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Hybrid Drivers Provide Real-World Mileage Data
from the what-about-all-those-batteries dept.
The hot-selling Toyota Prius averages 48 miles per gallon among over 150 cars from across the country, with most drivers achieving between 45 and 51. The V-6 Honda Accord Hybrid delivers 30 miles per gallon while Ford's Escape Hybrid SUV averages 28. All hybrid owners are encouraged to post their data for these and other cars on the Internet's largest hybrid mileage database.
Reliable fuel economy figures are increasingly important as consumers explore their options in an emerging hybrid car market. Hybrids, like the new Lexus RX 400h, pair combustion engines with electric motors that recharge while driving to improve gas efficiency. "Until lately," said GreenHybrid creator Jason Siegel, "consumers have associated hybrid vehicles with a small niche of fuel-conscious environmentalists, but today's hybrids offer the best combination of high performance, great mileage and luxury features of any cars on the market."
MPG science (Score:5, Interesting)
Basically, I floored it when taking off and took the car to the max.
You know what I found, I got 25 MPG in BOTH cases. In fact, I got slightly better milage when I was agreessive. Granted, this was not completely scientific, but it made me wonder about doing more accurate testing. I expected to see a 5-10 MPG difference. To follow up, I drove the last tank at a normal "in-between pace".
I was talking to someone at work about it and they thought that maybe today's engines are tuned so well and change with different environments that it doesn't make a difference. It only makes a difference if you are stopped a lot like in traffic jams.
Anyone in Central Indiana want to join me for some more scientific testing?
Re:MPG science (Score:5, Interesting)
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Re:MPG science (Score:5, Informative)
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Re:MPG science (Score:5, Interesting)
Every time you double your speed, wind resistance quadruples. It goes with the square of the velocity.
However, that's not the whole story by a long shot, which should be obvious. If the slower you go, the better gas mileage you get, you might think you get infinite gas mileage at a standstill. Of course, you don't.
What makes the difference, then? Gears. See, your engine is extremely efficient in an RPM band - around the torque peak (called the power band). It's most efficient at the bottom of that power band. The gears don't actually help anything - as you learn in basic physics, simple machines don't change the amount of work that needs to be done. What they do is allow the engine to run at a more efficient RPM for a given speed.
So what gears do is put peaks in the fuel efficiency curve. Depending on how a car is geared, 55 mph can be very inefficient, because it could be at the worst spot below the power band, which it is on my 93 Mazda. 55 mph gets me 28 mpg, whereas 65 gets me 30, and 70 gets me 34. 75 gets me about 32, and 80 gets me about 30 again (this is all measured).
It's not just as simple as slowing down. You have to know how your car is geared - if it's got an overdrive, it's very possible that going 55 could hurt your gas mileage via engine inefficiency more than it helps via aerodynamics.
That doesn't mean that 34 is the best gas mileage I get, of course. My peak gas mileage is in the mid-40s, in the peak of the previous gear (if I lock it into 3rd via the shift lock), where it's about 36-37 mpg. At lower speeds, aerodynamics losses are well below rolling resistance, so going slower doesn't help.
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De-correction (Score:4, Informative)
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Re:MPG science (Score:5, Informative)
That's because most transmissions in production cars have their highest geared tuned so that the engine's in its RPM sweet-spot around 60-70mph; after that, the amount of gas per RPM starts to increase considerably more.
I'm curious as to just how high the grandparent kept his RPMs when he got similiar gas mileage driving timidly and agressively. Also, where has anyone heard stopping slowly increases mileage? Maybe in a car with regenerative breaking, but certainly not in a good ol' ICE powered car. If your foot's not on the gas, only idle gas is going to the engine (unless the computer is doing something, but it shouldn't affect that much). Unless I'm missing something, I can't see how slowing down gradually will increase anything beside the frustration of the driver behind you because you're not getting to a stop light quicker
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Re:MPG science (Score:5, Informative)
When you stop abruptly, you will arrive at the stoplight more quickly (higher speed for longer) therefore there is a greater probability of it still being red when you arrive at it, therefore you are more likely to be at ~0MPH, thus requiring to accelerate your car from 0 to whatever your cruising speed is (hence more energy and fule needed.)
If you ease off the accellerator when you first see the red light, you are a) not burning as much gas on your approach to the light, b) less likely to come to a full stop, and thus will have a smaller overall change in speed, less power required to return to cruising speed, less gas used. On the flip side, with this technique your chance of slowing down at a light is near 100% whereas in zero traffic, the abrupt stop method does give you a chance of zero change in speed, but you can only rely on that if you know the light timing and there's no traffic ahead to make you slow down anyway.
Incidentally, when I slow down earlier, and roll up to the red light at 20mph, still at speed when it turns, vs hitting it at 45 a few seconds sooner and needing to stop all the way, I find by a block past the light I've passed virtually everyone who was stopped at it, and so in addition to being energy efficient I've increased my average speed too.
Make sense?
Re: last line of parent: There is no benefit, as described above, to "getting to a stop light quicker" if it is red; hence the driver behind you has no real reason to be annoyed. But yeah, I'm sure he will be. Ignorance here is less than bliss.
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Re:MPG science (Score:4, Informative)
F=1/2 * A * Cd * r * V^2
where
F - is the force pulling your car or your palm back
A - cross sectional area of your palm or car
Cd - is the drag coefficient dependent on shape of your car or palm - i.e. do you look like a parachute or a bullet to the incoming wind, because even if you have the same square footage area facing the wind, its shape matters
r - air density, dependent on temperature, humidity, barometric pressure/altitude
V^2 - your velocity squared
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higher speed = lower accident rate (Score:5, Insightful)
There were several reasons for this. N.B., all of these were predicted by the proponents for the change, but dismissed by the safety "experts."
First, anyone with a clue knows that the biggest threat on the highway is traffic traveling at different speeds, not the absolute speed. People tend to stay in their own lanes - and can even comfortably stay in the right hand lane - if everyone is travelling at about the same speed. But if there's a 20 mph range (which was common in the interurban areas of the square states) there will be a lot of lane changes even when traffic is relatively light. At those speeds just tapping a car may be enough to cause the driver to lose control.
Second, a realistic speed limit actually lowered the speed of the fastest drivers. A driver going 20 mph over the posted speed limit doesn't have much motivation to avoid going 30 mph over the posted speed limit. But the same driver at the same original speed, if it's the speed limit, will often stay at that speed.
Finally, these roads were designed for traffic going at ~70 mph. At those speeds the road has just enough variability to keep the driver's attention. At the slower speeds the roads are mindnumbingly boring and the driver's attention tends to wander. You wouldn't think it would make that much of a difference, but I've driven between Denver and Seattle at both 55 and 75 and there is absolutely no comparison. (I-80 thru Wyoming and the Columbia River Gorge still suck because they were long, straight flat segments.)
That's why the death rate went down when the speed limits were raised. The annual death rate is climbing again, but that reflects more passenger-miles.
P.S., the Colorado Dept of Transportation will actually adjust the speed limit to match the drivers, not the other way around. They feel, reasonably, that thousands of drivers will make an informed decision about the best speed for a segment of road. Sometimes their hands are tied because of regulations, but I've seen them change the speed limit on other segments.
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Re:higher speed = lower accident rate (Score:5, Insightful)
Not that I disagree at all, but there is a common assumption or mis-conception that you seem to be repeating here, unless you have a separate source. A lower accident rate does not mean a lower death rate or vice versa. It might be true in this case, I'm not sure.
The argument about relative speeds being the problem probably has a lot of truth in it; I've read research in this area and it certainly seems to be a factor. However, reducing the disparity by raising the speed of the slower drivers means that there is much more kinetic energy on the roads, especially with kinetic energy increasing with the square of velocity. (20% faster speed means 44% more kinetic energy.) This is further exacerbated by a trend towards larger vehicles, such as SUVs, since kinetic energy is also proportional to mass. In an accident this energy must be dissipated and the amount of damage will generally be related to this energy.
So, while accidents may happen less often, the average and total damage caused in an accident may increase, including death rates. Accident rate is only part of the equation. Again, the death rate may have indeed dropped, but it isn't a given just because the accident rate dropped.
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Re:higher speed = lower accident rate (Score:5, Interesting)
Due to structural crush zones in cars, additional airbags, antilock braking systems, door beams, and other safety features in even cheap cars, accidents are much more survivable than they were even 20 years ago. However, with the trend in this country towards gigantic SUVs for every soccer mom, it may be equally counterbalanced.
The US DOT would have you believe that slower is safer, which it may be in densely populated urban areas. However, in mind-numbing interstate travel (I just made a 742 mile trip last Tuesday and again on last Saturday), you want to go as fast as your car feels safe traveling. This does increase your attention and focus, because you are forced to react to changing terrain more frequently and you realize the margin of error shrinks at higher speeds. I.e. you achieve a slightly higher 'pucker factor'.
There is a limit as to how fast you can safely travel which is mainly governed by how quickly you can stop. Sport Compact Car magazine recently reviewed a race-ready Mitsubishi Evolution 8 with upgraded everything including a beefed up braking system. The stopping distance from 60-0 was an unheard of 98 feet. From 70-0 it increased slightly to 135 feet. Now, from 80-0 we see a shocking increase to 179 feet. 20 mph, 33% faster and you effectively double your braking distance! Keep in mind this is on an exceptional car, real world, average cars come nowhere close to these numbers. Stopping from 60mph in 98 feet would sling the snot out of most people's noses.
Perhaps you're right about 20% faster speed nearly doubling kinetic energy, as that's what the braking system is being forced to deal with and would definitely cause those numbers to nearly double.
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Re:Stopping distance is another big lie. (Score:5, Informative)
Why is that? People in the US are not taught how to control a car, they are only taught how to interact with other cars on the road. Watch someone who is a professional or amateur race driver (who understands vehicle dynamics at the limit) in those situations -- they react totally differently. Threshold brake, keep the ABS from engaging, and stay in a straight line. If you can't scrub the speed to the point where the impact will be a non-event (5mph), you were following WAY WAY too closely. Better to hit the car softly than risk oversteering into it, or worse understeering off the road or into another traffic lane. Once a car starts to lose traction, it takes a very skilled driver to make it go where they want it to.
If you don't know the reasons going 100mph is unsafe for most drivers no matter what the road conditions, you're not in the "knowledgable driver" camp. 100mph is dangerous in any situation in 99% of the cars on the road. Its not how the car and driver can handle expected situations, its how that car and driver can handle an unexpected one. In virtually every case, at 100mph they can't.
Two speed limits isn't the answer. Requiring something more than ten hours of on the road driving and 30 hours of classroom time is the answer. Require limited traction training the way many european countries do. Or maybe just even mention the concept of a traction cirle to young drivers and explain why their lives may depend on them understanding it. A properly trained driver can be in just as much control of a car with four wheel sliding as a badly trained driver on dry pavement.
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Re:MPG science (Score:5, Funny)
Nice.
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Re:MPG science (Score:5, Funny)
Screw hybrids- just think how much gas we could save if we made all the roads downhill!
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Re:MPG science (Score:5, Funny)
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Re:MPG science (Score:5, Informative)
Wind resistance, starting to move resistance, going up hills resistance, and the difference the weight has on thse resistance play a crucial role in gas miliage. I have a van and with it fully loaded with camping and hunting gear i average around 1 or 2 miles per gallong less. A slight breeze will drop my miliage another 1 or so miles per gallon on the same 200 mile trip. If it is realy windy, i can expect a little more drop. Newer stream lined cars wouldn't see as dramitc effect as i do on the wind but might see more of an effect on the weight because thier engines typicaly are smaller. Going up some hills, I tend to pull away from other trafic even when pulling a boat or 4 wheelers. I can also get better miliage in town when my tanks are half full (less then 20 gallons compared to 45 gallons total full) with the same cargo. My overdrive in town causes me to use more gass too. I think it is because the high gearing requires more fuel to maintain the same power ratio to the ground.
On the same note, While in fith gear, if you are having to depress the excelorator more to maintain your speed then you would in fourth gear, you might actualy use more gass then if you increased the RPMS and ran at a lower gearing.
When i drove a class 8 tractor trailor the manufacturers of the engines (detroit deisel) gave us training on fuel econemy. Some basic bullet points were that the engines have a peak power to torque ratio were when the rpm making the most power croses the rpms making the most torque resulted in the best fuel econemy. The transmisions and rearends were geared with this in mind alng with the rated top speed. Granted with a deisel engine the RPMs were alot lower and basicaly limited to around 2200 - 2300. We usualy shifted and attempted to keep them around 1700-1800 rpms.
Without idle time (as you mentioned earlier) I could average about 8-9 miles per gallon running at gross (79-80,000 lb). This was up from 4.5 to 5 miles per gallon before we had our little talk. That was acording to the little engine computer read out on the dash. Durring real windy times i actualy get better miliage at slower speed but could run 70 - 80 mph most the time were the speed limit allwed. On a calm day the lower speed would be less then 1 half a mile per gallon because of the gearing. If you could place your car on a dino and check the torque and power rats, you might find an ideal range to drive long trips and realize a big fuel savings.
Another point was the electronic cruise control. Running with the cruise control allowed engines computer to caculate the exact amount of fuel needed to maintain speed were driving by foot would cause speed to fluctuate enough that the driver would over compensate the throttle and apply too much power to maintain speed. My buick's cruise control saves fuel on long trips much the same but my van's cruise is too old to have much difference (rebuilt and pumped '84 chevy 350). My semi truck would see around
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Re:MPG science (Score:5, Informative)
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But... (Score:4, Interesting)
Re:But... (Score:4, Informative)
Call all the Toyota dealers near you, even 200-300 miles away, I can almost guarantee that you'll find one in stock, at MSRP. (I only had to wait 2 days for mine. And it wasn't even 'ordering', it was calling all the dealers on Saturday, getting on their 'lists', and getting a call back on Monday saying they had 2 in stock that met my requirements (Blue, Tan, or Green, 2004 Packages 7 or 9, which are now called 5 and 6.) I drove a Blue package 7 Prius off the lot a mere 2 days after starting my search. (I could have had a top-of-the-line package 9, but it was in 'Tideland Pearl', which I mistakenly thought was green, it's more of an olive drab. So I picked the lesser-package 7 in blue, because I actually liked that color, and the extra features weren't important enough for me to want to wait.)
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Re:But... (Score:4, Funny)
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Re:But... (Score:5, Informative)
And I drove my Civic Hybrid from the dealer with the dealer getting a fair 5% profit.
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Accord hybrid (Score:5, Informative)
seems sort of a waste (Score:5, Informative)
Seems what the market needs is a diesel/electric hybrid to get numbers that will impress any diesel owners.
Otherwise most TDI Volkswagens have been able to outshine these numbers for years. Plus you can't run a Prius on used cooking oil [greasecar.com].
Re:seems sort of a waste (Score:5, Informative)
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Re:seems sort of a waste (Score:4, Informative)
The one thing diesels tend to do poorly on is emissions, and California's emissions requirements are one reason automobile manufacturers are investing in hybrids. But even in the non-diesel arena, raw mileage isn't everything when it comes to this sort of thing: the Honda Insight gets much better mileage than the much heavier pre-2003 Toyota Prius, but the Prius has lower carbon emissions because the (very heavy) planetary gearing transmission lets it balance the load on the gasoline engine so that whenever it runs, it does so in the sweet spot to minimize pollutants.
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Re:seems sort of a waste (Score:5, Interesting)
For those who don't know in this case the diesel engine is basically just an electric generator that powers the electric motor. Because as a generator it can run at a constant speed it's even more efficient than a traditional diesel. It works for trains, I'd guess it would work for cars/trucks/SUV as well. GM/Allison has built buses this way that see a 60% MPG increase vs conventional diesel buses. If a Chevy heavy duty pickup sees a similar increase that would put it near 40 mpg on the highway. Pretty good for a 1 ton truck.
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Re:seems sort of a waste (Score:5, Informative)
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California DOES allow privately owned diesels (Score:4, Informative)
Cali DMV:
" Currently, smog inspections are required for all vehicles except diesel powered vehicles, electric, natural gas powered vehicles over 14,000 lbs, hybrids, motorcycles, trailers, or vehicles 1975 and older. "
I bought my vehicle out of state and took it in to Cali, so I don't know about any of the new purchase requirements... but it's been registered in CA for a few years with no problems.
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In defense of EPA estimates (Score:5, Interesting)
What they do provide is a car-to-car comparison that is consistent regardless of driving style, load, weather or other conditions. When you compare EPA mileage statistics, you're comparing apples to apples.
Hybrids throw a monkeywrench into the mix, so we'll probably see an adjustment to the EPA methodology at some point.
My 1978 Mini gets over 55 mpg (Score:5, Insightful)
Granted the Mini does not weigh anything and lacks AC- still. The 1 liter engine kicking out 55HP (in my slightly modified engine) is more than adequate to move such a light vehicle. Add to that a suprisingly roomy interior (it will seat 4 people comfortably despite being only 10 feet long) and a car that will corner like a go kart and you have to ask yourself what the auto industry is thinking. Not to mention being able to park _anywhere_
We have materials today that Alec Issigonis (the guy who created the Mini back in the 50's) could only dream of- lighter, stronger and easier to shape- and yet cars today are far heavier. We get worse gas mileage- sure the cars are more powerful but then again they have to be. I realize some of this weight is the result of safety improvements and the like but it just feels like there has to be a middle ground.
-sirket
Re:My 1978 Mini gets over 55 mpg (Score:5, Insightful)
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Re:My 1978 Mini gets over 55 mpg (Score:5, Insightful)
Some random reasons. I'm defending any one of them, but just adding fuel to the fire.
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GreenHybrid Server (Score:5, Informative)
Jason Siegel
GreenHybrid.com
Hybrids not the answer (Score:4, Insightful)
A hybrid does reduce the total energy consumption of a car over its lifetime compared to a conventional car, but not by all that much. It still takes all the same materials and manufacturing processes to build, and poses the same disposal problem once it wears out.
The answer is a combination of fewer, longer-lasting, more-efficient cars, and less driving.
Prius isn't just about fuel economy (Score:5, Informative)
Well, at the risk of sounding like a Toyota ad, the Prius is built using 90% recyclable materials. For the soundproofing, they literally use shredded material from old cars. They use a tenth of the lead and a tenth of the PVC they were using in their cars in 1996. They even use plant-derived bioplastic for the floor mats.
http://www.toyota.co.jp/en/news/03/0901a.html [toyota.co.jp]
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Double Bullshit (Score:5, Informative)
The energy required to produce aluminum is about 15 KWh/Kg [cwru.edu].
Assuming the average car weighs 2 tons, that's 1814 Kg of aluminum.
1814 Kg * 15 KWh/Kg comes out to 27,210 KWh. At 5 cents per KWh (industrial prices), that's $1500 worth of energy to smelt our aluminum. As far as materials costs go, that sounds about right.
Fine, now a gallon of gasoline contains 125,000 Btu [vigyanprasar.com] of energy. That's about 37 KWh.
If your car's getting 40 mpg, and if you're driving it 10,000 miles per year, you're using 250 gallons of gasoline a year. 250 * 37 KWh is 9,250 KWh per year.
Drive your car for three years and you've used more energy than it took to build. If we wanted to compare the "theoretical maximum" amount of energy that can be extracted (at 50% efficiency) from gasoline, you're only looking at a year and a half. Any car built in the last ten years should last five to ten times that long.
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VW Jetta wagon TDI (Score:4, Informative)
One of the most useful things about the Prius... (Score:5, Insightful)
I drove a 04 Prius for a few months and found that the display which tells you the fuel economy you're getting is very helpful. After about a day you realize that speeding up hills eats at your economy and braking appropriately helps too.
If all cars had this feature, fuel economy would be increased. Regardless of the fact the Prius has a hybrid engine, low rolling resistance tires, etc, this simple display is a big psychological factor.
Most people never realize their driving habits affect fuel economy because it only hits them every two weeks at the pump. By that time they never link it to how they brake or accelerate. By closing the feedback loop, you start to change your driving habits.
Only expensive cars seem to have this feature, yet it's ridiculously simple to implement off a modern ECU. I wish they'd make it standard equipment and not a luxury feature.
Hybrids long-term costs unknown (Score:4, Insightful)
1. Premium cost over traditional fuel combustion engine (ranging from $3,000 - $5,000 over the same non-hybrid car).
2. Long-term reliability and replacement costs of hybrid system (especially the batteries). 5 or 10 years from now, are these cars going to be proven as reliable as their traditional combustion-engine brethern? Or are they going to be visiting the shop more often to fix issues in their hybrid systems, replace their batteries (which do have a pre-determined lifetime), or whatever??
The answers will come in time, but not from the data of 150 measly vehicles.
PS - The dork who compared a 40-year old car to a modern vehicle just doesn't get it. Modern vehicles meet modern safety standards, including such luxuries as airbags, enhanced structures that help prevent serious bodily injuries, and a little more leg room. Yes, if I built a go-cart, I could probably also get 50-60 MPG. But I wouldn't be stupid enough to drive it on I-95.
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D'oh
Reliability (Score:4, Interesting)
Toyota gives the batteries a 10 year warranty. The gas engine is the same as the engine in a Corolla, just adjusted to run on a different combustion cycle. There's no gearbox, so that leaves the transaxle and computer to worry about... Personally, I'll take that bet.
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Not impressed. (Score:4, Insightful)
I don't want luxury (Score:4, Interesting)
Cheap, basic transportation. I'll buy my own seat covers, floor mats, stereo, etc.
I hate the inflated prices car makers charge, getting people to buy on credit what they can't really afford to own. I guess I'm the only one, though.
Re:I don't want luxury (Score:4, Funny)
Pity you didn't get a Ford, you could have been shopping for a shiny new car by Christmas.
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Hybrids not the answer (Score:5, Insightful)
Although I am the proud owner of a new Toyota Prius, I can unoquivically say that hybrid cars are not the answer; they are a stop-gap measure that may extend the period of time that oil is a primary fuel on the planet Earth. However, they are too little too late; I have the income to allow me to "do the right thing" but really, I should either move closer to where I work or take public transportation to really do the right thing. I'm not going to do that, and my neighbors are going to bitch about how much it costs to drive their SUVs but they don't look like they're selling them anytime soon.
So who cares what the mileage figures are? The hybrids are far better than the other cars on the road, but they won't amount to any appreciable percentage of the cars on the road until gasoline is priced high enough to force it, or the government mandates it. Neither is going to happen, so unless there's some miraculous breakthrough that provides a cheap source of hydrogen pretty damned soon, it's all moot.
Yeah, I'm kinda pessimistic about energy usage in the U.S. We're kinda like the guy who jumped off the really tall building saying, "Nothing will happen!" who could be heard saying as he fell past each floor "So far, so good!"
Still, I bought a Prius to support the company that made the R&D investment to give us a stop-gap solution, even if we're not moving to a viable alternate energy source with the urgency we should. Meaning, I don't know if my partial gesture will matter, but it's better than driving the car it replaced at half the mileage.
- Leo
Re:Hybrids not the answer (Score:5, Interesting)
Toyota is doing what GM and Ford couldn't do. It's letting it's customers help fund it's R&D related to the transition from gas to electric.
Future cars are going to be all electric. That's all there is too it. Why? Simplicity. It takes a great deal of effort to design a mechanical structure that can transmit anywhere from 200-600 bhp from the front of the car to the back. You lose efficiency on the drive shaft, at the transmission, etc.
The end game of cars is going to be where the motors are built into the wheels. The power plant is interchangeable (and inconsequential). When you brake, all four wheels will capture the energy into some sort of temporary energy storage device.
Toyota knows this. The Prius is subsidized R&D. Personally, I think it's a fabulous idea.
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Actually, it's not so simple (Score:5, Interesting)
Which doesn't just limit your range in an all-electric car, but also makes the whole car heavier. It means you actually need more energy to move at the same speed and over the same distance.
Hybrids acknowledge that reality. The electricity in a hybrid ultimately comes from gasoline too, and is only used so often.
I.e., expect to see hybrids instead of all-electric cars for a long time.
2. The whole "waah, but oil is going to end" premise is bogus anyway.
Yes, fossil reserves will eventually end. But here's the fun part: we already know how to produce synthetic oil. We've known it for a long time. And not just theoretically: Germany's WW2 tank warfare was _based_ on synthetised fuel. It wasn't cheap, but it did keep the panzers rolling nevertheless.
That's really the only thing that keeps us using fossil fuels right now: it's cheaper than making synthetic fuel. If fossil reserves start running low, whoppee, we'll just start making synthetic fuel. And all those gasoline or diesel cars will keep running just the same.
In fact, doing that is probably a more economical and viable way to store energy than a ton of batteries in a car.
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Re:need independent testing (Score:5, Interesting)
We are getting 50mpg instead of 20mpg, and we no longer have to buy premium gas...we are saving $1200 a year, not counting the lower loan payments for the car we traded in.
I would go on, but I am starting to feel way, way too good about myself
P.S. - I paid under MSRP for my Prius and got it in a week.
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Environmentally friendly (Score:4, Insightful)
Because "environmentally friendly" is not the same as "economical".
The Prius sacrifices some efficiency in order to get lower emissions. Specifically, emissions less than a tenth of what's allowed by California's standards.
It's also 90% recyclable, recycled materials are used in its construction.
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Re:Hybrid Cars and Electricity - Pollution? (Score:4, Insightful)
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Re:Less Cars (Score:5, Insightful)
I have 700 grams of stainless steel in my left leg that says that the potential price of a motorcycle is much higher than any amount of fuel efficiency.
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