University of Wisconsin Wins FutureTruck Competition 49
emmons writes: "The University of Wisconsin has won this year's FutureTruck Competition by reducing the greenhouse gas index of a Ford Explorer by 50% and increasing over-the-road fuel economy by 45%. The modified Explorer uses an aluminum/steel hybrid frame, a titanium exhaust system and sports a hybrid bio-diesel/electric engine. I saw the vehicle on campus a few months ago and got to talk to some of the team members- it's really quite impressive."
100% (Score:1)
Re:100% (Score:1)
Excellent ideas, but... (Score:3, Interesting)
And aluminum as safe as an all-steel frame? Perhaps, but I'm under the impression that aluminum is not as strong a building material as steel.
The biggest advantages can be seen in engine technology, especially hybrid gas/electric and alternative fuels (natural gas produces 20% the emissions of gasoline, yet provides similar power). If nothing else, we can make great strides in improving air quality.
Re:Excellent ideas, but... (Score:2, Insightful)
As for safety - a properly designed fram is safe regardless of the material, and aluminum alloys are stronger than steel for the same weight. The most dangerous part of most SUV designs is the tendency to roll over, anyway - and an aluminum body instead of steel would help considerably in reducing that tendency. (The center of gravity would be lower.)
The real problem is incentive. Right now, there is NO incentive for manufacturers to improve the mileage on SUVs of any kind. (They don't have to meet the EPA/DOT mandated mileage figures, and are actually a cash cow for the manufacturers - they are priced many K$ above the real cost, and people buy them regardless.)
Re:Excellent ideas, but... (Score:2)
If a company sells 20 million SUVs, and the cost of each one is increased by $100 through the use of titanium exhaust, and other more expensive components, They're not going to be keen on putting out an extra $2 billion dollars up front to make the switch. Even though it's an insignificant cost per vehicle, it's less money they have to use for financing, and it's definatly not earning interest when the vehicles are waiting to be sold on the lot. The manufacturing scale actualy works against the improvement in this case. (Hmm, 4-5 more miles per gallon, or claim a savings of $2 billion dollars, and everyone gets bonuses....)
Re:Excellent ideas, but... (Score:1)
Re:Excellent ideas, but... (Score:1)
Nope. Diesel has a greater density than gasoline, and thus that is why Diesel engines are more efficient than gasoline engines.
"Diesel fuel has a higher energy density than gasoline. On average, 1 gallon (3.8 L) of diesel fuel contains approximately 155x106 joules (147,000 BTU), while 1 gallon of gasoline contains 132x106 joules (125,000 BTU). This, combined with the improved efficiency of diesel engines, explains why diesel engines get better mileage than equivalent gasoline engines. "--www.howitworks.com
Faulty logic (Score:4, Informative)
If you run an Otto-cycle engine exclusively on propane rather than gasoline, and increase the compression to suit the fuel, you will get higher efficiency and lower CO2 emissions than the gasoline version... but at 5 pounds of propane per gallon vs. 6.2 pounds/gallon of gasoline, you are still going to get fewer miles per gallon.
Re:Faulty logic (Score:1)
However, the faulty logic is on your part not mine. You have engaged in the non-formal inductive fallacy of semantic confusion. Whereas, I was using the more colloquial definition of 'efficiency'' i.e. mpg, you used a more technical thermodynamic definition of 'efficiency'' i.e. nu (the greek letter). See:
http://scienceworld.wolfram.com/physics/DieselC
and
http://scienceworld.wolfram.com/physics/OttoCyc
Further, the use of supercharging, or turbo-charging will cause an increase in the efficiency of either the Otto, or Diesel cycle. Not to mention that the Miller Cycle depends on supercharging.
Given the *context* of the post that I was responding to, it should have been manifest that the efficiency that I was referring to was miles (km) per gallon (l).
Let me rephrase that (Score:2)
Re:Let me rephrase that (Score:1)
My argument was, and is not fallacious. Say it aloud -- *context*.
You equivocate the technical use of --efficient-- with the colloquial use of --efficient-- and therefore create an argument based on semantic confusion. There was no false equivalence, on my part, between motor fuels, as I clearly stated: "Diesel fuel has a higher energy density than gasoline. On average, 1 gallon (3.8 L) of diesel fuel contains approximately 155x106 joules (147,000 BTU), while 1 gallon of gasoline contains 132x106 joules (125,000 BTU)." Clearly 147,000 BTUs *>* 125,000 BTUs, and thus I made no statement of equivalency between gasoline, and Diesel. Undeniably, I showed that there was an inequivalency between the two fuels.
Again my statement was based on the colloquial used of efficiency: mpg (km/L). Thus, in the context of the discussion my statement stands.
If you were to say that your computer is speeder than my computer based on the fact that your processor runs at twice the MHz as mine you would be using a colloquial definition of --speed--. In point of *technical* fact you would be incorrect as MHz is a unit of frequency rather than velocity. Unless your computer was/is a laptop then the speed of your computer, in general, would be zero mph, k/s, etc.. However, your statement in all likelihood would have been made in a colloquial *context* and thus in that context would NOT be false.
Statements take out of context almost always can be "proven" false.
If a bunch of students can do it, why not Detroit? (Score:2)
You are right about air quality, but I think that if we aren't willing to shoot for a doubling of fuel economy in our vehicles (and quite a bit more in the rest of the economy via co-generation [slashdot.org]), frankly we are being lazy pikers. We can double economy with technologies which are student playthings; when you consider the kind of advances which are currently in the real labs, and how they could come to the car dealerships and merchandise racks at Home Depot and Lowe's over the next 20 years, you have to wonder what excuse there is for doing nothing. I sure don't see one.
Re:If a bunch of students can do it, why not Detro (Score:1)
And immune to radar too!
I'd just hope the body style wouldn't be as ugly as the current stealth fighter (and require the 6+ on board computers to keep it stable, as I believe the Stealth fighter does..)
Re:Excellent ideas, but... (Score:3, Informative)
Ah, but what did it *cost*? (Score:1)
As nice as it sounds to have a 45% increase in fuel economy and 50% decrease in greenhouse gasses, if its going to add an additional $3K or so to the already bloated price of vehicles, is it really going to sell?
Re:Ah, but what did it *cost*? (Score:2, Insightful)
(Before we begin, I live outside of D.C.)
Current gas price: $1.46/gal
Amount spent per week: around $23
Amount spent per year: 52 x $23 = $1196
Amount spent per year (45% better): $657.80
Savings: $538.20
So we're talking around 6 years to recoup your savings just from gas. I intend to have a car for >6 years, so yeah, I would buy this thing. Consider, also, gas prices have steadily gone up over the PAST 6 years, so you're actually talking about saving more than that.
--trb
Re:Ah, but what did it *cost*? (Score:2, Insightful)
3000*(1.08)^6 = 4,760.62
Gas would not cost you that much, even with the projected price increases.
That being said, there are other reasons to get a fuel efficient car than to save money. To help the environment. And, in my eyes, that's a very noble reason for spending a little extra money on a car.
But, regardless, you can't justify an extra $3K just based on money saved, because no money will be saved at all.
Re:Ah, but what did it *cost*? (Score:1)
To answer your question, "Ah, but what did it *cost*?" I would say last year's Moolennium (same deal, only it was a Chevy Suburban) cost somewhere around $500k. Yeah, yeah, that's a bit on the expensive side, but don't forget it's a prototype. We calculated that the final product, should it be mass-produced, would cost about $2000-3000 extra. Unfortunately, the battery pack we used would have to be replaced somewhere around the 65k mile mark, costing an extra $600-1000. But hey, that's what Congressionally approved subsidies are for. But don't forget about that fuel economy. Under ideal conditions, we got the truck going at about 33 mpg (stock is 12!).
same fuel efficiencey (Score:3, Insightful)
Of course, we could get the same fuel efficiency and reduction in pollution just by purchasing a reasonable mid-size car instead of a SUV.
Re:same fuel efficiencey (Score:1)
Re:same fuel efficiencey (Score:1)
Re:same fuel efficiencey (Score:1)
My 2002 Durango (4.7L 235hp V8, 287CID) gets about that (well, 19 mpg/h) and weighs in at 4379 lbs.
Re:same fuel efficiencey (Score:2)
Of course, we could get the same fuel efficiency and reduction in pollution just by purchasing a reasonable mid-size car instead of a SUV.
You assume that "we" have a "reasonable" mid-size family (or less) to haul around. A "reasonable" mid-size car does not have enough capacity for me, my spouse and 3 children and our stuff. Most vehicles these days seem to assume a family size of 4 or less. I need a vehicle that can carry at least 5 people plus groceries/luggage or maybe even another passenger or two. Even the Ford Explorer is actually too small for my needs. It's too narrow across the back seat to easily fit 3 child seats (all 3 of my children are still too small for regular seat belts). So, I'm pretty much forced to only consider mini-vans and large sport-utes.
Re:same fuel efficiencey (Score:2)
If you are driving around a full vehicle it is one thing, but if you are driving around 365 days a year with only one person then the efficiency per load doesn't look so good.
Re:same fuel efficiencey (Score:2)
Well, my one-person daily commuter car is a Miata :-) Our other vehicle is the humongous familymobile and it is full more often than it is not, so I think I'm being fairly responsible. I just bridle at the knee-jerk reaction to large vehicles from people who live alone or only have one or two other people to haul around.
As for the people carrrier vs. SUV argument, I also occasionally need to pull a trailer. A frount-wheel-drive V-6 just ain't gonna get it. It's gotta be (rear or four)-wheel-drive with a decent size V8 to handle large loads. An SUV is just too versatile for carrying/pulling/hauling stuff to ignore. Before they became fashionable enough to give us monstrosities like the Cadillac Escapade and Lincoln Flabigator, people like me were still buying them for the "utility" part of sport-utility.
Re:same fuel efficiencey (Score:2)
You know I don't react badly when I see a family in an SUV. I try to make eye contact with the driver because they are still unsafe, as long as they are driven with the proper caution and at proper speeds for such a vehicle, which I'm sure you do with all those kids, they aren't so bad.
But I live in NYC and 90% of the time there is just a driver and maybe a single passenger and usually one who really just needs elevator shues or penis/boobjob and certainly shouldn't have a license for such a large vehicle. That's where the ugly looks come from. I think if these vehicles required a specialized license that required you do go out and roll one of these jobbies, and at least a weeklong full-time training course all that animosity would be replaced by respect. A $8-$10 dollar a gallon gas tax would probably even get some of the less responsible drivers to get a Miata for their commute. (I'm not all pro-tax, I think it should be accompanied by an equal reductions on other taxes, perhaps even earmarking the fuel tax for infrastructure, military and court costs from transportation issues.)
yes, but.... (Score:2)
But yes, the initial electrolysis of aluminium from bauxite is unbelievably energy-intensive and is typically only feasible where hydroelectric power is cheaply available.
sssshhhhh! (Score:2)
We'd better keep this a secret, or else all those senators and lobbyists that killed the bill to raise CAFE standards [salon.com] would look pretty stupid right now!
Laughable, really... (Score:1)
I've just read this link... Excuse me but this is hilarious. Just because a car weighs two tons and reaches the height of a man would mean that it's safe?
The two persons who wrote this article obviously don't know about Euro NCAP [euroncap.com], which destroys their argumentation altogether. FYI, the best performing car at Euro NCAP tests until now is a sedan [euroncap.com]. And if you browse a little through test results, you'll see that what they call "knee-scraping subcompacts" perform equally well than any other categories on average. So long for "the bigger the safer".
Oh, and said sedan consumes less than the hypermodified truck which is the subject of this article... which destroys their argumentation even further. It consumes less than what US lawmakers want to impose for 2013, even. In fact, most cars sold in Europe these days improve on these limits. Hey, we pay nearly 5 times as much as you for the precious liquid!
Really, the US have LOTS to learn from Europe when it comes to cars.
Please tell me: (Score:1)
Re:Please tell me: (Score:1)
Re:Please tell me: (Score:1)
Searched English pages for biodiesel. Results 1 - 10 of about 37,400. Search took 0.28 seconds.
Re:Please tell me: (Score:1, Informative)
Rudolf Diesel designed his engine to run on vegetable oil. It was demo'd at the World's Fair running on peanut oil, in fact.
Dr. Diesel's goals were social and environmental; he wanted to provide a clean engine to the farming peasantry that they could make fuel for themselves. But, the diesel engine was so well designed, it will run on almost any fuel containing sufficient calories.
So, the oil and auto industries found that they could dispose of the crappiest, most polluting waste that their gasoline refineries produced by marketing it as "diesel fuel". This tactic was so immensely successful that the term "diesel" has become inextricably linked with the pollution-spewing monsters you are thinking of right now.
So, the term "bio-diesel" was invented to delineate vegetable-based, renewable, clean diesel fuels (the *true* Diesel fuel of Dr. Diesel's vision) from the atrocious crap that comes from the oil zaibatsus.
The Green Beans are fighting marketing with marketing. Might work, but of course the Oil Admin - oh, excuse me, I mean the BUSH Administration will probably find some way to make it illegal.
Some links of note:
http://www.veggievan.org
http://www.apexnorth.com/history/development.html
Re:Please tell me: (Score:1)
Cars?? (Score:1)
Re:Cars?? (Score:3, Insightful)
Re:Cars?? (Score:1)
In a vehicle, one of the largest sources of unused AND recoverable energy is in braking. That's how we (I was on the UW team) bumped up the fuel efficiency of the Moolander. If you remember back to high-school physics, you probably had a few lessons in electricity. Our teacher brought in a simple generator attached to a light bulb. The generator (a simple motor) was hand-turned. What we learned was that Lenz's Law produced a force opposite to the force applied to the hand crank. Apply that to a hefty motor in a truck and change the hand crank to rotating wheels (that bring with them the inertia of a couple thousand pounds) and you have yourself regenerative braking.
I can't really see an industrial method of recovering this energy.
Re:Cars?? (Score:1)
Audi (Score:2)
And this is supposed to be a fuel-efficient car? (Score:1)
Sorry, but this heavily transformed Ford doesn't impress me at all, especially since a certain Ford Focus TDCi [irishcar.com] on sale here in Europe (maybe in the US too?) does 50mpg at the same pace and performs likewise (top speed) or better (accelerations).
However, I must admit that 29mpg is quite impressive for a car which shares its aerodynamics with an average skyscraper and weighs nearly twice the Focus - but then again, why not buy a Focus? As an added bonus it hangs on the road far better than any SUV (except maybe the BMW X5)...