Electric Cars and Their Discontents

The most hotly contested issue raised by yesterday's post about the lithium-ion battery-powered Tesla roadster is only tangentially related to the car itself; instead, it's the energy generation and storage required for electric cars more generally to operate. Read on for the Backslash summary of the conversation, including several of the comments that defined the conversation.

A typical comment about the global impact of switching from gasoline to electric cars on a wide scale comes from reader dbIII, who comments:

"Until something replaces Coal power plants as the main method of generating electricity, you're just replacing one evil for the other."

"With better battery storage it doesn't matter much where the electricity comes from and when - the car could be charging up with solar power in the carpark in the day or with wind when it is blowing, or off-peak when the base load stations are running as low as they can but no-one wants to use the electricity."

"Battery power isn't about saving energy anyway, it's often about shifting the pollution to a big facility that can handle it instead of having heavy pollution control equipment to move about. The first hybrid car I saw, back in 1987, embodied this principle and was designed to work at an underground mine. Above ground it ran on fuel, but below ground you wanted to minimize the air pollution as much as possible so it ran on batteries."

The continued existence of the earth as a habitable planet aside, what about the car itself, and in particular its power source?

Jah-Wren Ryel has a quibble with the terminology used the linked article, writing

"This car is not a true Tesla Car. If it were, it would have no batteries at all. Instead it would gets it energy from some kind of wireless source like microwave power transmission or even the Earth's magnetic field."

Many readers worried about exploding batteries; glowworm was "left wondering if this car is involved in an accident if the batteries will vent like the recent Slashdot articles suggest. Exploding Dells, fires on planes, and soon at an intersection near you... cars venting more flame than the Batmobile."

Reader nSinistrad_D provides reason to think such explosions are unlikely:

"Looks like the company that is manufacturing the batteries has replaced graphite with a 'Lithium Titanium Oxide' that they've tested and claim doesn't have the smoking, venting, or explosive problems of normal lithium ion batteries. Here is a link to a rather informative article about the battery technology that will be used in the Tesla. ... I mean, based on the stuff I've read about the founders of the company and a lot of the people who have invested in it (i.e. Elon Musk, Larry Page, Sergey Brin, etc.) I feel I'll wait and see before passing any judgement."

Reader artifex2004 is skeptical: "Here in Texas, where I suspect temperatures exceed battery design, I think this idea will bomb spectacularly. Seriously, though, Li-ion? I shudder to think of how those will get disposed of, eventually."

And Reader Moofie has a tongue-in-cheek solution if the batteries ever go critical: "Maybe you could design a clever little nozzle to get a boost from your on-fire battery packs. That'd be AWESOME."

It's not just safety, of course, that matters to drivers, but practicality for other reasons:

Reader iamlucky13 writes: "15 minutes on the charger might get you another 15-20 miles. And 220 volts at 70 amps is a pretty hefty 15 kilowatts, so to have a dozen cars sitting at the local McDonalds charging is going to be draining about 180 kW from their coinpurse. That is a serious amount of juice. Also, I'm skeptical that you'll be getting 250 miles at 70 mph. If I remember right, electric motor efficiency and power typically increase with load, but fall off with speed, which makes them awesome for say, a 0-60 run in 3 seconds, but marginal at best for high speed cruising. That 250 mile range estimate is probably at significantly lower speeds."

"Big rigs generally run around 5 mpg, but it varies quite a bit around that number depending on the truck, the load, and the speed. Few truckers drive at the most efficient speed because it increases the labor costs significantly."

"If you're suggesting running commercial trucks on electricity, forget it for the foreseeable future. It's definitely been considered. Not only is there the conflicting speed issues I mentioned above, but you run up against the energy density limitations of batteries fast. Assuming the numbers from the article are correct (I doubt it...something isn't quite adding up according to my gut) and unrealistically taking the charge/discharge at 100% efficiency, it's storing up 194 MJ. Gasoline holds about 120 MJ/gallon, so the 1000 pounds of batteries (according to the Tesla website) are equivalent to about 1.5 gallons of gas (6.3 pounds/gal). Divide that an efficiency of around 30% and you've got a 32:1 energy density ratio in favor of gasoline. For a truck to haul the equivalent of 150 gallons of fuel (actually diesel, not gas, but close enough), it would need about 30,000 pounds of batteries. But then you have to go farther and take into account that 2/3's of its cargo capacity has been replaced fuel, so you need to make 3 times the number of trips. And you've got a lot of trucks either sitting idle recharging or having their 30,000 pounds of batteries swapped out every few hundred miles."

"Obviously these are really rough numbers, but other engineers have already looked at the idea in more detail and rejected it."

"I'm not trash-talking the Tesla. It looks like a lot of fun, but like all sports cars, it's a toy and not a good comparison for commercial trucking. Most of a car's weight is itself, be it gas or electric. Most of a truck's weight is it's cargo."

"For the record, I think electric can work extremely well for short range commuting (5-10 miles on city streets), but if you travel far, you'll realistically be looking at gas."

As to the exact number of batteries in the car, reader wbean provides a good reason why it should be exactly 6831: "The motor is going to need a lot higher voltage than a laptop. This means that the batteries have to be organized in series/parallel banks. 6831 is a plausible number since it is 23 x 11 x 3 x 3 x 3. This gives you a lot of flexibility in arranging the banks. You could have 99 banks of 69 batteries in series, presumably giving you something like 345 volts. That sounds about right for a DC motor."

Of course, battery technology is the real crux of the issue; balancing safety, weight, volume and energy density is a tough problem, and as reader loose electron puts it,

"Whoever comes up with a significant advance in battery technology will . Li-Ion batteries have excellent amp-hour ratings for their size, but like all other batteries are still pretty limited."

"Acceleration/Torque for electric cars is not a problem. High performance capabilities are there if you want them. However, you are playing battery energy against performance against distance, and all electrics, or fuel-electric hybrids have been designed to be 'green' in their approach. (Any Hummer owners want an environmentally aware vehicle?)"

"Right now the weakest link in many electronic systems is the energy source. A good solution there and you can be a very wealthy person."

hotspotbloc suggests " a different type of hybrid," one with:

• "enough batteries for ~50 miles.
• a small (100cc) biodiesel engine running at a fixed and preset RPM connected to a small generator. The engine would be set to run at the peak of its power curve.
• a small ~10L fuel tank
• and
• an AC charging circuit"

"This would allow the driver to run on electric most of the day and charge on the road when needed. One could also use a gasoline engine instead of biodiesel and still see big fuel operating savings since some wall recharging would take place. It would also greatly decrease the number of batteries needed."

"This is a really old idea. I saw something like this (on a much larger scale) on an USCG cutter (WLB-389) that was built in 1943. Two diesels -> two generators -> one electric motor. Worked great and it could double as a light ship."

Finally, several readers' comments focused on the merits of the particular electric car, rather than only as the embodiment of its constituent technologies.

fermion was one of a handful who talked about the car as a sportscar per se, writing:

"I would wager that this vehicle is more like a Lotus Elise, or a Corvette, or even a S2000, all of which can be had for under 50K. Any performance benefits over those sports cars can be attributed to the natural advantage of this car, namely that you can go from 0-60 without switching gears, and it is easier to get it perfectly balanced without an engine. Anyway, The true test of a sports cars, as opposed to just a fast car, is the handling, which was not mentioned in review. Without proper handling, it becomes a Mustang at 30K."

"Which is to say we are still in the same world, in which low volumes and other issues cause electric cars to be 50%-100$ higher than traditional cars. All that seems to have happened here is that an electric car has been targeted to the high end market and priced accordingly. It is kind of like taking the hummer, putting a cheap truck base on it, calling it an H2, and pretending that it still has the dubious value of the original."

"Oh well, I suppose if they can build a sedan for 35K I would be impressed. We would also have to look at maintenance cost of the vehicle, which would be dominated the battery replacement. A sports car car easily run 20 cents/mile in maintenance. Knowing that laptop batteries can only handle a couple hundred charge cycles, one can image where the long term maintenance cost could approach three or four time that amount."

"I wish we had electric cars. I think the technology is there, and the pricing could be reasonable. But even companies that could be using the electric car to revive themselves, for instance Mazda and Ford, still seem to be married to the antiquated internal combustion engine."

ChronosWS largely agreed with this, writing that "cars like the Porsche Carerra and the Bugatti Veyron (mentioned in a related article) are consummate sports cars -- they exemplify not only speed but styling, handling and quality expected of a car with their price tag. Cars such as the Corvette, especially the most recent incarnation, do so relatively inexpensively. But regardless, 0-60 acceleration is not the most important statistic, and often isn't an important statistic at all except to people who don't know better (I refer the undereducated to the more useful 0-100-0 or 0-150-0 tests, as well as relevant agility tests such as emergency lane change, slalom and skid pad.) Electric cars will be desirable when they meet the following conditions met [by] existing cars:"

• "price (under 30k)
• features (styling, interior, gizmos)
• convenience (fueling in under 5 minutes)"

"This car does not appear to meet any of those."

Thanks to all the readers who took part in the conversation, in particular those quoted above.

Backslashes and their discontents

[Angostura]

The most hotly contested issue raised by yesterday's Backslash was the gratuitous number of Backslashes that have now appeared. In today's Backslash we look at the most insightful comments regarding this issue, and ask; will we find an answer, which we can summarise in tomorrow's Backslash?

Re:Backslashes and their discontents

[drinkypoo]

How many more Backslashes are we going to have to post this for?

Long answer: you must be new here ;)

Short answer: all of them.

Re:Backslashes and their discontents

[BTWR]

I love backslash - it's become my second-favorite section (after games.slashdot.org). If those whiners don't like it, simply de-activate it from appearing on the homepage in your prefs page. I do that with Apple, Linux and a bunch of other topics. I have no problem with there being Apple/Linux/KDE topics for the thousands of readers who like them, but since I have no interest in them, I just shut them off.

Simple. Problem solved.

Re:Backslashes and their discontents

[ferat]

I just wish they were labeled. "Backslash: Electric cars..."

That way I could avoid em in the rss feed.

wow.. talk about naive

[ScottLindner]

"Battery power isn't about saving energy anyway, it's often about shifting the pollution to a big facility that can handle it instead of having heavy pollution control equipment to move about. The first hybrid car I saw, back in 1987, embodied this principle and was designed to work at an underground mine. Above ground it ran on fuel, but below ground you wanted to minimize the air pollution as much as possible so it ran on batteries."

That's really naive. Batteries allow for greater efficiency and decoupling between the power plant and the car. How much innefficiency is there in having lots of tiny little combustion engines zooming all over the place with a bunch of ignorant car owners (I imply we all are ignorant to some degree with our cars) compared to a couple hundred regional power facilities that can use whatever fuel and power generation necessary? They can change to new power and fuel types without affecting the auto industry and consumers. They also can be heavily regulated and monitored to make sure those couple hundred catalytic converters actually work and they are performing proper maintainence to make sure efficiency is maximized and pollution is minimized. I mean.. how many car owners actually care if their cars are a couple of percent off from max efficiency? How many will change their driving style to match the size of engine they bought to squeak out another two miles?

How many of you have been behind a car that makes you gag and you can see the trail of soot in the air for a quarter mile behind it?

People that use such sophmoric arguments are... well.. sophmoric.

Re:wow.. talk about naive

[Fhqwhgadss]

How many of you have been behind a car that makes you gag and you can see the trail of soot in the air for a quarter mile behind it?

If any of these memories involve a blue Volvo and occurred in 1994, I am sorry.

Re:wow.. talk about naive

[nasch]

A gasoline engine is what, 25% efficient on a good day? An electric motor can be 90% efficient even without superconductors.

That 90% probably doesn't account for the losses starting with actual source of energy. That would probably be coal in the US. Include energy loss in the power plant, and transmission and charging losses, and it's no longer at 90%. I know power plants are more efficient than cars, but how much more? Are they at 50%, 80%? I'm sure a coal power plant/battery car is more efficient than a gas car, but I don't know how much more.

I'd like to see more of these

[drewzhrodague]

I'd like to see more posts on Slashdot -- discussions distilled down into their component topics, some useful information, and a rehashed go at it again. I hope to see more of these.

On the Tesla, I'd like to see more of those as well. Especially discussion on turbine/electric hybrids. Why are we still using rubegoldberg-styled piston-based engines, with so many moving parts? I would like to see something effective and efficient for my morning commute.

Re:I'd like to see more of these

[truthsearch]

No one licensed Mazda's rotary engine, which is better than your typical car engine in most respects. Less moving parts, less strain and more efficiency as the rotor kept some momentum. It was a great design but never caught on. Either they were asking for too much money from other manufacturers or other manufacturer weren't interested.

Re:I'd like to see more of these

[DuckDodgers]

I'm a big fan of the Wankel engine. But the RX8 weighs 3050 pounds, has 232 horsepower (it used to be listed at 238, but the Society of Automotive Engineers released a stricter standard of measurement last year), and is EPA rated for mileage 18/24.

Compare that to the 2006 Toyota Camry V6. 268 horsepower (under the same SAE standard), a several hundred pound weight disadvantage, and EPA mileage 22/31 on 87 octane fuel. The Chevy Corvette weighs 200 pounds more than the RX8 and has a huge 400 horsepower V8, and its EPA mileage rating is 18/26.

Now, Toyota can chew up Mazda and spit them out with the amount of money Toyota spends on research and development each year. So it's at least possible that future research will product Wankel rotary engines that offer superior power and efficiency versus piston competition. But right now, there's no efficiency advantage to the Wankel.

Re:I'd like to see more of these

[marvinglenn]

Especially discussion on turbine/electric hybrids. Why are we still using rubegoldberg-styled piston-based engines, with so many moving parts? I would like to see something effective and efficient for my morning commute.

The last time I researched this, in fuel efficiency (work out per work in), the piston engine beat the turbine. In weight effiency (power out per weight engine), the turbine beats the piston. Turbines have less moving parts and can generally be less complex, but the materials and tolerances for those parts are more complex.

If you distill all this down, what you come out with is that a piston is still the better choice for a car/truck, and the turbine is great for an airplane. The reason a turbine works in an airplane is because engine weight means much more to an airplane than a car/truck. It means so much more that it's actually worth losing the efficiency of a piston engine because you gain much of it back in not needing as much power because the engine is lighter.

I'm putting my money on biodiesel, and maybe a hybrid made with a diesel engine. On the ground, my engine will have pistons.

Re:I'd like to see more of these

[himurabattousai]

The RX-8 Wankel rotary engine has a volumetric displacement of 1.3 liters. Given the workings of that engine, its power output and fuel economy is similar to a V-6 engine three times its size (two rotors in two compression chambers--each chamber occupying three of the four phases of a piston engine). To compare it to the engine in a Corolla, which some people do, is rather absurd. Your Camry and Corvette engines are much better examples for comparison.

The V-6 engine in a Camry has a displacement of 3.3 liters, which amounts to .55 liters per cylinder. The RX-8 rotary has the rough equivalent of .65 liters per cylinder. The Corvette V-8 is 6.0 liters, which is .75 liters per cylinder.

Now, I am not an automotive engineer, but two of the factors that affect fuel economy lie in the engine, namely its overall displacement, and the displacement per combustion chamber. Large engines use more fuel than small ones, and engines with larger combustion chambers use more fule than engines with smaller combustion chambers, so long as the number of cylinders is the same. While the Corvette engine is huge, at highway speeds, it runs almost at idle. This leads to great efficiency for size at highway speeds. The Camry engine runs faster at highway speeds than the Corvette engine does, but its smaller size makes for less fuel use. The Wankel engine runs faster than either of these two engines, and its combustion chamber equivalent size is larger than the Camry engine, therefore, more fuel is used. Finally, the RX-8 transmission is built to maximize the car's acceleration ability while the Camry transmission is built to maximize the car's fuel efficiency.

While it is true that there is no efficiency advangtage to the Wankel engine, its simplicity and scalability and power for size (real, not equivalent) are tremendous advantages over traditional piston engines. Micro internal combustion engines are almost universally Wankel design for these reasons. So is the flexibility on fuel usage. If the fuel is cheap and infinitely renewable, efficiency matters almost not at all. On the other hand, there will always be people that want the most efficient engine possible, no matter how it's constructed, and that will drive piston, Wankel, and all other forms of propulsion to be better capable with less fuel used than they are today. Whether you drive for pleasure or for necessity, that is good news.

Why should the McDonald's pay?

Why should the McDonald's pay for charging up your electric car? There's no reason why someone who arrived at the McDonald's by foot be paying some cost of charging up someone else's car. The driver or owner of the electric car should be paying McDonald's (or whomever McDonald's subcontracts or franchises the electric car parking spot) for the electricity. I would expect that any parking spot that would support charging up an electric car to also have some way to charge the driver for money for the electricity, since the whole concept of an electric car is basically going to obsolete the notion of a gas station or e85 station or hydrogen station. Heck, this could even be marketed as a time saving scheme -- you no longer have to go to the gas station because your car will always be ready to go. Unless electric cars start using disposable or at lest removable batteries that can be changed quickly at a 'battery station' for long trips, there's no need to refuel for short-trips.

Powerful, Long-Running Electric Cars Can Be Made

[digitaldc]

Just like we wanted to put a man on the Moon and orbiters on Mars, if we want to accomplish a scientific feat badly enough, we will find a way to do it.

We already have the resources, technology and brains to make practical electric vehicles, we just have to have the willpower, patience and know-how to make them.

Does anyone really believe that a practical electric car or truck is an impossibility?

"backslash"

[zephc]

sounds like some weird Southern food
"Y'wan inny mower backslash, Jim Bob Billy Ray Bob?"
"Shore. Thanks, ma. Thar inny trackback left, teww?"

Best Backslash yet....

[Chanc_Gorkon]

This is a GREAT use of Backslash and the post even had a different look to it.....

Now on to my comments....

We all should want electric cars. The reasons are is they are not just cleaner to operate, they are also cheaper to maintain. There are less moving parts in a electric car and even the parts that are similar also get less use. The brakes don't need to be used near as much because of the regenerative braking the motor does. There's also no belts and no transmission.....no oil changes! I want a car like this. Electric cars CAN be more reliable then ICE cars. Th eoli companies just need to look at buying up some electric plants!

Re:Best Backslash yet....

[cayenne8]

"We all should want electric cars. The reasons are is they are not just cleaner to operate, they are also cheaper to maintain"

Well, if it is cleaner, I'm ok with it, but, that's never a concern of mine when I buy a car. It has to have good performance, look stylish and most of all, be FUN to drive!! And...it is fun to work on cars, even though it is a bit more difficult to work on todays car, say, vs the older 60's - 70's ones...a user can still get in there to tweak, change thing out...put performance parts on etc.

I'd be concerned that with the new electrics, unless you are an electrical engineer...the shade tree mechanic will be a thing of the past. Self maintenance on todays car can be a $$ saver...on the new ones...will we HAVE to have all work done at the manufacturer since it is too complex, or too dangerous?

efficiency

[SuperBanana]

Also, I'm skeptical that you'll be getting 250 miles at 70 mph. If I remember right, electric motor efficiency and power typically increase with load, but fall off with speed, which makes them awesome for say, a 0-60 run in 3 seconds, but marginal at best for high speed cruising.

Electric cars are much more efficient compared to internal combustion engines- much of the inefficiencies and losses pale in comparison to ICE's. Turbines are around 40-45% (BIG turbines), and ICE's are about 30%. I don't have a figure handy for the current state of the art in electric AC induction motors, but it's very high, comparatively. Modern chargers are better, and modern battery packs are more efficient as well (ie how much juice is lost to heat during charging.)

Battery pack technology is a big restraint; one poster in the old thread idiotically said "we don't need better technology, we need stations where you pull up and swap packs!"

Wrong. 1)Lead acid batteries are pretty much the cheapest W/$, but they are HUGE and they weigh so much the vehicle suspension has to usually be modified; they also don't last very long unless well taken care of. NiMH batteries are superior in many ways, except the current patent holder on NiMH packs won't allow companies like Panasonic to sell large NiMH packs for cars. Busses, great, sure. Mid-size sedan? Nope. Why? Probably they want to get nice plentiful royalties.

NiMH is about to be completely eclipsed by Lithium Ion-like technologies. NiMH batteries loose a substantial amount of energy during charging to heat. At least two companies have figured out how to make LiIon more stable (able to withstand charging abuse, physical abuse like getting punctured with a giant steel rod, etc) and charge faster. One of the companies has packs that can be recharged in a few minutes, provided you have a powerful enough charger. Density is better, and they're finding cheaper materials to make them with.

The other big advance has been with motor controller technology and brushless motors; before, people were using industrial-application DC motors which were brushed (which meant PITA maintenance- brushes have to be replaced, you have to have a blower to keep carbon dust from building up inside the motor, etc), inefficient, low-speed, and VERY heavy. Now you've got AC induction motors that produce a TON of power, and really nice inverter systems with regenerative braking and charging built-in.

The main problem with electric cars has always been, and always will be, that nobody is willing to SHARE, and everyone is hideously greedy. Half the industry thinks they'll be the next Henry Ford; the other half thinks someone will figure out how to make a mass-produced vehicle and license their technology for astronomical prices (NiMH patent holders, Tzero with their integrated drivetrain.) Instead, the industry has skipped to LiIon, and Honda/Toyota/GM/Ford have done their electric drivetrain (for hybrid vehicles) development in-house, or worked with industry giants like Siemens.

If you think the new crop of vehicles are different- look in the history books. Every 10-20 years someone gets a bunch of dough, and slaps together an electric vehicle for limited production. It has been going on since the 60's. Even big companies like Solectra have struggled. ZAP! has survived by diversifying, though they're pretty much gone now from the commuter car market now that Mercedes is re-assuming SMART importing in a year or two.

Things seem a little different now though- technology has leap-frogged some previous barriers. The two remaining challenges are market adoption/acceptance, and power generation. MA tried to get a wind farm planted in the middle of a shallow bay, and the fucking environmentalists screamed blue-bloody-murder about everything little thing...from a small diesel tank (1000 gal) for maintenance equipment which was portrayed as the next Exxon Valdeez, to birds hitting the things, to sounds supposedly transmitted into the ocean that woul

Re:efficiency

[booch]

MA tried to get a wind farm planted in the middle of a shallow bay, and the fucking environmentalists screamed blue-bloody-murder about everything little thing...from a small diesel tank (1000 gal) for maintenance equipment which was portrayed as the next Exxon Valdeez, to birds hitting the things, to sounds supposedly transmitted into the ocean that would 'confuse' whales. They even claimed the things would interfere with radio communications, making them a threat to national security...or some such bullshit.

And those are the very worst kinds of "environmentalists". Not only can they not see the forrest for the trees, but the small issues they whine about aren't even legitimate problems. I guess they'd rather see whales dying from heat exhaustion than getting "confused".

As some are starting to understand, to truly fix the environmental issues, we have to think "in the large". Like choosing nuclear power over fossil fuels. Nuclear technology has advanced quite a bit in the past 30 years. And with environmentalists pushing for even more safety, it would help solve our energy problems (pollution, foreign dependence, prices) tremendously, without causing significant impact to the environment. The push for only using "perfectly safe" technologies (solar, tidal, geothermal, perhaps wind and hydro) is just helping to maintain the status quo.

New "capacitor" batteries?

[Yvan256]

What about those new "capacitor" batteries?

Measuring "Sporty" cars

[DuckDodgers]

ChronosWS largely agreed with this, writing that "cars like the Porsche Carerra and the Bugatti Veyron (mentioned in a related article) are consummate sports cars -- they exemplify not only speed but styling, handling and quality expected of a car with their price tag. Cars such as the Corvette, especially the most recent incarnation, do so relatively inexpensively. But regardless, 0-60 acceleration is not the most important statistic, and often isn't an important statistic at all except to people who don't know better (I refer the undereducated to the more useful 0-100-0 or 0-150-0 tests, as well as relevant agility tests such as emergency lane change, slalom and skid pad.)

Even skidpad, 0-100-0, slalom, and other tests don't paint the whole picture. The best way to judge is driving experience. The 2006 Corvette is a spectacular performance machine. But I've met people who just find the BMW 330 or the base trim Porsche Boxter (both substantially slower) much more fun to drive. People spending $100,000+ for a Porsche 911 or a Ferrari actually are getting more than just a badge. (Maybe not $150,000 worth in sport, but a lot.)

0-100-0 (Accelerate from a standing start to 100 mph, then slam on the brakes to a full stop) tests will rule out things like a performance truck. The RAM SRT-10 can accelerate like a beast, but it is too heavy to stop in a short distance like a sports car. That's a good start. But a Mustang GT 500 will ace that test without offering a driving experience like a Porsche or Lotus.

Slalom tests are weight towards smaller, narrower cars. If one car is 65 inches wide and the other is 82 inches wide, the former will have an easier time weaving around cones. It has 34 inches less of lateral movement to handle as it goes forward. That's a big deal around cones, but it may not reflect their comparative handling on a road course.

At the end of the day, drive what you like.

Wankel

[Bob_Robertson]

Another problem is "rings". The rotor has flat barriers at the points of the triangle, and rings around the two faces of the rotor. These wear very quickly, and need to be replaced.

Imagine if you had to have a "ring job" every 50k miles. That's serious $$.

When Mazda introduced the rotary engine in America, the gas milage was better than what is listed here now, but it used an afterburner to reduce emissions rather than a catalytic converter. Just a data point. Even though they use catalytic converters now, and so don't have to run "a little rich" to fuel the afterburner, the milage still sucks?

My "government intervention" detector suggests all those standards and requirements that have been building up over the decades have created a situation where they are trying to do more, and that costs fuel. The MTBE contradiction: It reduces emissions, but burns less efficiently so more fuel is burned thus increasing emissions.

I would be interested to see a tiny rotary compared to a tiny turbine to be connected to the generator of a hybrid. I wonder how those two scale compared to pistons? Hmmm.....

Bob-

Coal power

[HangingChad]

Whoever was objecting to using coal power plants to charge electric cars is overlooking several issues. One, would you rather keep sending billions of dollars to Bin Landenland to power our cars, or to places like Wyoming and Kentucky that have more coal? And that assumes we couldn't offset some of the additional demand with solar, wind and ethanol fueled power plants. Lift the 100% tarrif on sugar from Brazil and free up some of that for ethanol production. Take over part of the Sonora Desert and start using to cultivate oil producing algae. There are a million things we could be doing that we're not.

Kind of reminds me of those rich people back east who opposed a wind power farm because it messed up their view. I was aghast at that. Here we are dependent on a thin line of oil tankers that terminates in a crapass part of the world where people hate us and a lot of the money we spend on oil is quietly funneled to people who want to kill us. Our highest national defense priority should be developing and implementing alternative energy sources and those fat asshats are worried about their freaking view! And some of you are worried about electricity from coal? J*** H Tapdancing C**** what's it going to take before people get a clue? Instead of making energy indepedence a priority our government is spending their billions on a dead-end war in Iraq, finding new ways to spy on Americans and making damn sure a handful of gay people can't get married. Un-f'ing-real.

Why do people expect corvette even?

[kinglink]

If I was to buy a battery car, it should work as well as a ford focus, or neon, or some other car I personally wouldn't want to drive. If such a car existed that would drive in a similar style to the Prius Hybrids that's is so "hip" now, and at the same time cost similar, meaning approximatly around 5K more or less including fuel expenses for 3-4 years (Aka if you have to replace your battery each year vs. a year of moderate gas use.) Then it's a viable car.

People expecting a "sports" car out of it is ridiculous. I currently drive a cavalier, I love my Cavalier, but I don't even expect that much power. The reason you drive a first gen battery power car is to save the planet or avoid expensive gas. Would I? Nah, I'm not into the enviroment (don't bitch at me, I'm honest at least), and I want a sportier car, maybe a Camero, but at the same time I'm hopeful that as the first gen battery cars get older, and the technology gets investigated more each year we might get camero's that rocket along the roads without gas, and then vettes that do it.

The point is people who expect cars like Vettes or Veyrons to be similar to the battery cars have to also take into account that the Vette can do something like 18 miles per gallon in the city. My Cavalier can do around upwards of 25-27 and highway I easily can get 30. If the first gen cars can beat vettes and S2000's great, but no one is going to pay 60K just for a car because it can do that, those of us who want the "sports" car won't adapt as easily as those of us who already are buying Prius Hybrids and such. Their aim should be at making the system work and give decent performance in that range with out costing an arm and a leg in price. Then when the concept is proven thinking about developing a higher end car.

It's the same as any new technology it'll take time for everyone to adapt, but those of us who are looking at a car as more of a power symbol arn't going to be as easy sells to jump on the electric bandwagon.

Simply put those of us who'd buy cars that have lower and lower miles per gallon, will not be as keen on saving the planet as other folks who might have families and sedans, and aiming on making cars that will make the sports car fans happy in the first round of cars will be too expensive and possibly break the technology's finacial back too early and fast.

As for Ford and Mazda, if you think they haven't done any R&D on this then you're misguided, but at the same time to develop an entirely new engine themselves will put them in an even more precarious position then they are now.

Re:Bad link

[lgw]

Sometimes it makes sense to have a seperate car for commuting, and a 200 mile range is fine for that. Sometimes people buy a sportscar just to have fun with, and a 200 mile range is fine for that.

We won't see an electric car that's practical as an *only* car until someone invents the magic battery, but there are still viable niches. Of course, America simply doesn't have the electrical distribution infrastructure to replace more than a few percent of the gas we burn in cars without a multi-decade infrastructure build out, so electric car use couldn't grow rapidly in any case.

Batteries may not be the best solution after all..

[Palal]

Why are we reinventing the wheel?

"If you're suggesting running commercial trucks on electricity, forget it for the foreseeable future. It's definitely been considered. Not only is there the conflicting speed issues I mentioned above, but you run up against the energy density limitations of batteries fast.
If you have a steady flow of trucks, make them powered by electricity from overhead wires. Sure it's expensive to maintain, but for corridors like the I-5, the 580 in the bay area or the 110 in LA it may be worth it. Why not take it a step further and electrify train networks here in the US like smart people in Europe have done a long time ago!

Oh and we already have electric buses. They're called trolleybuses - developed along with the streetcars but used in the US mostly during the era of streetcar abandonement. Europe still uses them with great success. In case you never saw one and live in the US just visit San Francisco, Seattle, Vancouver, Boston (actually Cambridge) or Edmonton.

The longest trolley bus line runs from between Simferopol, Ukraine and Yalta, Ukraine in Crimea - about 50 miles long (just that one line, not including local networks in both cities).

This goes to the point of another batteries not being reliable. I was seriously looking at the new Camry Hybrid, but was turned off of it for two reasons:
-It's less than the 45 MPG required here in CA for solo carpool lanes
-It's not a plug-in hybrid (although Toyota is working on one AFAIK)

I would LOVE to get a plug-in hybrid and be able to charge it from the 600-volt trolley bus network in San Francisco. Now THAT would be a cool mod!

In any case - we either need to invest in electric transportation (network of electric wires, rail electrification, trolley buses) and/or we need to invest in plug-in hybrids until a better technology comes along that can provide cheaper, more effective energy storage.

There I've used up my RANT points. :D

Electric for city, gas for highway

[RomulusNR]

"For the record, I think electric can work extremely well for short range commuting (5-10 miles on city streets), but if you travel far, you'll realistically be looking at gas."

I'm inclined to think that this isn't so terribly damnable. Most of the places where one can drive at "highway speeds" are places outside dense areas, where the highways are straighter, there is lots of vast land, and I'm betting that no matter how you slice it, any square section of suburban or rural land containing a highway or interstate has less car travel (and therefore emissions) per sq. mi. than any given urban area.

Meanwhile, smog is a problem in dense areas where cars hardly ever can go at highways speeds except in the middle of the night, due to urban traffic congestion. Thousands of cars idling and not moving are dropping stagnant pollution in the same place for a longer period of time, on a near-daily basis.

An electric mode for low speeds and city driving, and a gas mode for higher speeds and highway driving wouldn't be a bad idea. It wouldn't be perfect, but it would probably go far to reduce urban air pollution.

I have to admit, pure-electric cars sound like they wouldn't work well for anyone who uses their car for anything other than commuting and in-town driving, and for anyone who doesn't own their own home (which is not most urban drivers). Driving any distance over half your one-charge capacity would be fraught with danger, since in current EV cars you have to have a special 220V-fed charging station (which requires having your own garage). If you drive over 150 miles away, where exactly are you going to recharge? Better haul out the trusty old gas guzzler for that weekend trip. (To be fair, this is probably also true of ethanol, CNG and hydrogen vehicles, for the foreseeable future.)

Reality: Some of us don't use coal or oil

[WillAffleckUW]

I for one live in the Pacific Northwest, where more than 90 percent of our energy supply comes from renewable hydroelectric energy, and we also have massive wind farms too.

I used to live in British Columbia, Canada, where - again - we used hydroelectric power.

Some people live in the EU, where by 2012 more than 20 percent of all energy will come from renewable sources like wind power, biomass, solar, and so on. France, for one, gets most of its power from nuclear fission, which while having horrendous waste byproducts, is supposedly less polluting. Some places like Scotland and Norway use tidal power.

Most of these don't add carbon to the atmosphere and in fact help calm down the overabundance of energy stored in our oceans that is one of the side effects of global warming (technically global massive temperature oscillation, as it can get really cold really fast just as much as really hot really fast, both locally and globally, when you start messing with the global weather patterns).

So, just because when you drive an electric car it means you burnt coal, doesn't mean when I drive an electric car it burnt coal. In my case, it runs on snow turned into river water.

Re:Reality: Some of us don't use coal or oil

[WillAffleckUW]

I beg to disagree, based on research I conducted back in the late 70s and early 80s, and my personal experience in hydroelectric dam construction, irrigation, and operations, including power transmission.

Hydroelectric power generation is renewable, however, all forms of power generation involve side impacts, such as siltation (the buildup of silt behind dams, which must either be removed (used for topsoil replacement, especially in alpine soils) or further dams built (a method used in a number of countries to build flat farmland areas), salination impacts due to irrigation (which can be reduced by drip irrigation and time-sensistive irrigation (don't irrigate when it's hot and sunny)), etc.

Hydroelectric energy is generated by turbines which are moved by the water cycle - which is primarily powered by snow/ice that melts, flows into rivers, powers the turbines, goes to the ocean, and in all forms of usage is evaporated (unless split for fuel cell energy storage or chemical usage) to return to the cycle - a less reliable method involves the lack of snows, but this requires large cachement basins and is less efficient.

Every form of energy creation involves inefficiencies and transmission reductions. Batteries involve the use of specific metals and other destructive methods, which involve smelting (something I've done on a large scale at Tek Cominco) as well as alloys (ditto).

Now, there are fish impacts, but from an energy perspective, that is a side effect, not part of the actual energy creation process. Coal involves a number of destructive and humanly dangerous methods in its usage as well (which I can attest to, due to experience in mining and ownership of Peabody Coal IPO shares).

Next time, let's not pretend that up is down. Heck, the solar radiation that drives this entire process comes from a finite source, the sun, which will expand and absorb the Earth way before it runs out of energy, but our seas will boil over before that day.

Re:Bad link

[Phil+Karn]

The existing electric power infrastructure can support a very large number of EVs, as long as they're charged at night.

Look at the daily electrical load patterns for a large state like California (www.caiso.com). There's almost a 2:1 variation between daily peak and minimum. Today, for example, CAISO is predicting a 49 GW peak at 4pm. Today's minimum was 27 GW at 4 am. The difference is 22 GW, enough to simultaneously charge 1.3 million Tesla cars at 16.8 kW each.

(Caveat: the California ISO area excludes Los Angeles DWP and a few other municipal utilities, so these numbers actully understate total state consumption.)

That said, we do need to move electric generation off fossil fuels ASAP. Nuclear is the best short-term large scale option. Hopefully wind and solar will soon follow. Distributed generation, especially with rooftop solar, can greatly alleviate congestion on the electric grid by producing power close to where it is consumed.

Anything but coal -- yet even if you assume that EVs are charged only coal-fired plants, you're still in much better shape than you are burning gasoline in cars.

Modular electric car

[verin]

Dan's Data had a great idea that solved the range problem for electric cars. http://www.dansdata.com/modularcar.htm

Basicly, make an electric car with a 50-100 mile range, something the size of a civic or a prius, then have a hookup on the back where you can attach a small diesel generator on wheels. Just like the small trailers you see for moving, but this would generate the power needed to 'hybridize' the vehicle, but you don't need to have it hooked up the vast majority of running around town you do. Also, one generator could serve a whole group of vehicles, or maybe even make them rentable for trips.

Re:Bad link

[lgw]

The existing electric power infrastructure can support a very large number of EVs, as long as they're charged at night.

Nation wide, we use about twice as much power for transportation as is delivered through the electrical system. There's nowhere near enough slack in just hoping that people only charge their cars during off-peak hours. Could we sneak in a few electric cars? Sure, but we've already exceeded the engineering margins on the elecitrical power distribution infrastructure on the East and West Coast grids, and adding more load is really going the wrong direction, given our apparant willingness to accept blackouts (rolling or otherwise) instead of building more infrastructre.

Further, chemical batteries are useless for freight hauling, and ignoring 18-wheelers when considering problems with oil would be a big mistake these days.

Anything but coal -- yet even if you assume that EVs are charged only coal-fired plants, you're still in much better shape than you are burning gasoline in cars.

This is very wrong. From a CO2 perspective, coal-powered electric cars are about 5 times as bad as buring gas in cars. From a pollution perspective coal is also worse than any modern car, though it has the questionable advantage of dumping the pollution somewhere that doesn't bother the driver of the car.

No, no, NO!

[crhylove]

The obvious solution to the whole debate is to get a hold of the US flywheels we are currently using on the ISS. There's no reason we can't mass produce them and replace batteries with a more efficient electrical storage system. Other than of course a few patents, which is of course why I'm in the Pirate Party.

The needs of humanity and the planet are more important than any patent.

rhY

There is plenty of load at high speed...

[Shanep]

Also, I'm skeptical that you'll be getting 250 miles at 70 mph. If I remember right, electric motor efficiency and power typically increase with load, but fall off with speed, which makes them awesome for say, a 0-60 run in 3 seconds, but marginal at best for high speed cruising.

The major loads involved here are due to weight and drag. Weight mostly hurts acceleration and drag mostly hurts top speed. To double your top speed, you must quadruple your power. That should be a clear indication that there is plenty of load near the top speed of a vehicle.

The real solution..

[RobiOne]

For now, the Tesla sports car is a technology showcase, and an incremental bump in efficiency, or so they claim with their 250mile range and 3.5hr charge time.
Someone mentioned why build it? Because it's suicide to build anything else first for the company.. it needs brand recognition and a cash infusion for their "cool, new" prototype, and guess what, people here in the silicon valley will buy it, because it's better than the TZero and can actually take you places and beat the 150mile range of the Civic GX for example (which runs on CNG). Don't get me started on CNG (compressed natural gas).. it's been around for ages, Europeans have been modding their cars with systems like Bedini and have dual gasoline/CNG. I had one myself.. which doubles your range.. I had something like 600-700miles on both tanks.
Why isn't this bigger in the US? Ask your favorite car company and their politicians.

Now for the real solution.. the only way we will get to transportation heaven is to cascade a multitude of technologies and efficient energy conversions in such a way that the efficiency for the leftover byproducts keeps the entire system conversion cycle running many times over.
This is something along the lines of burning hydrogen which creates heat and water, where the heat is used, and the water is used again to make more hydrogen. Simple example with diminishing returns, but imagine a chain of conversion reactions 10-20 elements deep. Much better. Now put together high efficiency motors, channel all their heat output to a boiler for steam which spins a Tesla Turbine, and round and round we go.

What about Klein/HHO/Brown Gas? Aka Aquygen. This gas, made from plain water exhibits amazing properties. Originally used by welders for cutting the hardest metals in seconds, this gas is cheap to produce and can be made so fast, that a car could run with a generator making the gas on demand.
Combine that with electric and you have a car that runs on water. Perfect for Seattle with some built in rain collectors. Wanna fill up on a hot day? Get a carwash. Or find a deep enough puddle. Fuel stations could be as simple as large dips in a driveway filled with water you drive through. How's that for convenience.

Single fuel/cycle technologies won't survive as none are effienient enough. Technology integrators who figure out the right sequence of the cascading fuel/energy conversions will make interstellar travel possible. The rest just need to fill in the gaps and work on efficient matter and energy conversion.

Let's hope in our lifetime...

Please read the Tesla white paper

[jeffcsu]

May I recommend taking a few minutes to read the Telsa white paper? It neatly summarizes most of the relevant facts about energy production, efficiency of the motor, charger and battery system, CO2 emissions compared to a Prius, etc. http://www.teslamotors.com/learn_more/white_papers .php But I suppose that would take all the usual fun out of debating from ignorance. :-(

Re:Please read the Tesla white paper

[ArtStone]

So Tesla asserts that their car is the "best" option for CO2 emissions - 12.6 g/km...

But that is based on their assumption that the electricity was generated from Natural Gas.

But that's not the reality. Less than 20% of US electric power is generated from Natural Gas:
http://www.eia.doe.gov/cneaf/electricity/epm/table es1a.html

If they built in the assumption that the electricity was generated by nuclear power (or pixie dust)... they could claim that they caused no CO2 effect.

Has this White Paper been published in any journals and subjected to peer review?