the alternative personal transportation thread

Overhead Electric Lines for Trucks Are Coming to California


I have no idea whether the idea is commercially feasible, but it's still an awesome vision nonetheless. If it ever came to fruition I wonder if we'd see cars hacked with tall pantographs to tap into the free overhead electricity?

Seattle has buses/"electric trolleys" running off of pantographs and overhead wires, too. This is different, though: Commercial trucks, interstate highways, and hybrid operation so that they can leave the wires and come back to them on the fly.

I've been in the Seattle buses when they lose "grip" on the wire. They come to a halt, as I can attest. Some new buses that Seattle is considering to replace their old fleet will be able to run on battery power alone for a few blocks, though, which would solve some problems.

Polaris EV LSV: Consumer site, consumer dealer site, government procurement dealer site



- $12k if you're a civilian, or $7.4k if you're the General Services Administration (!), but that's before adding the optional glass windshield + wiper, steel roof, and steel cab rear panel
- 30 hp AC induction motor (peak? continuous output? not clear)
- 48 V of lead-acid, 11.7 kWh nominal capacity
- Selectable 4WD! and 10" of ground clearance
- Independent suspension all around, 8" up front, 9" in the rear
- 4 wheel disc brakes
- 795 kg
- Claimed range "up to 50 miles"

Oh, and as an Low Speed Vehicle it's street legal! (Note the windshield, mirror, turn signals, headlights, etc.) The catch is that LSVs are limited to 25 mph unless one lives in the states of Washington, Rhode Island, Texas, Kentucky, Minnesota, Oklahoma, Tennessee, Oregon, and Montana, whose state legislatures have street-legalized Medium Speed Vehicles with a whopping top speed of 35 mph.

It would be up to one's own devices to uncork it to 35 mph, of course, but doing that + swapping in some modern lithium batteries once the lead acid gave up the ghost would be at least technically feasible given the specs.

Update: As I show in my ride pics thread, doing so would be economically unfeasible, unfortunately.

Gyrocars from the past (pre-WWI Russia!):



... and in the near future?



I can sort of see why Danny Kim, founder of Lit Motors, the outfit behind this ridiculously-short-of-headroom prototype C1 gyroscopically-stabilized electric two wheeler, would choose this technology and layout: By definitively not being a car it doesn't fall under those particular, stringent safety and emissions standards, and by not having 4 wheels it doesn't fall into the weird nether-region of the non-car regulations that encompasses LSVs and MSVs such as the Polaris EV LSV above.

I still don't think this idea will come to market at a reasonable price. Way too complex...

[cross-posted from my Google+ stream: https://plus.google.com/115479414905422234350/posts/E6gV6pGkYJh ]

The Decline of Coal

One of the frequent, snide criticisms of electric vehicles is that they're "coal-powered cars." This refers to the historically high usage of coal to generate electricity in many regions throughout the US, especially in Appalachia. What does "historically high" imply in the recent past? A 1996 MIT Energy Lab paper that I've previously cited describes the national energy generation makeup in that era as "52% coal, 28% natural gas", and other, minor players.

Well, that era is ending, at least on the national scale. (On the state level power generation has always had large regional differences. Take the extreme examples of Idaho and West Virginia, for instance, with Idaho boasting 79% hydroelectric power and <1% coal use as compared to West Virginia's 98% reliance on coal.)



Above is the US Energy Information Administration's Short Term Energy Outlook that illustrates the the decline of coal. Note that coal, as a percentage of total, nationwide electricity generation, has fallen from 50% to 36% over the past 8 years alone. Although there's expected to be a small rebound in 2013 due to coal prices bottoming out and natural gas prices rising, the trend can be expected to continue in future years. This is both due to economic factors (including power utility consumers deciding they don't want coal power, especially if so-called "clean coal" is significantly more expensive) and due to the behind-the-scenes influence of groups including the Sierra Club, which in turn are financed by individuals including the billionaire mayor of NYC, Michael Bloomberg.

The NY Times published an article about this phenomenon just yesterday, in fact, focusing on the associated and inevitable decline of coal-mining-centric towns in Appalachia, and the efforts of the coal industry to lobby and coerce its way back to the boom days, days in which the public could be showered with soot and mercury without a second thought.

What are the implications of this move away from coal?

The major repercussion is that assumptions based on earlier, higher-percentage-of-coal-generated-power estimates need to be revised. These revisions will result in lower absolute well-to-wheels GHG and smog-forming pollutant emissions for BEVs, REEVs, and PHEVs (with no change for non-electric vehicles, of course). One such example of a report whose conclusions need revising is the much-publicized Union of Concerned Scientists State of Charge report from April 2012. In it the assumption of 45% coal and 20% natural gas electricity generation is made (page 5), something that's clearly not true in 2012 per the above figure. Even though they already concluded that with 45% coal it still makes environmental sense to shift to BEVs, their conclusion would be that much stronger were it to reflect the more recent data I describe above.

The other implication that I draw from this is that global GHG and smog-forming pollutant emissions are probably not going to go down at all. Say what? Wasn't this whole post on the declining use of coal? True, but only within the United States electricity generation market. As the NY Times states, "Pressured on the domestic front, some giant American coal producers ... are shifting their attention to markets overseas, where coal-fired power plants are being built faster than they are being abandoned in the United States."

The most I can ask for, I suppose, is that my own country improve its policies and choose more wisely in its power generation sources, and precisely that is happening. The citizens in China and India will need to speak up for themselves if they don't want their children's lungs coated with black, 100% made in America, Appalachian-sourced soot.

1) Kind of old news, but I just came across this tidbit:

http://thefutureofthings.com/news/10719/rapid-recharge-improves-electric-vehicles.html?addComment

The team&#8217;s results present interesting answers to questions raised by researchers. For instance, they found that the chemistry used in lithium-ion batteries manufactured by A123 Systems is the best suited for rapid charging. These batteries have been selected for several planned new electric vehicles including cars from Fisker Automotive and buses and trucks from Daimler and Navistar.

In the team&#8217;s tests, they ran one of these battery cells through 1,500 charge and discharge cycles, using an automated system. After 1,500 cycles, the battery had lost less than 10 percent of its initial power capacity, Rodgers says. The team used a fan to prevent overheating, which by stressing the chemical and mechanical components can lead to degradation.

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This was with quick (Level 3, DC) charging, to boot!

2) I've put out feelers to Toyota's corporate office regarding the RAV4 EV + Seattle. Note gratuitous mention of my occupation + neglecting to mention that I'm actually not in Seattle at the moment. (12 more months!)

To whom it may concern-

My wife and I are very interested in purchasing a Toyota RAV4 EV once it becomes available. We live in Seattle, however. Are there plans to make the RAV4 EV available in Washington State? Failing that, if we bought a RAV4 EV from a California dealer and had it shipped to Washington post-sale would it be possible for our local Toyota dealer to provide warranty service for it?

Thanks in advance for your reply.

-Toshi Clark, physician and EV enthusiast

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3) Nissan lowered Leaf lease prices, probably to spur currently sluggish sales:

http://www.plugincars.com/nissan-announces-leaf-lease-special-rate-289-121874.html

$3k down, then $289 per month x 39 months at 12k miles per year for a base model, or $319 per month with the same terms for the SL.

The above graphic is from the Union of Concerned Scientists report entitled State of Charge, which I've mirrored on Google Docs for ease of downloading. They define a metric, MPGghg, where they figure out how much well-to-wheels greenhouse gases would be generated by driving an electric car charged from the region's electricity generating grid and then translate it into pump-to-wheels "MPG"-like figures. Higher MPGghg means lower GHG emissions per distance traveled, of course.

Note that I currently live in natural-gas fueled Long Island, which is a "Good" region (39 MPGghg from the paper's source data) in sharp contrast to the rest of NY state, which is much cleaner (74 to 86 MPGghg) thanks largely to nuclear plants. This means that a Leaf driver here on Long Island creates a touch more CO2 per mile than my wife as she drives her 46 combined/overall MPG Prius… On the other hand, 39 MPGghg is much better than the current 24 MPG fleet average and it's quite possible that Long Island's power will get cleaner in the future.

Also note that the whole Pacific NW and some northwestern Rockies states are lumped together, with an excellent 73 MPGghg rating largely due to the abundance of hydroelectric power. As I've noted numerous times before in this thread, those lucky enough to be in Seattle can opt for Seattle City Light's $12/month Green Up program, which zeros out carbon emissions, in turn implying that the MPGghg becomes essentially infinite.

I think that's pretty damn cool.

Toyota's Pike Peak racer, the slickly named TMG EV P002:

350 kW (469 bhp!) from two axial flux motors, 900 Nm of torque, a chassis borrowed from the fine folks at Radical Motors, and 42 kWh of lithium ceramic batteries would do a lot to help me forget that unfortunate name, though.







Check the characteristic EV whine from the electric drivetrain writ larger than life in the video:


Press release/source for the attached photos: http://pressroom.toyota.com/releases/toyota+motorsport+gmbh+brings+electric+technology+pikes+peak.htm

jimmydean said:

http://brammo.com/store/empulse-r

Now with a 6 speed? Interesting.

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Last page, n00b

http://www.ridemonkey.com/forums/showthread.php?t=198412&p=3785335&viewfull=1#post3785335

heh

New news:

Honda Fit EV.

http://automobiles.honda.com/fit-ev/?from=fitev.honda.com
http://www.hondanews.com/channels/corporate-headlines/releases/2013-honda-fit-ev-rated-by-the-epa-at-118-mpge-highest-fuel-efficiency-rating-ever-1





Good news:

- 20 kWh of lithium
- 92 kW/188 ft-lb. fancy motor integrated with the transmission and shared with the FCX Clarity (see cutaway above)
- 132/105/118 MPGe rating
- Range on par with that of the Leaf: In Honda's carefully lawyer-couched language, the range is "123 city/95 highway mile range (unadjusted); 76 combined mile range (adjusted)"
- Honda claims a 3 hour charge time on a 240V charger, which would imply a 6.6 kW charger
- Not complete vaporware
- Lease terms of $389/mo x 3 yrs, while shocking initially, are actually comparable to the $289/mo Leaf lease since Nissan wants $3k up front and Honda wants nothing.

Bad news:

- Lease only. No purchase option up front or at the end of the lease term
- Only one color available (boohoo), the pictured blue
- Rolling out only in "select California and Oregon markets" in summer 2012, with "an East Coast rollout in 2013"

My impression is that this car is merely meant to appease CARB, nothing more.

TTAC: Take That, China: Japan Finds 200 Years&#8217; Worth Of Rare Earth

Bertel Schmitt said:

The Nikkei [sub] says that Japan found 200 years&#8217; worth of rare earth near an island. Even bigger shocker: The island is not on the China side of Japan, it&#8217;s in the Pacific.

300km (186 miles) off the coast of Minamitori Island, high concentrations of rare earths were found, including dysprosium, used to enhance the performance of motor magnets. Two small problems: The rare earth is at a depth of 5,600m (18,400 ft). The island itself is more than 1,000 miles away from Tokyo in the Pacific Ocean. However, the island and all the islands of the chain are Japanese, as a matter of fact, the islands count as a part of Tokyo. Minamitori itself is the size of a small airport, actually, that&#8217;s all it is.

Last year, rare-earth deposits were discovered in international waters. This is the first time a possible deposit has been found in Japanese waters, and it is in waters the Chinese don&#8217;t claim as their own. After WWII, the island was under U.S. control until 1968, when it reverted back to Japan.

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No more squeeze plays by the Chinese!

I haven't heard too much on that. They're dumping for under cost?

Motor Trend surprises with a thorough-ish review of the Fit EV. Some highlights:


Distinctive front end.


Ugly interior, still, as is the Honda corporate style these days. At least it has standard navi, seat heaters, and automatic climate control (for charge station-finding and heating/cooling efficiency, respectively).


The rear end is raised up so that the battery can slot underneath the car, sort of like those converted wheelchair-accessible minivans. Doesn't look too bad, though, apart from the wheels.


The rear seat is moved up and back with respect to the non-EV Fit, which makes for a very car-seat-friendly 35.2" of rear legroom!


Motor from the FCX Clarity, with fancy design such that the driveshafts run through it.

Key stats, mostly as above in this very thread:

- $389/month lease, no purchase option. On the upside, that's with no money down and included no-deductible comprehensive insurance coverage!
- 1100 production target
- Cali + Portland, OR
- 20 kWh of lithium, 6.6 kW charger, no CHAdeMO port
- 82 mile EPA range, greater than the Leaf's 73 and the Focus Electric's 76 despite their bigger packs
- 3252 lb curb weight, as compared to 2628 lbs for a non-EV Fit Sport with navi

One cool thing about the car that has not been not highlighted before is this:

Motor Trend said:

What your foot feels when it presses the Fit EV's brake pedal is actually a simulation of stopping feel. Yes, a simulation. During anything short of emergency braking (when valves open for old-fashioned friction stopping via pedal-activated hydraulic lines) the Fit EV attempts to halt itself by pure regenerative resistance from the traction motor. Here and there, it's still supplemented by doses of friction braking (particularly at the end), but even that's derived from a fast-reacting electric motor that locally pressurizes the caliper's hydraulics. The key point is that this really is brake by wire, and it's computer orchestrated. And what it eliminates is the slight bit of friction drag that current EVs (Leaf) suffer during what we think of as pure regen braking. Remember that mysteriously greater driving range? Here's part of the answer.

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Toshi said:

2013 Toyota RAV4 EV

- 41.8 kWh of Tesla lithium-ion batteries powering a similarly Tesla-sourced 115 kW electric motor, good for 0-60 in 7 seconds and 100 miles of range

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More RAV4 EV details emerge:

The battery has a nominal 41.8 kWh battery capacity as above, with the surprising thing being that the default charging settings are such that only 35 kWh are used in order to maximize the pack's lifetime, possibly to make sure that the 8 yr/100k mile warranty on that battery (as per CARB's regulations) doesn't turn into a money-sink for Toyota.

The 10 kW on-board Tesla charger "uses a standards-based charging interface", presumably SAE J1772, as opposed to Tesla-branded Tesla's, which use their own proprietary connector + adapters when on the road. This is a good thing, even though ChaDeMo Level 3 DC quick charging capability is conspicuously absent.

The projected EPA range certification is 92 miles with 35 kWh usable pack capacity and 113 miles when drawing down the full 41.8 kWh. For comparison, here are the EPA ranges for a few other EVs: 62 miles for the Mitsubishi iMiEV, 73 miles for the Nissan Leaf, and 76 for the Ford Focus Electric. If the 40 kWh Tesla Model S's range scales linearly with pack size as compared to its 85 kWh brother, then such a beast would go 124 miles on the EPA's tests, which are a bit conservative compared to reality provided one's not a beast with the HVAC system. (If one is a true driving ascetic then 170 miles is supposedly theoretically possible from the RAV4 EV.)

The center of gravity is low, illustrated here:

One interesting anecdote is that Toyota, in attempting to perform the government's mandatory roll-over crash test, was unable to get this SUV to roll using the government's prescribed method. Its center of gravity is so low, it just wouldn't tip.

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More photos and info from TTAC:

- New-gen 8" Entune infotainment system with voice control of iDevices and the like.
- Same motor as the Model S! The lower output of 154HP and 273 lb-ft (!) is via differences in battery pack power, DC-DC converter power, and controller programming.
- The 41.8 kWh pack uses the same cells but is not physically identical to the 40 kWh pack in the base Model S.

















The only problem with these positive reviews is that it makes it that much more unlikely that there'll be any left when I'm ready to put down some cash for one next spring/summer&#8230;

Austin's multimodal transportation solution:

Fraunhofer AutoTram Extra Grand: http://www.autotram.info/en.html



30.7 meters long (101 feet!). 256 passenger capacity. 5 axles, of which all but the second steer. Serial hybrid powertrain with two (!) diesel generators, total generating power of 455 kW driving two 480 peak kW traction motors, buffered by 35 kW of lithium and just under 1 kW of capacitors.

Pretty cool stuff, IMO: The convergence of diesel-electric buses and trains.

http://energycenter.org/index.php/incentive-programs/clean-vehicle-rebate-project/vehicle-owner-survey?utm_source=pev-survey&utm_medium=home-button&utm_campaign=cvrp

Key takeaway stats from my perspective from the full report PDF (see link above):

- 89% use their EV as their primary vehicle
- 95% own an ICE vehicle as well as their EV
- the owners are educated (52% post-grad degree! and 87% with at least a bachelor's degree) and wealthy (79% make more than $100k/yr)
- 92% drive less than 45 miles per day, and 66% drive less than 30 miles per day
- 39% have invested in home solar systems (!), and 17% more are planning to do so in the upcoming year