Mercedes To Phase Out Gasoline By 2015

arbitraryaardvark sends in a story a couple of weeks back in Yahoo's Ecogeek blog, reporting that Mercedes will phase out petroleum-powered cars by 2015 (mirror), and notes: "Story is unconfirmed but well sourced." "In less than 7 years, Mercedes-Benz plans to ditch petroleum-powered vehicles from its lineup. Focusing on electric, fuel cell, and biofuels, the company is revving up research in alternative fuel sources and efficiency."

The electric car you want is ready now:

[RichMan]

Nobody really gives a damn what fuels their cars, they care about cost and acceptable performance (can I make 70-80 on the freeway, or will I have a top speed of 40). If they can solve the problem of refueling infrastructure and sufficient mileage per refuel, there's no reason why not to go with a non-gas car.

you want this

Re:The electric car you want is ready now:

[Bryansix]

This is the most uninformed post on an electric car ever. You do realize that the Tesla is faster then the Elise? Plus it was designed with the help of Lotus. But the main flaw in your argument is the assumption that the Tesla NEEDS any gears at all. It has two gears but it could survive with one because there is almost no curve to the torque output so there is no need to shift.

Re:The electric car you want is ready now:

[Rei]

Of course, don't forget that lithium phosphate batteries are made from a small amount of a lithium salt (~$5/kg; even from seawater, it's only ~$30/kg), a bulk electrolyte, and various ingredients you'd find in a can of coke or around the house (phosphoric acid, sugar, iron, graphite, a PVC membrane, and an aluminum casing). They're only expensive because they're not mass produced yet like conventional laptop li-ion batteries are (conventional laptop batteries being price limited largely by the cost of the cobalt in the cathode, with LiP eliminates).

Re:The electric car you want is ready now:

[pinkocommie]

Acc to Tesla's own figures (with California electricity costs) - it'll cost you 4 cents/mile. In comparison (again using California Gas) $4.6 (45mpg Prius = 10+cents) (27 mpg bmw=17+ cents) (20mpg corvette = 23 cents)

Re:The electric car you want is ready now:

[Smeagel]

You can't haul a lot of things around on a bicycle, nor can you get into work on a 105 degree day in business attire without being covered in sweat. I bet you'd be surprised how many people go less than 50 miles a day. 50 miles a day translates to nearly 20,000 miles a year. There are a *lot* of 5 year old cars that don't have 100k miles on them yet.

Re:The electric car you want is ready now:

[GizmoToy]

This is only really the case here in the US. Around Europe, Mercedes is similar to Ford here in the States. They produce a wide variety of less expensive models that don't make it to the US, and are common in fleets (Police, taxis, etc.).

Not that this negates your argument, however. I think Europeans are far more likely to embrace alternative fuels than Americans.

Gasoline

[QuoteMstr]

No matter how we choose to generate power in the future, we have very few options for switching to anything other than gasoline for transporting that power.

Gasoline has a fantastic energy density. A 14 gallon tank of the stuff contains 491.2 kilowatt-hours of energy ($68 in electricity at New York rates), and the gasoline itself only weighs 81 pounds. If you fill up the tank in five minutes, you're transferring power at 7.368 megawatts. Can you imagine what kind of electrical infrastructure you would need to transfer the same power over mere wires?

About the only alternative I can imagine that would be comparable would be to hot-swap whole huge batteries at gas stations.

No, I think we'll be using gasoline, or at least a similar liquid fuel, for quite a while.

Re:Gasoline

You're forgetting the relative efficiency of the motors.

Gasoline engines are only about 25% efficient once drivetrain loss is taken into consideration. A 250hp electric motor is close to 95% efficient. With no drivetrain loss if you use lightweight electric motors inside each wheel. So you don't need to store as much energy on the vehicle in the first place.

ie: Of the 491.2kW/h energy you fuel up with, you only make use of 122.8kW/h in a gasoline car.

That lower number should be the storage target for an electric vehicle with comparable performance (and cost $17 using your rates). And you get other efficiency boosters almost for free: regenerative braking; freedom to change the shape of the car for efficiency because you don't have to worry about placing the engine above the wheels.

So you're overestimating the magnitude of the problem - and of the design freedoms that come with a switch to electric operation. It is a problem that will be solved within our lifetimes.

Re:Gasoline

[Nefarious+Wheel]

I think there's less energy lost from waste heat than you think during electricity production. Large stationary power generation plants have the economy of scale that permits downstream reclamation of large amounts of what would be otherwise wasted exhaust heat. It's not uncommon for several cycles of cogeneration equipment to be placed in the primary turbine's exhaust combustion process, until the exhaust is pretty much lukewarm at the end of the process. For lower levels of temperature differential you use a closed cycle with a more highly volatile or lower pressure working fluid system. This means less heat is required to turn the working fluid into vapor, which expansion turns the turbine or pushes the piston.

Re:In other news

[omeomi]

Can't any diesel engine run biodisel unmodified? That was my understanding.

I'm no expert, but I'm pretty sure you have to swap out your fuel lines and injectors. The engine is the same, though. All told, it's supposedly a very easy conversion to biodiesel.

Mercs run just fine on used chip-fat - TODAY!

[Joce640k]

Plenty of people are already running their Benz on the stuff the local chip-shop would have thrown away. How hard is it to ramp that up a bit?

Re:biofuels

[hansraj]

Perhaps what the OP meant was that as producing corn becomes more profitable, farmers will switch to producing corn instead of other crops, thus creating a scarcity of *those* grains and raising the price of food in general. A big chunk of world already finds it hard to afford food and hence the conclusion of people starving if prices rose further.

Re:Thank god!

[wattrlz]

Most electric outlets have a 15 or 20 amp breaker. That means on the best of days you're only going to be able to get 1.8 to 2.4 kw or about 2.4 to 3.2 horsepower out of it. Unless your car uses less than an average of 3hp while it's running you're going to have to charge it, or at least your spare battery pack, for a pretty long time to get any range out of it.

Correct link to "HCCI"

[Futurepower(R)]

Also, the link to HCCI in the story is broken. Use the one here instead.

The discussion about HCCI is written by someone named named Benjamin Jones. He obviously does not have much technical understanding.

They led the way in many safety features

[jaypaulw]

...a green push it certainly within their capability, I believe.

from http://en.wikipedia.org/wiki/Mercedes-Benz#Innovations

Innovations

The "Safety cage" or "Safety cell" construction with front and rear crumple zones was first developed by Mercedes-Benz in 1951.[25]

Anti-lock brakes (ABS), traction control and airbags in the European market, were Mercedes-Benz innovations. These technologies were introduced in 1978, 1986 and 1980 respectively.

In September 2003, Mercedes-Benz introduced the world's first 7-speed automatic transmission called '7G-Tronic'.

Mercedes-Benz was the first to introduce pre-tensioners to seat belts on the 1981 S-Class. In the event of a crash, a pre-tensioner will tighten the belt instantaneously, preventing the passenger from jerking forward in a crash.

Stability control, brake assist (Press Release) , and many other types of safety equipment were all developed, tested, and implemented into passenger cars--first--by Mercedes-Benz. Mercedes-Benz has not made a large fuss about its innovations and has even licensed them for use by competitors--in the name of improving automobile and passenger safety.
Mercedes M156 engine
Mercedes M156 engine

The most powerful naturally aspirated eight cylinder engine in the world is the Mercedes-AMG, 6208 cc M156 V8 engine. The V8 engine is badged '63 AMG' and replaced the '55 AMG' M113 engine in most models. The M156 engine produces up to 525 bhp (391 kW), and although some models using this engine do have this output (such as the S63 and CL63 AMGs) specific output varies slightly across other models in the range.[26]

The (W211) E320 CDI which has a (VTG) turbocharged, 3.0L V6 common rail diesel engine, set three world endurance records. It covered 100,000 miles (1.6×105 km) in a record time with an average speed of 224.823 km/h (140 mph). Three identical cars did the endurance run (one set above record) and the other two cars set world records for time taken to cover 100,000 km and 50,000 miles (80,000 km) respectively. After all three cars had completed the run their combined distance was 300,000 miles (4.8×105 km) (all records were FIA approved).

Mercedes-Benz's pioneered a system called Pre-Safe which uses radar to detect an imminent crash and prepares the car's safety systems to respond optimally. It also calculates the optimal breaking force required to avoid an accident in emergency situations and makes it immediately available for when the driver depresses the brake pedal. Occupants are also prepared by tightening the seatbelt, closing the sunroof and windows, and moving the seats into the optimal position.

Mercedes Benz is developing a fatigue-detection system that warns the driver when they are displaying signs of micro-sleep (when the eyes stay closed for slightly longer than a natural blinking action). The system will use a variety of data including the individual driving style, the duration of the journey, the time of day and the current traffic situation. Fatigue mostly sets in gradually.[27]

The fastest (production) automatic road car in the world is the Mercedes-Benz SLR McLaren at 334 km/h (208 mph). The car was co-developed by DaimlerChrysler and McLaren Cars. The fastest street-legal saloon car in the world is the Mercedes-Benz Brabus (tuned) W211 'E V12' - based on the E-Class saloon.

Re:In other news

[0100010001010011]

Which is a perfectly good way to ruin a new diesel engine.

WVO/SVO is great in theory, but once you add modern high pressure common rail or unit injector fuel systems WVO causes nothing but havoc. There are numerous reports of failures on WVO/SVO. Injectors sticking open and burning holes in pistons, etc.

Keep your WVO/SVO for your 80's Benz. The future will be GTL and designer BioD.

Incorrect Conversion

[sampson7]

Wrong on several levels.

First, the math:

491 kilowatt-hours = 0.491 megawatt-hours.

0.491 MWh over 5 minutes = 5.892 MWs of energy.

Second, you are ignoring efficiency:

5.8 MWs of energy is far more than it takes to move a car. Gasoline engines are remarkably ineffecient at converting all that energy into actual power.

Third, and most importantly:

"If it were possible for human beings to digest gasoline, a gallon would contain about 31,000 food calories -- the energy in a gallon of gasoline is equivalent to the energy in about 110 McDonalds hamburgers!"

Soure: http://science.howstuffworks.com/gasoline1.htm

(Okay, so maybe not most importantly, but it's the coolest.)

Re:In other news

[bunratty]

That's why work is being done on developing second-generation biofuels.

Re:Thank god!

[painandgreed]

Somehow, I don't think you've actually be in a city that has decent subways or trains before. When you can get a pass that means just hopping on a subway that will go within a few blocks of just about anywhere you'd want to go, they become much more convenient than cars or busses. Especially when considering the parking situation that we have here in Seattle. No more waiting at stop lights or for pedestrians. No looking (or paying) for the parking that you had to circle the block for fifteen minutes just to get. I won't even talk about the cost of my Capitol Hill parking space.

Re:Thank god!

[Rei]

Okay, well, first let's look at some common outlets in the US. Your standard NEMA 5-15R has a 15A breaker and, while there's a nominal delivery voltage of 120V, you'll probably get 117V or so out of it. That's 1.755kW. Kitchen outlets generally have a 20A breaker, so 2.34kW. The NEMA TT-30R, the standard low-power RV outlet, is also a nominal 120V, so assuming 117V still, that's 3.51kW. Dryer outlets are split-phase, either NEMA 10-30R or 14-30R (the 14-30 ones are properly grounded; the 10-30s are grounded through the neutral). They're able to feed a nominal 240V (we'll say 234V) at 30A. That's 7.02kW The higher power equivalents, the 10-50R and 14-50R, are the standards for range outlets. The 14-50R is also the standard high-power RV socket. This is 11.7kW.

Okay, so these are the outlets found all across the country. The RV ones are especially interesting, since RV parks can often be found in even the most remote places, and I'm sure your average RV park owner would love a new revenue stream, what with RV travel down due to high gas prices. Now, let's take an upcoming EV like the Aptera Typ-1e -- 2+1 seating, 120 miles@55mph, 70 miles@80mph, 90mph top speed, 0-60 in Oahu. They use 60kW PosiCharge fast chargers by Aerovironment. Aerovironment already makes them as big as 250kW.

To get an idea of what sort of driving distances you can get in a given length of time and how those compare to gasoline, there's always this convenient spreadsheet. Adjust the EV pararmeters to those of the EV of your liking. Explanations of the formulae and parameters are at the bottom.

Oh, and as for Mercedes? Who wants to bet that they'll make one or two EV/PHEVs, one fuel cell vehicle, and do the cheap/lazy thing and simply make all of the rest of their vehicles flex-fuel capable?

Post messed up

[Rei]

Ack, the post got messed up... I should have previewed. Replace that second paragraph with:

Okay, so these are the outlets found all across the country. The RV ones are especially interesting, since RV parks can often be found in even the most remote places, and I'm sure your average RV park owner would love a new revenue stream, what with RV travel down due to high gas prices. Now, let's take an upcoming EV like the Aptera Typ-1e -- 2+1 seating, 120 miles@55mph, 70 miles@80mph, 90mph top speed, 0-60 in under 10 sec, 15.9 cubic feet of cargo space, etc for $27k. It has a 10kWh battery pack. Charger efficiency isn't known, but 93% or so is standard for slow charging (i.e., charging in more than half an hour or so). Li-ion batteries range from 96% (fast charging) to 99.9% (trickle charging) efficiency. Let's say 99%. Let's ignore the slowdown at the end, since that's more significant with .

For ~2 hours worth of moderate speed driving or ~1 hour of high-speed driving, and assuming an appropriate onboard charger, you get the following charge times:
NEMA 5-15R (15A): 6.2h
NEMA 5-15R (20A): 4.6h
NEMA TT-30R: 3.1h
NEMA 10-30R or 14-30R: 1.5h
NEMA 10-50R or 14-50R: 0.92h

Now, these are with standard outlets that you can already find across the country. Thanks to modern batteries and chargers, fast charging is not only possible, but already available in places, such as Oahu. They use 60kW PosiCharge fast chargers by Aerovironment. Aerovironment already makes them as big as 250kW.

Re:Thank god!

[Rei]

Error in your logic: Electricity has already undergone Carnot losses. Gasoline hasn't. The average ICE is only about 20% efficient. The average li-ion EV is about 80% efficient when fed already-generated electricity.

Don't take my word for it. Take the word of a peer-reviewed study from PNL conducted for the DOE. We already have enough electric infrastructure for 84% of our existing vehicle fleet to switch. Of course, not as though it's somehow *harder* to build electric infrastructure than develop new oil fields and pipelines. Just the opposite, actually -- that's largely why electricity is so much cheaper per joule.

Re:Thank god!

[Rei]

Just ignoring all of your erroneous stereotypes (addressed in earlier posts, not worth a repeated debunking), an electric motor is generally only 85-90% efficient in a normal drivecycle. If the vehicle is averaging, say, 25kW, that's still ~3kW of heat -- the output of two large plug-in portable space heaters.

Re:In other news

[my_left_nut]

Of course what people tend to forget is that you can make gasoline from a lot of non petroleum sources including water and air. The only thing that prevents it is cost.

Exactly. It's not the unavailability of all of the fuel that is the issue, but how much it will cost, and more importantly how quickly that cost will increase. This rate of increase will determine whether we will be able to actually continue with this easy motoring way of life, or not. The higher the rate of increase, the less probability that we will be able to maintain the current way of doing things.

The cheapness of the fuel *is* the issue. Right now, diesel and gasoline still give the biggest bang for the buck.

See these (now quite well known) sites for more info: Kunstler and The Oil Drum

Re:Thank god!

[ross.w]

The NSW and Vic State Gov'ts (Australia) have pissed off everyone with automated toll roads, but they still did it, and they're both still in office (for now).

These automated toll roads were created to relieve congestion, not reduce car use, but in a couple of cases (Lane Cove Tunnel, Cross City Tunnel) they made the congestion on existing roads even worse, because the toll companies were allowed to reduce lanes and make changes to existing roads to force people onto the toll roads where the profit$ are.

Of course the reason these governments are still in office is because the only credible alternative to them is even worse.