Posted on 08/09/2010 8:45:02 AM PDT by Red Badger
Instead of a wholesale switch to electric cars, with all their inherent range and charging problems, a seemingly easier way to wean ourselves off gasoline is to find alternate fuel that could be used in slightly modified internal-combustion engines. Unfortunately, there are some very real reasonsnever mind what conspiracy theorists might tell you about oil companies and corrupt government officialswhy most alternative fuels are not ready for prime time yet. Heres a look at the current status and near-term future outlook of the major alternatives to gasoline.
Modern turbo-diesels get about 30 percent better fuel economy than their gasoline counterparts, have gutsy low-rpm torque, and work well in vehicles with automatics and for towing; theyre a seemingly perfect solution for the U.S.
Unfortunately, diesel emissions are far dirtier than gas emissions. Removing diesels pollutants requires costly pieces of emissions equipment. Diesel also requires approximately 30,000-psi fuel-injection systems. These costs make diesels more pricey than even turbocharged, direct-injection gasoline engines, and those gas engines have the potential to achieve about two-thirds of diesels fuel-economy advantage.
While diesel costs about the same as gas today, it has run as much as 30 percent higherand it is taxed at a higher rate than gas. Theres no easy fix to keep diesel prices low, relative to gas, because American refineries, in general, produce about 19.5 gallons of gasoline and 10.3 gallons of diesel from each barrel of oil. That means a gas-powered vehicle getting 20 mpg can drive about 390 miles on a barrel of oil, while a diesel, at 26 mpg, can go only 270 miles.
Since a barrel of oil doesnt go as far in a diesel car, a wholesale conversion to diesels is unlikely in America unless we suddenly figure out how to make diesel fuel from something other than petroleum. European refineries produce more diesel and less gasoline from each barrel of oil, but making that switch would essentially require building brand-new refineries. Dont hold your breath.
One approach is to transform animal fat or vegetable oil, via a transesterification process, into what is called biodiesel. The resulting fuel doesnt contain sulfur and can be used in pure form, though many vehicle manufacturers recommend that it be blended with petroleum diesel in proportions between 5 and 20 percent. Biodiesel contains about 9 percent less energy than petroleum diesel, but it has a higher cetane rating (which promotes more-efficient combustion) and better lubrication properties.
Despite Americas appetite for french fries, there isnt enough used cooking oil to make very much biodiesel. In fact, it has been suggested that to replace all of our petroleum needs with biodiesel would require the planting of soybeans on all of the arable land in the United States. New approaches for making biodiesel from algae are being explored, but they are likely decades away from mass production. Until then, biodiesels limited availability and higher cost will keep it a bit player.
Another diesel alternative is synthetic diesel, made by a variety of chemical conversion processes that transform natural gas, methanol, or coal into diesel. The resulting fuel is usually sulfur-free and has a higher energy content than petroleum diesel, plus cleaner exhaust emissions. Converting natural gas to diesel fuel, also known as gas-to-liquid, makes it easier to transport because it requires no refrigeration or compression.
The cost of synthetic diesel is also reasonable, although the environmental and energy-independence benefits are minimal. Converting coal to diesel creates much more carbon-dioxide emissions than simply using petroleum diesel. In fact, this is a problem, in varying degrees, with any of the synthetic-fuel processes. However, North America has plentiful natural-gas reserves, and this could be a simple way to convert it into an easy-to-use motor fuel.
The use of E85, which mixes 85 percent corn-based ethanol with 15 percent gasoline, has stalled due to the fuels limited availability, high price (no thanks to our governments tariff on E85 imports), the roughly 30 percent fewer miles to the gallon it gets, and the understanding that its use provides little in the way of carbon reduction if the energy required to grow the corn and turn it into ethanol is factored in.
Brazil, a country that achieved energy independence by using home-grown ethanol, makes the fuel from sugar. Starting with corn is a much more complex and energy-intensive process. In the U.S., sugar-based ethanol would be challenging because most of our land is unsuitable for sugar production.
If we could produce ethanol efficiently from easier-to-grow plants, ethanol would be a good solution. Dubbed grassoline, this ethanol is produced from tall prairie grass or even algae. Several projects to develop a workable process are under way, but commercial quantities wont appear before 2020.
A more readily available alternative fuel is compressed natural gas (CNG). Converting a gasoline engine to run on the same stuff most of us use to heat our homes is an easy, low-cost approach. Natural gas is also cheap, and America has a lot of it. And natural gas contains far less carbon than gasoline. In fact, a normal engine running on CNG almost matches a plug-in hybrid for its carbon-dioxide emissions. The price of CNG for the energy equivalent of a gallon of gasoline is less than a dollar (before taxes).
Still, automakers are reluctant to embrace CNG because it emits some pollutants, while a hydrogen car or an electric vehicle does not. Also, since it must be compressed to 3500 psi to get enough of it into a tank to provide a decent range, CNG requires cylindrical Kevlar tanks that are heavier, more expensive, and harder to package than normal gas tanks.
Hydrogen is the holy grail of synthetic alternative fuels. Whether burned in an internal-combustion engine or used to power a fuel cell, its primary byproduct is water. And with that emitted water, you can produce more hydrogen. Of course, its not as easy as it sounds.
Most commercial hydrogen produced today is made by stripping carbon atoms from natural gasa fossil fuel. The removed carbon atoms then hook up with oxygen to release carbon dioxide into the atmosphere. If you work through the losses in the process, it would be cleaner, easier, and cheaper to simply burn natural gas in an internal-combustion engine.
Hydrogen, in its gaseous or liquid form, isnt easy to store or transport. The network of pipelines that currently moves natural gas around the country is too porous to keep the tiny hydrogen molecules from escaping. In automobiles, hydrogen has to be stored in stout cylindrical tanks and compressed to between 5000 and 10,000 psi.
Creating hydrogen using solar, hydroelectric, or wind power are pollution-free solutions, but solar cells, wind turbines, and hydroelectric dams arent free. Until we come up with a cheap, large-scale, and pollution-free method of generating electricity so that we can produce hydrogen from water, the widespread use of hydrogen as a fuel seems unlikely.
Rest In Peace, old friend, your work is finished.....
If you want ON or OFF the DIESEL KnOcK LIST just FReepmail me.....
This is a fairly HIGH VOLUME ping list on some days.....
Knock Ping!...........
If only we could harness the power of hot-air and bullshit that are constantly flowing out of DC...
I’m all for privately funded research in this area.
I believe the long term answer to our alternative fuel is going to be provided by microbiologists. Biodiesel produced by algea or some yet to be discovered organism fed by the sun.
Personal transportation shouldn’t take more than a 3 cylinder turbo diesel. Made well, should haul you around for 500K miles or so.
Back in the 50’s and 60”s I remember many people using CNG or propane powered cars, pickups and tractors. Other than difficulty in finding refueling stations, everyone running gas powered seemed OK with it.
There is something in the picture that is hard to see, it is WHY.
The miles per barrel comparison is very misleading. The are using the average gasoline/diesel production and portraying it like a limit.
Those ratios are only the result of current market conditions in the US. Process units like Catalytic Crackers and Hydrotraters are designed to maximize gasoline production because the US demand is so great.
In places like Europe and South America, more diesel is produced.
Brazil (Petrobras) is currently in the early engineering phase of two new refineries that will produce no gasoline and maximize diesel production. My company is being evaluated to provide some of the technology.
Even the great Satan Exxon is going algae, why drill when you can pond scum(they can relate).
Fuel a movie I just returned to Netflix, explains much of this and more( by more , one example is some rare footage by one of the camera people of the Twins exploding, yes, they exploded).
In the meantime, good old hemp seed oil returns mucho BTU to our piston powered chariots for cheap, cheap cheap.
It also improves the soil.
Beside clean cheap power, the seed oil has the perfect amino acid profile for human nutrition.
They say the Bible says this in so many words.
It already has. It's called nuclear power....................yes, you can power a vehicle with nuclear power............
Diesel can be made from coal, which we have plenty of, as can gasoline..............
The diesel would have sulfur in it would it not?
Sulfur can be removed in the process, and there are low-sulfur coals than can be used...............
Oh...I forgot to add “practical”...sorry.
The author recognizes your point, but states that to get significantly more diesel per barrel, it would require replacing all our existing refineries. What do you think of that comment?
What's implied in YOUR post is that getting as much gasoline out of the barrel as we do is a result of using EXTRA refining equipment. Could refineries be re-tooled by removing that extra equipment from the process? Or is the author not too far off?
Thanks,
sitetest
The only two things that keeps nuclear power from being “practical” in everyday transportation are fear born of ignorance and government policies.........maybe one and the same...............
There is only one fuel that will save America, fat made from boiled down liberals.
Portions of the refinery would be replaced but not the whole refinery. For example, typical Cat Crackers would be replaced with VGO units and the like but the desalter, atmospheric distillation and vacuum distillation units would be unchanged.
What's implied in YOUR post is that getting as much gasoline out of the barrel as we do is a result of using EXTRA refining equipment. Could refineries be re-tooled by removing that extra equipment from the process?
If you only removed the equipment, we would be left with a lot of low value product like residual oil (bunker fuel) that has little use and value. Instead, subsequent processing units downstream of the distillation units breakdown the low-value, high-BTU, heavy oil into more desired products. Different markets desire different ratios of products.
I was only thinking of how many of said cars Iran would buy to get the plutonium...nuclear is nuclear....
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