we use in our power plants is 35%. Internal combustion fossil fuel power plants operate at very near that theoretical limit but you have to factor in transmission loss, about 9%, which basically makes them equal to best-case car engine use (about 30%). The problem with today's cars is they often operate far from best-case (idling, downhill slopes, breaking, etc) bringing their efficiency down to 18-23%. This is why hybrid vehicles do so much better. They operate the engines much more intelligently and bring the efficiency up to about 30%. That means that an electric car powered by an fossil fuel power plant uses just about as much fuel as a hybrid car running on gasoline. This says nothing about pollution emissions which will be better from the power plant, but fuel use and CO2 emissions will be roughly the same.

        The only way electric/fuel cell based cars are actually a benefit to the environment is if they are powered by nuclear power plants or some other non-poluting technology. Fuel cells in cars won't solve anything by themselves.

        Good stats on fuel efficiency [iastate.edu]

        Second law of thermodynamics wrt. internal combustion [uwinnipeg.ca]

  • by tliet ( 167733 ) on Saturday September 18, 2004 @01:03PM (#10285662)
    [insert obligatory joke about overheating server]
  • HTML version! (Score:5, Informative)

    by Anonymous Coward on Saturday September 18, 2004 @01:04PM (#10285668)
    Read the HTML version instead, without the pretty graphs [66.102.7.104]

    Google is your friend.
  • Good to see! (Score:5, Interesting)

    by mprinkey ( 1434 ) on Saturday September 18, 2004 @01:06PM (#10285680)
    There is a definite need for energy conservation ideas that can be directly supported with economic validation. So many "green" initiatives are driven solely by politics and have economics, and often even environmental impacts, that are questionable. We need more people installing compact flourescent lamps and water heater blankets...not $20,000 solar panel arrays. A healthy dose of common sense here could really make energy efficiency ideas more popular. Here's hoping it works.
    • by zogger ( 617870 )
      ...alternative energy conversion devices, but I'll be the first one to admit that more sane conservation will do more in the short and medium term than anything else. It's jhoe sixpacks best bet dollar for dollar right now. Making homes with double the insulation for example, and using triple pane nitrogen gas filled windows, or integral blinds, etc are all great. The water heater blankets. Much better quality home appliances, like sunfrost units instead of el cheapos, and etc.

      Basically, I like both method
  • by Ricdude ( 4163 ) on Saturday September 18, 2004 @01:08PM (#10285694) Homepage
    ...is that it isn't an energy *source*. You have to make hydrogen, either by splitting it out of water, or some hydrocarbon source (e.g. petroleum), then pressurize it to extremes in order to get any usable range out of it in an automobile. If hydrogen can be manufactured by renewable means (geothermal, for example, would work well in Iceland), then there is some benefit to it.

    However, if you use solar energy to create electricity to electrolyze water, and make hydrogen gas that way, you end up with less energy at the wheels of a car than you would just charging a battery from the same solar energy.

    So you have to ask yourself, who benefits from multi-billion dollars of investment into a Hydrogen energy infrastructure?
    • by argoff ( 142580 ) on Saturday September 18, 2004 @01:16PM (#10285736)
      You are forgetting that in a hydrogen society - there is now room to bring nuclear power back into the picture. Now people have the potential to create hydrogen on a vast scale far away from any place that might have political fallout.

      In spite of all the bad press, the fact is that nuclear is still the safest, cheapest, and most environemtally friendly energy source ever created. IMHO, it's bad wrap had far more to do with its threat to OPEC then it ever had to do with safety or radiation.

      • God damnit, nuclear energy is NOT the cheapest source of energy out there. Natural gas, oil, coal, wind are all cheaper, 1/2 or 1/3 the price.

        Like wind, nuclear power is cheap to produce once you've spent insane amounts of capital building a plant. And it takes a long while to start producing energy, never mind producing more than it actually cost to get the plant up and extract its fuel.

        Oh, and did I mention that before you actually build the first plant, you need socialism to pay for the R&D for the
      • I'm with you on that one! Also, though, people tend to ignore the fact that, even if/where we still make hydrogen with fossil fuels, scrubbing is comparatively easy on a massive scale, but extraordinarily difficult in hundreds of millions of distributed units (i.e. cars). That is, emissions are far less damaging at power plants than in cars (though obviously a push for nuclear/alternative is still necessary!).
    • by mprinkey ( 1434 ) on Saturday September 18, 2004 @01:19PM (#10285753)
      The key issue with hydrogen is that there is no good way to store it. It diffuses through everything, so leaks will always be an issue. Liquifying takes super cold temperatures and is very expensive. Compressed hydrogen needs to be a ~1000 psi to get a sufficiently high energy density...and that will make for one interesting car crash.

      The best solution for transportable, stable, environmentally friendly fuel is probably methane. Compressed natural gas vehicles are very common. We can make methane about as easily as we can make hydrogen or oil or even from coal, via gasification. All fuel cell manufactures are also looking at reforming mechanisms to make methane useful in fuel cells. As engineer who has worked on fuel cell technology for the last five years, I think it is pretty clear that for future of transportation applications of fuel cells...particularly hydrogen-only systems...is very bleak.

      Fuel cells will be used (eventually) in stationary power systems and very soon in portable electronics that will use liquid methanol as a fuel. Everything else is just a pipe dream, IMO.
      • by Phanatic1a ( 413374 ) on Saturday September 18, 2004 @03:54PM (#10286685)
        Compressed hydrogen needs to be a ~1000 psi to get a sufficiently high energy density...and that will make for one interesting car crash.

        Ah, come on.

        Gasoline has an energy content of 45 megajoules per kilogram, or 56 MJ per liter. Energy density of hydrogen is about 11 kilojoules per liter.

        My car gets about 325 miles on a 16-gallon tank, so that's 60 liters of gas, or about 3400 megajoules. To get that same amount of energy from hydrogen, I'd need 309100 liters of the stuff, at STP. To fit that into a 16-gallon tank, I'd need to pressurize it to about 5000psi, or about 340 atmospheres.

        Not particularly difficult to build a tank that can hold that. Not even particularly difficult to build a tank that can hold that and still have a huge safety margin. HY80 steel, ferinstance, has a yield strength of (surprise!) 80,000psi on a one-inch thickness. Even aluminum might do the job; 5083 H-116 plate has a yield strength of 34,000 psi. Sure, you're carrying around a tank of highly-compressed hydrogen, but making a tank that's strong enough not to rupture in approachingly-normal circumstances, and connecting it to the car with a strong enough leakage that it won't break itself free and go flying into the next county if it *does* happen to rupture is hardly a game-breaker. Hell, cars today carry around tanks of a highly-flammable liquid in a tank of thin sheet steel, and those rarely rupture, and people aren't concerned about the safety of it.

        No, the key issue with hydrogen is that there's no good way to produce it. Until you go all-nuclear, electrolysis is ridiculously expensive, and steam-reformation of hydrocarbons doesn't really help you.

        Leaks? Get the production cost low enough and nobody'll care about leaks, anymore than they care about the trickle of water leaking from a car's exhaust pipe.
        • by Yartrebo ( 690383 ) on Saturday September 18, 2004 @05:34PM (#10287256)
          My car gets about 325 miles on a 16-gallon tank, so that's 60 liters of gas, or about 3400 megajoules. To get that same amount of energy from hydrogen, I'd need 309100 liters of the stuff, at STP. To fit that into a 16-gallon tank, I'd need to pressurize it to about 5000psi, or about 340 atmospheres.

          My math shows that the pressure will be 41.6 kPa per mole of hydrogen using a 60 litre tank at 300 Kelvins (around room temperature). The heat of reaction of H2 + 1/2O2 = H20 is 241.8 kJ/mol, so to store 3.4 GJ of energy, you would need 14,060 moles of hydrogen, and the pressure would be about 584 MPa, or about 5,800 atmospheres assuming hydrogen is an ideal gas.

          Hydrogen ceases to be like an ideal gas far before 5,800 atmospheres are reached. In fact, no amount of compression short of squeezing the hydrogen into a ball of neutrons (trillions of atmospheres required at a minimum) will fit the hydrogen into that tank. Well, there would be an intermediate point (after a few billion atmospheres) where the carbon and leftover hydrogen could be combined into hydrocarbons and those should fit into the tank.
        • One thing you forget is that hydrogen reacts weird with just about everything - for instance, it makes steel brittle. It is a very interesting element. This weirdness is why water is such a great solvent (some have said it is a perfect solvent)...
    • by Abcd1234 ( 188840 ) on Saturday September 18, 2004 @01:24PM (#10285775) Homepage
      Holy cripes, here we go again... why can't you people get it?

      it isn't an energy *source*

      Umm, that is the whole *point* of using hydrogen: to provide an efficient storage mechanism for energy, which can then be extracted cleanly using fuel cells, combustion, etc.

      And *why* do we want this? Because then we can generate large quantities of energy in central locations using methods not normally available to vehicles (hydroelectric, solar, wind), as well as benefiting from economies of scale with traditional technologies (traditional, large scale power plants are *far* more efficient than a standard internal combustion engine in a car).

      Moreover, centralized generation makes it easier to move to new generation technologies (geothermal, tidal, etc), and to upgrade existing plants (since you only have thousands of plants to upgrade, rather than hundreds of millions of cars).

      So, in the end, I'd say we all benefit from a multi-billion dollar investment in Hydrogen energy.
      • It's not particularly efficient as a transportable energy medium, that's the problem. You need highly pressurized tanks to do this, and leaks are quite dangerous in these circumstances. It's more efficient to charge a battery, and use that stored energy than it is to generate hydrogren, pressurize it, distribute it, and convert it back to usable energy.

        The problem with centralized generation is distribution losses. Upgrading thousands of plants is just not going to happen. The plants out there will run
    • ...is that it isn't an energy *source*.

      Then again, nothing is, second law of thermodynamics and all that.

      But it's easier to switch from energy converted from oil to energy converted from, say, solar energy by settling on an intermediary carrier - like electricity or hydrogen. The technologies for both of which aren't fully worked out yet (fully electrical cars are way off, and the intricacies of a hydrogen infrastructure are as yet untested except for some busses running on the stuff).

      Another promising
      • Using ethanol as a fuel results in a fossil energy balance of approximately 1.1:1, you get just a little more out of it than you put into extracting it. Biodiesel from soy beans tends to average about 3:1, due to the large solar input (which is not considered in the fossil energy balance). Soy is by far, not the most efficient (economic, nor energy) feedstock for biodiesel. Nuts, algaes, and even mustard seed are far more efficient for that sort of thing.

        Oh, and most diesel engines today require no conv
    • Battery is worse (Score:4, Informative)

      by robogun ( 466062 ) on Saturday September 18, 2004 @01:52PM (#10285940)
      However, if you use solar energy to create electricity to electrolyze water, and make hydrogen gas that way, you end up with less energy at the wheels of a car than you would just charging a battery from the same solar energy.

      Powering cars by rechargable batteries has MANY more problems... If 50% power loss is assumed at each step (optimistic), how much power is really needed to charge a battery, after 1) Generation 2) Transmission 3) Step down to battery V in garage 4)Recharge loss 5) Storage loss

      You want leaks? Battery drains faster than hydrogen can escape

      Let's not even talk about the unchanging (heavy) weight of batteries (whereas fuel weight decreases at is consumed). You are still hauling 500 lbs of battery full or empty.

      What about practicality? It takes several hours to recharge a battery vehicle. They are only practical in closed loops e.g. golf courses, where usage is more or less constant. Though admittedly a setup with chargers at home +and+ at place of employment would be useful for the 9-5'ers.

      What about the environment? Lead and elecrtolyte will have to be replaced regularly. And accidents will get really ugly as acid is spilled all over the place.

    • by cr0sh ( 43134 ) on Saturday September 18, 2004 @09:00PM (#10288266) Homepage
      ...both here and on other forums - and have yet to see anyone tell me why it wouldn't work (I am not an engineer - I assume there are flaws with my idea):

      Cracking water/steam using solar furnaces - use the power-tower or similar concepts to first heat water to super-heated steam, then run the steam over red-hot iron (heated by the sun as well).

      As I have noted before, I don't know why this couldn't work - or why it works. All I know is that this was a major method of hydrogen production back in the 1800's for ballooning (aerostat racing and exhibitions) - super heated steam was passed over red-hot iron and cracked into hydrogen (and one assumes oxygen - it binds with the iron to make rust?) at fast enough rates to fill a balloon envelope. If it worked then it would work now. In fact, a variation of this is how we crack hydrocarbons into hydrogen at a refinery.

      I have proposed that a plant be built in Barstow/Daggett in California, near Boron. There used to be a technology marketed to bind the hydrogen to borax (similar to hydrate storage?) - making these "solid fuel" tablets of hydrogen - reacted in water (IIRC), the tablets would release hydrogen gas to run an engine, and heat (exothermic reaction) - and the water/precipitate (don't remember what the reaction created) could be recycled to create more "solid hydrogen" tablets (bonded hydrogen would be a better term).

      How many times do I need to post this idea - and when will I get an answer of why it won't work (I have a theory that there may be a practical reason - but I have yet to hear it)? Such a system of generating hydrogen would be mostly eco-safe: solar, water, and iron (scrap cars?) would be all that is needed, and a source of borax (hence the location for the plant - plenty of nearby borax, location on a fairly major trucking route to ship the resulting fuel, and plenty of sun year round for generation!).

      BTW - the test plants that were built in Barstow/Daggett - they routinely output 10+ megawatts, and used very little ground area for a solar plant (less than an airport - possibly even less than a conventional power plant)...

      Damn - why aren't we doing this!?

  • by JohnnyKlunk ( 568221 ) on Saturday September 18, 2004 @01:12PM (#10285710)
    I beleive in this stuff, I really do.
    I can't rtfa as it's /.'d currently - but we all know the content - "Install insulation, drive a fuel-efficient car". Lovely, great thought - but how do you put it into practice. I don't own a car, I make a point of not owning one but how do you convince Mr Tinyknob in his suv-sports-environment killer to drive something fuel efficient? He's never going to impress people any other way.

    OK, I'm being harsh, but it's fair. I take all sorts of precautions to leave a fair planet for my (currently) 5 week old daughter, but I frequently wonder what the "£$%ing point is if the guy at the next desk drives 500 miles weekly in his V8 5litre penis extension because he's got no self esteem what-so-ever?
    • Don't vote the republicans and maybe US will sign the Kyoto threaty and when gasoline is going to cost 4.5$ per galon (like in europe) Mr Tinyknob will be bancrupt in no time if he still try to impress people with the suv.
    • This is not about men and psychological issues about their penis.

      Multiple polls in the USA have shown that women largely prefer SUVs over other vehicles. According to industry research, FORTY PERCENT of suv buyers are female:
      source [about.com]

      It has also been found that, all other things being equal, the average female will find the male with the SUV more attractive than with any other vehicle. (source is Men's Health magazine).

      So please, this is not about "male inferiority", women are a HUGE part of this probl

  • by CapsaicinBoy ( 208973 ) on Saturday September 18, 2004 @01:13PM (#10285718)
    Driving a modern VW or MB diesel whether or not you ever plan to use a single drop of domestically produced biodiesel is a good place to start.

    My 2003 Jetta TDI has 40862 miles on it and I've used 832.7 gallons of diesel (and 56.9 gallons of biodiesel) thus far. For those of you keeping score at home, that's about 45.93 mpg over the life of the car. Not too shabby.

    Why wait 15-20 years for hydrogen when we can start reducing our dependence on foreign oil NOW?
  • by Loco3KGT ( 141999 ) on Saturday September 18, 2004 @01:16PM (#10285733)
    Batteries are amazingly corrosive.

    A lot of the U.S. gets its electricity from coal and other non-replaceable fuels that damamge the environment.

    Everytime you drive it you have to plug in and get more electric charge from the above environment destroying power plant.

    Where's the bonus?
    • Everytime you drive it you have to plug in and get more electric charge from the above environment destroying power plant.

      In theory, a power plant's pollution is "localized" and thus more easily controlled.

      Perhaps you can think of it as a mainframe/supercomputer vs. workstations/beowulf clusters... car pollution is distributed (which might be good, because then one place doesn't get polluted "too much"), whereas powerplant pollution is highly localized (initially -- yes, it gets distributed by wind patt
  • I don't get it... (Score:5, Informative)

    by Fnkmaster ( 89084 ) on Saturday September 18, 2004 @01:21PM (#10285760)
    I thought everybody but George Bush knew that the supposed economics of hydrogen fuel cell vehicles were a crock. This has been widely reported in mass media, discussed and rehashed many times on Slashdot. Hydrogen isn't clean unless it's being produced by clean means. If we are just going to burn more coal and oil to make hydrogen, we gain some efficiency by producing the energy centrally, but lose that energy savings and then some in the transportation and distribution of the hydrogen (or by the lesser economies of small-scale distributed hydrogen production). Every time you convert the form of energy, you lose energy - at best you get 75-80% efficiency in a conversion (as in large scale cracking of water to hydrogen), at worst, much less.


    Instead of investing billions in pipe dreams, we should focus on excellent technology that can be implemented in the next few years for a reasonable cost. Renewable cellulose-derived ethanol could reduce our dependence on foreign fossil fuels and is neutral in net carbon impact (the carbon emissions from burning the fuel are offset by growing more low cost fuel crops that take CO2 out of the environment). And current gasoline engines run with minimal modifications on E85, an 85% ethanol, 15% gasoline mix. Making FFV engines (flexible fuel vehicles - compatible with ethanol and gasoline in various mixtures) can be done for at most 100-200 dollars of extra cost at vehicle build time, and many FFVs are already on the road in the US (in many cases, people don't even know they have them, the manufacturers build them for tax breaks then don't market the features outside of certain areas of the midwest where corn-derived ethanol is available at the gas station).


    At current gas prices, cellulose-derived ethanol is actually more than competitive, it is cheaper than gas - the problem is the long term instability of gas prices makes investing in infrastructure to produce cellulosic ethanol as a fuel substitute too risky - it's hard to compete with something pumped out of the ground, where most of the costs are transportation, and political/defense issues. Please note that we're NOT talking about corn ethanol, which a highly subsidized and environmentally contentious product due to high energy costs of growing and harvesting corn.

    • Re:I don't get it... (Score:4, Informative)

      by CapsaicinBoy ( 208973 ) on Saturday September 18, 2004 @01:35PM (#10285838)
      "Please note that we're NOT talking about corn ethanol, which a highly subsidized and environmentally contentious product due to high energy costs of growing and harvesting corn."

      Actually, even corn-ethanol has a positive energy balance these days. Much of the confusion dates back to some old calculation's by Pimental at Cornell that found corn-ethanol had a negative energy balance when in fact more recent USDA numbers show that corn-ethanol produces 67% more energy that it takes to produce it.

      Still, biodiesel blows ethanol out of the water in terms of energy balance. And that's making B100 from soy. Imagine the energy return if we made it from dual use crops like mustard or better yet from algae.

      Algae source biodiesel grown on 15,000 sq. miles could completely displace petroleum transporation fuels in the US. Don't believe me? Read Mike Briggs' analysis for yourself:

      http://www.unh.edu/p2/biodiesel/article_alge.htm l

      • by Fnkmaster ( 89084 )
        I stand corrected on the current wisdom on corn ethanol - I have heard the same before, it's just that I prefer not to deal with debating about corn ethanol since it gets so damned contentious and everybody has an opinion about it. Better to keep the conversation focused on the less politically baggage laden, more economically promising production methodologies.

        As for your claims about biodiesel, based on my research about a year and a half ago, the production cost gap between B100 and fossil fuel diesel

  • by Dzimas ( 547818 ) on Saturday September 18, 2004 @01:23PM (#10285772)
    I went shopping this morning - spent my time shuttling my car between various big-box stores. WalMart, the grocery store, the bank. I've got a 2 year-old, so walking is out of the question (and, honestly, I wouldn't want to walk that distance anyway). The truly sad thing is that the shops are "next to each other" but separated by huge expanses of parking lot. What makes it truly sad is that there is an LRT line that runs through the shopping district, with a stop at 2km intervals. Too far for anything but waiting for the busses (which run on a 45 minute schedule on the weekend). My point? Its nearly impossible not to have a car, and each of the free-standing houses in the surburban neighbourhoods is approximately 2000 square feet. Most are at least 2km from shops, schools, and rec centres. I doubt many residents want to live in the area, but we cannot afford expensive "trendy" inner city homes. And the developers seem stuck in a rut -- they just churn out more sprawl each year. I wonder if its possible to make them change? Signed, Sad is Suburbia.
    • Sadly, you're part of the problem. When you shop at big box stores, the dollars you spend there aren't spent on whatever kind of store your post indicates you might prefer (small box store?).

      Until there's more demand for high-density urban housing, sprawl is the answer. People can choose to live in cities. Some -- like Seattle, Boston, New York and Portland -- are especially viable for a car-less lifestyle. But that requires people who want to live there. Most people, including you, probably don't.

      This has

  • by IAR80 ( 598046 ) on Saturday September 18, 2004 @01:31PM (#10285812) Homepage
    Build more nuclear reactors. Develop a working plutonium breeder (invest money in research). Drive down the prices on solar and wind (a wind turbine that can be manufacured in 300-400$ cost 2-3K$). Move out of teh suburbia. Start buying from local shops instead of driving to Walmarkt. Move closer to your working place even if the rent is 20% higher. Use the bike more often (is healty, environmental friendly and cheaper). Recycle. Increase the thermal efeciency of your home (better insulation ....). Get a VIA C3 or Crusoe instead of the P4. Get a hybrid car or a diesel. And most important DON'T VOTE BUSH! PLEASE!!!!!!!!!
  • "Cruel Hoax" (Score:4, Insightful)

    by Rostin ( 691447 ) on Saturday September 18, 2004 @01:33PM (#10285831)
    I'm no expert, but I've believed this to be the case ever since I wrote a paper on it for a chemistry course and (for an unrelated course) designed a methanol reformer for use on a fuel cell vehicle. I've never said much about it, because I thought, "Well, who are you? All these specialists and people who make energy policy seem to think it's feasible.."

    It warms my heart to see a expert saying what I already thought.
  • 5mb!!! (Score:3, Funny)

    by xutopia ( 469129 ) on Saturday September 18, 2004 @01:35PM (#10285840) Homepage
    there better be lots of nice pictures with that!
  • hydrogen (Score:4, Interesting)

    by Ralph Spoilsport ( 673134 ) on Saturday September 18, 2004 @01:40PM (#10285866) Journal
    The Parent Spaketh:

    (Bottom line, he maintains, is that it's [hydrogen] a cruel hoax and energy disaster, and far less useful than, for example, heavy hybrid automobiles that get about 50 - 60 miles on an electric charge alone -- which accounts for more than 85% of driving in the US and elsewhere on a daily basis -- and which are available now.)

    What is also sad from my viewpoint is that hydrogen, technically, isn't really a "fuel". You need a lot of energy to make it. Now, if one uses solar power to make electricity to crack water to make H, then you've sort of solved part of the problem, but solar panels have a shelf life, and are dependent on local weather conditions.

    I don't see Hydrogen as much of a solution for transportation. But I do think it could be used for home heating and local electrical generation in adverse environments. Still, the generation of Hydrogen is the big nut to crack. I think one nation on earth could become the Saudi Arabia of Hydrogen: Iceland.

    1. They're an island, so they have all the water they need.
    2.The whole freakin' island is basically a lava slick.

    You don't have to drill very far down to get Enormous Amounts of geothermal energy, which they are already tapping for island electrical needs. All they have to do is build extra geothermal plants and crack the Atlantic Ocean. Geothermal s steady and continuous power (the earth isn't going to cool off anytime in the near future, and as Iceland is part of the Atlantic Spread, I don't think anything we can do will slow plate tectonics or cool Iceland off).

    Hawaii and Vanuatu could be the Pacific Equivalents. Steady energy, lots of water. With that kind of a set up, we'll have a situation more like petroleum, where we'd have a real "fuel" i.e., lots of stored energy for very little energy expenditure in its creation.

    I used to be all into Hydrogen - thikning - Hey - it turns into WATER when you burn it! KEWL!

    But when I found out that the easiest hydrogen to get is out of petroleum, and that getting it out of either water or petroleum takes a lot of energy (which we get from either petroleum or fission - neither of which is renewable, except for the politically suicidal option of breeder reactors) my enthusiasm faded.

    The first thing is conservation, and the article provides a lot of great ideas (many of which I am already doing, and had pointers for some that I will be dong!) for that. But I'm afraid that the next several decades will be warfare over water and energy, and we really need to find solutions to both problems.

    I've stated before that the real problem is demographic - there are simply too many people. We need to *gradually* reduce populations to a sustainable level (I would estimate a global population of 250 - 300 million could be made sustainable indefinitely) and then develop long term energy, water, and metal recycling solutions.

    If we don't the not so distant future will be one of horrifying catastrophe: disease, continuous war over ever dimishing resources, no power, crushing poverty and crowding, and a long term future best described as a paleolithic extinction event.

    So, these are simple little choices we can make now, so we can plan for the future. OR, we can be our typical shortsighted green eyed greedy guts eat the world up everything for me and mine, and fuck the rest of you losers and simply watch the most precious of things in the universe - sentience - disappear.

    It WILL eventually disappear, but it doesn't have to go this way - so stupidly, and so preventably.

    Your every decision has far reaching effects.

    RS

  • Cool, but... (Score:5, Insightful)

    by Rew190 ( 138940 ) on Saturday September 18, 2004 @01:42PM (#10285881)
    I really doubt in a nation filled to the brim of SUVs that average America has a real concern for environmental and energy-related issues...
    • Re:Cool, but... (Score:3, Insightful)

      by evilviper ( 135110 )
      I don't know about you, but when I'm driving down the road, I don't see a sea of SUVs. More like 5%.

      Seems to me that it's only the rather well-off, getting SUVs despite high vehicle and gas prices, that don't care.

      I'd say most people do care that their electric and natural gas bills are through the roof.
      • Where I'm from (Buffalo, NY area), a conservative estimate would be about 25%. That's being quite conservative though, when I actually pay attention to the types of vehicles around me when driving, it's more like 40% - 50%.

        I'd say most people do care that their electric and natural gas bills are through the roof.

        I'd agree with you, but the extent of most people's "caring" is merely complaining about the cost instead of trying to cut down on the excess. My SUV driving friends look at the high prices th
  • by here4fun ( 813136 ) on Saturday September 18, 2004 @01:44PM (#10285891) Homepage Journal
    I am saving $10 a month on electricity from one easy change. I replaced the kitchen lights (there were three 100 watt bulbs before) with fluorescent lights. In the past, I tried to pay attention to turning the lights off before bed so I would not waste electricity or shorten bulb life. With the fluorescent lights, I now don't care if the lights stay on all night long, I still pay so much less money.

    I also saw something cool on the web. Some guy had a small solar panel and battery kit which could hold enough of a charge to run a small air conditioner for most of the day (when there was sunlight). I think that is a cool idea, as most friends who must use window air conditioners always complain how much more their electricity bill is in the summer.

  • by AtariDatacenter ( 31657 ) on Saturday September 18, 2004 @01:48PM (#10285915)
    I'm up to page 22. Page 22! I started to read this to find ways that I could save money on my energy (gas/electric) bills. Instead, I'd bombarded with page after page after page of introductory material.

    Mind you, this is good background information that seems really thought out, but you really have to WANT to read this thing in order to get it done.

    I'm just hoping the end of this is better than a standard energy saving pamphlet, or I'll feel like I was bait-and-switched to read some environmentalist's propaganda.
  • My $0.02 (Score:5, Informative)

    by mcrbids ( 148650 ) on Saturday September 18, 2004 @02:09PM (#10286050) Journal
    As father of five kids, with seven people in the house, basic things such as double-paned windows, water-saving shower heads, gas dryer, hot-water blankets, compact flourescent bulbs, and so on have been the mainstay.

    If this was not the case, my monthly utility bill (in California) would easily hit $500-$600/mo. As it is, we're lucky to have bills typically in the $200-$300 range. (I have two mini-servers for my business that are never off)

    Often, these kinds of things provide clear advantages beyond merely saving money.

    Recently, the water-saving shower head in the downstairs bathroom broke, and I screwed on the original shower head, which I still had in the shed, thinking this would "get us by" until I could get in for another one.

    Boy, was I wrong! With the old shower head, we could shower everybody in the household, one right after another in about one or two hours, including dressing.

    But, with the new shower head, we ran out of hot water within 20 minutes, making showering everybody nearly an all-day venture while we waited for the hot-water heater to catch up.

    Once, my son left the shower running hot water all night long, and in the morning, we found the shower going, and there was still plenty of hot water!

    Another example: Flourescent bulbs not only use far less energy than incandescent, they also last much longer (who wants to replace light bulbs once a month?) and don't heat up the house.

    I noticed the difference when I changed out the three 60-watt bulbs on the living room fam with three 15-watt flourescent! The room was, if anything, brighter, and, previously, when the fan was on low, you could FEEL the heat coming off those three 60-watt bulbs!

    Double-paned windows mean that my teen children can blare their punk music as loud as they want to without pissing off the neighbors. Also, we live on a somewhat busy street, and I can sleep off hours without car noise waking me. (as long as said kids don't blare their punk music)

    Also, in the winter time, you can sit next to the windows and not feel cold. That adds much to my sense of well-being on a cold winter morning...

    Embrace conservation. It doesn't *have* to be a hassle!
  • by Thagg ( 9904 ) <thadbeier@gmail.com> on Saturday September 18, 2004 @02:38PM (#10286226) Journal
    A group of people called PriusPlus [calcars.org] have just about completed a plug-in modification of one of their 2004 Priuses. It is a great car, and a great way to save energy -- at least a good way to save gasoline.


    The normal Prius uses its battery pack to help acceleration, hill climbing, and to power accessories. The battery pack is recharged by the gas engine and by regenerative braking. Every place except North America, the Prius has an EV button, which turns the car into a pure electric car -- but only for a mile or two before the battery reaches a state-of-charge (SOC) that is too low. The Prius battery back is designed to last an extremely long time (warranteed for 150,000 miles), and one way Toyota assures that is by limiting the SOC to a small range, from about 25% full to 80% full.


    Priusplus is adding a separate "traction" battery, that works with the normal Prius drivetrain, to provide a long-distance EV mode. In their first proof-of-concept car (which should be finished this weekend) it uses 12 motorcycle Lead-Acid batteries, and it should go about 20 or 30 miles on an overnight (or overday) charge. Using far superiour Lithium Ion batteries, they should get about 80 miles for a battery pack that costs about $5,000 or so (although current Lithium cells are quite small indeed, requiring a rediculous number of batteries wired into a large pack)


    If I could go, say, even 40 miles on a charge, I wouldn't use the gas motor in my Prius except to climb very steep hills during the week. I'd effectively get well over 100 mpg (Electricity costs, even in California, give a price-per-mile of about 2 cents. Unfortunately, at this point, the cost for the traction battery (because it is more deeply cycled it doesn't last as long) probably adds another few cents/mile.


    PriusPlus is hoping to display there car at a show here in Los Angeles at the end of the month, and is attempting to persuade Toyota that this is a car they should build. Once people are educated about the benefits of hybrid technology, it should be a small step to show them the further benefits of plugging them in.


    I fervently hope that PriusPlus will succeed!


    Thad

  • Insulate..... (Score:5, Interesting)

    by ge ( 12698 ) on Saturday September 18, 2004 @03:02PM (#10286376)
    I live in Tucson, AZ, in a 2500 sq. ft. house, with lots of windows. The electric bill runs about $150 in the middle of summer, $60-$75 in winter. I do have 2 PCs and various other equipment running 24/7.

    Friends who live in a 2000 sq. ft. home built by a volume builder pay about $300 right now, and I have heard of people that have $600/month power bills.

    We spent a few $1000 extra to get a more efficient house:
    - blow-in insulation was used everywhere. There's more than a foot of the stuff under the roof, and 6 inches in the walls, packed tight.
    - most windows are dual-pane Low-E2, tinted to reduce glare
    - we limited the number of skylights
    - the A/C is a high-efficiency, dual-compressor model (18 SEER)
    - we use fluorescent lights where possible
    - we keep shades drawn in rooms we don't use, such as a guest room, and my office on weekends.

    It looks like we'll recover the extra cost in about 5-7 years.

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