Alternative Fuel and Hybrids, Is This Even Possible?

Regarding hybrids see this link:

http://www.railindustry.com/coverage/2002/2002g02a.html

Wow, that was really interesting. Guess it can be done! Thanks for the link.

Hybrids are easily possible -- in fact, some of the early diesel-electric locomotive designers assumed there 'had' to be a battery bank between the generator and motors to simplify controls and lower the instantaneous loads on the engine.

The principal difficulty, I think, is the very large capital cost of the energy storage at locomotive horsepowers. Even at present diesel-fuel costs, you can buy a lot of ton-miles for the cost of a battery sufficiently large to be meaningful on a modern road consist. Let alone a proper supercapacitor bank -- these devices have a low effective breakdown voltage and hence must be combined massively in both series and parallel for locomotive work.

There has been, and is, extensive research into alternative fuel use. The current rail infrastructure is heavily geared toward single-fuel provision (diesel), with any adjustment of fuel quality for winter operation, altitude, etc. being provided for the 'plant' as a whole. Any time you have a second fuel involved, costs and confusion go up. I dimly remember attempts to use fuels like propane in some areas, including some part of the LA air-quality district IIRC. The lower energy density of the fuel makes this less practical.

I assume you all know that the Green Goat is technically a hybrid, although the amount of traction power from its engine is intentionally very small. The company that developed it is working on large locomotives to run on natural gas. Unfortunately, this is NOT a fuel that should be used extensively in rail transportation -- there's competition in home heating, industry, peak-power generation etc. that would almost certainly run up prices, restrict supply, etc. on a regular basis, and we do not need yet more demand on the shrinking effective sources of supply.

To some extent, the UT flywheel transmission for the NRA non-electric locomotive project has uses as a 'hybrid' device not involving large and heavy energy storage. However, the principal purpose of this device isn't sustained power; it's to provide short-term high-current 'peaks' for high-speed passenger operation similar to that on the "new" TGV lines in France, which have very high maximum gradients. At 180+mph, no grade is "long" in terms of time, but very high power is required to go up 8 to 10% grades at that speed. Even 25kV overhead gets stressed a bit. To do this with a self-contained locomotive would require a VERY large engine, which would then be wasteful at all times other than peak. So it makes sense, technically, to use an energy-storage device with high peak release rate, low effective internal resistance, controllable back EMF, etc. etc. (The people at UT have calculated the out-of-plane gyroscopic forces on the carbody and track, and the static mass of the flywheel system is not very great, btw)

What would make you think that a hybrid can't take power from external electric supply? That's not eminently practical for automobiles, for a variety of reasons, but certainly is for trams or transit buses. I remember a couple of proposals in the 1970s for flywheel-electric transit buses that would be 'recharged' at stops by connecting to some form of isolated chargers (such as short stretches of overhead supply and return), but would not require wire between those points. A comparatively small genset could be provided to keep the flywheel spun up for larger distances between 'recharges'. There aren't many situations in practical American railroading where this kind of profile is present AND operation isn't already subsidized (e.g., commuter districts) but there's no objective reason why large locomotives couldn't receive some of their traction power from an external source. Modern synthesized AC drive can solve many of the problems encountered in the past when trying to run this way -- flaming NH locomotives, anyone? -- but (somewhat evidently) a compelling case for lower overall running cost hasn't yet been made.

Also: Hydrogen isn't really a 'fuel' -- it's more of an 'energy carrier' used for convenience. The overall 'net' energy balance for its use is generally negative, in the sense that it takes more energy to provide the fuel than you get back by burning it. A direct implication is that some form of Government mandate, for example more stringent emission profiles than those in EPA Tier II, would be needed to more or less compel adoption of this more expensive technology. I also suspect that the number of PEM or SO cells needed to provide meaningful traction power would be amazingly expensive, and most of the currently-developed approaches and technologies are remarkably sensitive to indifferent operating conditions or maintenance. (I feel very strongly that hydrogen in quantities required for 'diesel-equivalent' fuel storage is a massive public danger, but that's not a strictly technical argument; locomotives are less hampered than other forms of land transportation in their ability to 'carry' large cryogenic or hydride storage tankage)

Also, Morrison Knudsen came up with compressed natural gas powered MK1200G switch engine

QUOTE: Originally posted by Blue Ridge Front Wow, that was really interesting. Guess it can be done! Thanks for the link.

I have no knowledge of how practicle the Green Goat really is, and have no opinion.

A railroad employee visiting a hobby shop (he's a regular customer) near a major yard where it was being tested remarked that the Green Goat and a diesel switcher would do the the work of one diesel switcher. He definately was not impressed by it.

QUOTE: Originally posted by DSchmitt QUOTE: Originally posted by Blue Ridge Front Wow, that was really interesting. Guess it can be done! Thanks for the link. I have no knowledge of how practicle the Green Goat really is, and have no opinion. A railroad employee visiting a hobby shop (he's a regular customer) near a major yard where it was being tested remarked that the Green Goat and a diesel switcher would do the the work of one diesel switcher. He definately was not impressed by it.

The green goats performance is really that poor? [B)]

It may not be very powerful, but you have to walk before you can run. I suppose with more research this could become more efficient, but until then...

Thanks for the technical stuff Overmod. Glad someone could explain it. I'm trying to learn[:D]

I'm disappointed to hear a negative remark about the green goat. One concern I have is in cost comparisons, Railpower didn't include maintaining a fleet of large batteries. Batteries have some pretty toxic stuff in them that require special handling.

Also, Railpower suggests that in the future a hydrogen fuel cell could replace the small diesel generator charging the batteries. This is not a large stretch of imagination, because fuel cells currently have small output and by design or operation are not variable in their output - a small constant output fits the bill for battery charging.

A common misconception about hydrogen fuel cells is that the hydrogen is for combustion. Fuel cells cycle hydrogen molecules through a matrix to generate electricity.

A switcher has loads of short duration, what about a road locomotive with constant demand and high loads?

Ahem... the hydrogen in fuel cells IS for "combustion" -- it winds up oxidized as H20. What I think you meant is that the hydrogen isn't used thermally, as in a conventional heat engine, but rather to produce electricity directly. Some of the methods that fuel cells use to do that are interesting and ingenious.

It is not at all a stretch for Railpower to envision a fuel cell replacing their rather small genset. Cost, and hydrogen-fuel logistics, are the principal difficulty. It's hard to beat using a small Cummins genset, even if bought new. I've been surprised lo these many years that none of the railroads that built slugs considered using a large battery bank (e.g. using cells from retired passenger diesels) and a small diesel engine and generator. Guess it was simpler just to run a couple of power cables from a second locomotive...

The thing about a road locomotive is that it wouldn't really benefit from large battery/small service charging in most applications. You'd need a much larger engine/generator to handle the sustained power loadings -- and cycling the cost-effective designs of battery heavily isn't a particularly good idea. There are a variety of different approaches to energy-storage and recuperative drives and transmissions, including the Karman hydraulic approach; most designs of battery banks aren't really well suited here because their charging rates are limited by chemical kinetics and temperature. One of the reasons to use a supercapacitor bank WITH batteries on a locomotive is to 'buffer' high currents and then 'temper' the output to make it palatable to cost-effective electrochemical (i.e. battery) storage.

Don't forget about biodiesel, although in its infancy, still could be useable, also is great for lowering emissions and lubrication (1% biodiesel mixed in with todays low sulfur (AKA Highway) diesel regains 50% of the lubricity found in high-sulfur (off-road) diesel)

Big thing is just getting enough plants online in order to lower the cost, it's quite a bit more expensive than regular diesel.

Randy Vos
WSOR Engineer

You should treat say an AC4400CW like a rocket. If you want to wain it from diesel you need to give it a strong alternative like liquid oxygen, rocket fuel or solid fuel (missle fuel). Batteries would most likely number too many to power a 4400 hp beast across the Rocky Mountains. I wish scientist would hurry up with cold-fusion. That would most definately work.

Hybrid buses seem to be operating successfully on several transit properties include nearly every Swiss city (supplementing their tram systems), New Jersey Transit, and the New York City TA. This is the first I have heard of any trouble with the Green Goat. The idea should be practical and should be applicable for commuter service as well. Long distance and mountain railroading, no, since much larger battery capacities would be required. Of course, years ago the New York Central had three power locomotives at work on freight service on Manhattan's West Side. They were dc third-rail electric, oil-electric (like diesel electric) and battery. They lasted up to freight dieselization.

The Green Goat -- and, on a smaller scale, such cars as the Honda Civic Hybrid (I own one), Toyota Prius, etc. work very well indeed, and have very real advantages -- when they are in the environment for which they were intended: coping with loads which vary sharply with time, such as stop and go traffic, switching cars, and so on. They really don't show much, if any, improvement over a 'normal' vehicle when used in more or less constant power service, such as uncrowded open road driving or -- on the railroad scene -- mainline operations. Why? The advantage of the hybrid is that one can use an engine running under very optimised conditions to charge a battery when power demand is low, and then use the power in the battery (plus the engine) when power demand is high -- the engine is always running at or near its best operating point. In constant power service, the designer of the locomotive or car or truck simply optimises the engine for that particular power range -- such as hauling a freight train at 59 mph -- and you wind up with a system over which a hybrid has no advantage.

Used appropriately, hybrids are great and well proven. Used inappropriately, like anything else they aren't much better than 'standard' technology. The bottom line? Use the right tool for the job and you'll do a better job. If you use the wrong tool, don't complain when it doesn't work as well as you want it to.

Didn't the UP try a CNG test with a couple of road locos sandwiching a tank car fuel tender????

QUOTE: Originally posted by drailed1999 Didn't the UP try a CNG test with a couple of road locos sandwiching a tank car fuel tender????

They did; so, I think, did BNSF. They ran well and cost too much money...[:)]

Junctionfan, high-energy oxidizers aren't necessary (or even remotely economical) in current railroad service. High "specific impulse" might have been useful on Mr. Perlman's modified M-181 RDC (;-}) but not on units going across the Rocky Mountains.

Detonation-range ignition or brazent speeds are not particularly desirable in either piston engines or turbines (think 'knock' -- the grandmother of all engine knocks!). You might be able to adapt a PDW engine as a gas generator for some weird combined-cycle locomotive plant... but the noise would make a UP turbine sound like one of those white-noise sleep machines.

Oddly enough, you may see purified oxygen (either cryogenic or derived from diffusion filters) in solid-fuel power (specifically locomotives derived from the US DOE 'clean coal' technology) before you see it applied to oil-burning locomotives...

Cold fusion is a scam, and definitively revealed as such a while back (perhaps UNLV should stick to basketball... oops, some trouble there, too...) I even had one of my high-school tutorees demonstrate how impossible it was, as described, by calculating the necessary neutron flux released by the observed "4 watts" of energy supposedly generated in the desktop-fusion event.

Catalysis is an interesting science, but you'll find that the physical phenomena involved are in the range of electronic bonding, NOT nuclear. I've seen some interesting research that indicates that nanoscale magnetic effects from modern materials may be able to "catalyze" the required kinetics to induce some nuclear fusion in susceptible elements... but I doubt this would produce the kind of flux needed to generate locomotive horsepower (which is energy x time as discussed in another post on this forum).

Even if it did, I would NOT want to be anywhere near the thing -- look up the characteristics of radiation from, say, a D-D reaction, and tell me what the shielding requirements would have to be. (Regardless of how the reactants were combined, the post-fusion energy release is driven by inherent nuclear physics: a 'cold-fused' MeV is no different from one from a tokamak... or, for that matter, from a hydrogen bomb using the same isotopes...)

Best to stick with good heat-engine fuels for heat engines... at least on the rails.

What about using the Mag Lev technology for the North East Corridor? Also what about using ethanol or methanol as fuel? After reading Overmod's comments on my previous post, I have to agree. Wouldn't suck if it broke down or got into an accident-a six axle nuclear weapon...YEAHHHHHH! As far as cold fusion is concerned, I would remind folk that the so called farce of Star Trek transporter has been proven to be possible. Scientist beam a photon to from one place to another. Just because we are not advanced enough to figure how to do it, doesn't always mean that it can't be done. It may take a while but consider in 100 years we went from basic technology to advance cybernetics, space exploration, laser surgery, the chunnel, etc.

Hold on a moment! Tunneling a photon is a VERY different thing from dissassembling a human (or Vulcan), beaming all the information across a very specific region of spacetime, and reassembling everything, exactly phase-coherent, in exactly the 3-space necessary. This is like saying that because researchers have essentially reduced a photon's speed to zero that it's possible to build stasis boxes to keep food, genetic experiments, Tnuctipun, etc. etc. indefinitely. Or make slow glass a la Light of Other Days.

Maglev for the NEC would be amazingly, terrifyingly expensive. Not quite on the order of the vacuum subway (which would have required everyone in LA to commute to NY, and everyone in NY to commute to LA, every day at full fare, to pay the cost) but still very high. Do not forget that maglev isn't a particularly well-advanced freight technology. Some of the economics have changed dramatically for the better (e.g., cheap magnetic cryogenic refrigerators can make the train suspension and propulsion cost-effective to operate) but there simply isn't enough pax traffic to justify the required investment in infrastructure... even in the Corridor.

On the other hand, if it got financed, I would support it. So there!

Ethanol is a farm-support dodge. Methanol is another story -- it has promise both as an internal-combustion fuel and as a feedstock for 'reformation' to use in fuel cells. Unfortunately, it's poisonous as hell, corrosive to a number of commonly-found materials, and has a high heat absorbance when carbureted (meaning it requires extensive heat to vaporize it to where it will burn well). It also has lower heat content than a fuel like #2 diesel, the 'flip side' of its composition (it is the liquid fuel with the lowest carbon content).
To top things off, its main commercial source feedstock is natural gas, which is in demand for too many other applications.

Its drawbacks matter less in railroad service than in most other potential applications, but I think it would require a much more 'secure' method of fueling locomotives, and dealing with vapors, leaks, engine-room ventilation, etc. -- these costs alone might outweigh the environmental "savings".


With respect to going from basic to advanced tech, one might observe that 'advanced' tech is not necessarily profitable tech. Ask any stockholder in the chunnel company...

Technological advances lead to profit. It is more profitable for technologies like the invention of diesels, CTC, EOT's and other items. I'm sure someone at some point probably said the same thing about computers.

As far as transporting the human body; it is not inconcievable to do that in say likely with in the next several hundred to 1 thousand years. The fact that some one has maped out the human DNA is a start in programing the computer into disassembling a human being and rebuilding the person back. Their are several major problems with this right now because all though we have made advancements, it is no where near the state of taking on such a massive technology. In order to do this, the computer must be able to store our body in decompiled form somewhere plus it needs to know how to go about putting together that person without killing them or getting someone to become like THE FLY. The hard drive and memory would likely take up the entire earth service at this time. How do you keep the personality intact during such a transport? They have done it with a photon but how do you convert energy into living matter. The answers lie in that the whole universe is made of photons, electrons and neutrons in such a precise manners it can turn inorganic to organic and visa versa. We are too pitiful in scientific advancement that of course sceptasm is there.

tom, this would make an excellent thread all by itself.

Personally, I don't think there is any one 'technological' magic bullet that's capable of giving you that quantum drop. Note that while the effect of alternative fuels may be positive in the future, when conventional oil fuel is pricier or less available, this is irrelevant to present operation -- subtract the cost of fuel entirely from OC and you'll only see about a 5% reduction (I invite anyone to use an exact percentage based on current numbers!). We've just lived through a period with sustained low interest/cost of capital rates, but haven't seen any meaningful investment in innovative locomotive technology for road service.

Part of the issue is that the business of actually moving goods for a purpose isn't that amenable to 'cheapening' in the ways that technology can make possible. It might, therefore, be better to ask if there is anything that could result in a quantum rise in the effectiveness of moving goods over land, or in satisfaction of shippers or customers with the service provided -- and in their willingness to provide more in profits than cost-cutting would otherwise yield.

I am assuming that no technology better than a somewhat improved metal-wheel-on-metal-rail one will give a more effective mix of speed, loading, and low energy requirements. Some of the potential "improvement" areas might be classed as follows:

Cheaper or more capable/flexible motive power (including locomotives with cheaper fuel, or which can exert high sustained 'overload' power economically on demand; in both cases these are well-established characteristics of external-combustion locomotives)

The ability to marshal and run longer trains, quickly enough to keep scheduling and community 'disturbance' at present levels or better -- this allows a given crew working a given number of hours to move more paying freight.

The ability to run trains quicker end-to-end -- this gives a possibility of better equipment utilization, more ton-miles per day to be billed, more effective scheduling or faster service (note these are two different things, see below) and better use of crew hours, at the cost of additional maintenance cost and fuel consumption.

Different technologies for track maintenance -- superlattice coatings and self-healing substrate layers for eliminating martensitic cracking and propagation and preserving precise geometry in the railhead, for example, and semi-continuous track-geometry assessment and 'magic wear rate' implementation. Some subsidy for the R&D and equipment/training first cost would be essential, since no one railroad would undertake paying for all the experimentation instead of 'jumping on the bandwagon' of success once proven.

Better or quicker handling of containers or car distribution at stops and terminals. I had a system in the '70s which could drop and load a 60-car container train in less than 5 minutes, with relatively cheap trackside installations. Modern tech makes this still more capable. This is just as important for modern 'peddler' trains (say, a version of John Kneiling's distributed-power container underframes, making local stops on a commuter-train-like schedule, able to haul a few conventional railcars when necessary).

Lower and optional rates to provide backhaul loadings -- perhaps following some of the traffic models developed for last-minute filling of airline seats.

Extension of PTC to semiautomatic train operation, thereby reducing crew size. I personally don't like the idea of this, but it does have to be said that the fastest way to eliminate problems with 8-hour crew laws is not to require that the crew be 'in the field' on the train... and there is little need for pair driving of trains that are all being attended remotely from central facilities (has the potential advantage that a given engineer could walk upstairs in JAX and sock a whiz-kid dispatcher if the latter screws him up too often ;-})

Beyond double-stack trains, you might be able to gain some additional effectiveness with wide-gauge specialized main lines (remember 'the case for the double-track train' in Trains in the '70s? We need more articles like that, Mark...) but the logistics of getting containers on and off these trains might be sufficiently overcomplicated that the transit economics don't produce meaningful service improvements. (Note that there is no way, fancy computers or otherwise, that it's more effective to use crane movements 'both ways' to strip and stuff containers on a ship at the same time... you pull everything first, then 'switch mode' and stuff. Presumably this would be true in multimodal yards, too)

Better signaling/dispatching, ideally using intelligent software agents to assess possibilities, handle multiple routings under stress or uncertainty, etc. This is NOT the same thing as computer-coding a college-boy "dispatcher", but rather attempting to replicate wisdom, common sense, Mark's described 'picture in the head', etc. using the advantages of distributed robust computing. Before you start laughing at me, one of the hospitals in Boston implemented an expert system for heart-attack diagnosis in their emergency room. When tested, the system caught 100% of the cases the attendings did... and also caught a couple they *didn't* -- without a significantly higher false-positive rate. A professor at one of our local universities has developed a program for the Navy that mimics a 'detailer'; this seems easy until you realize that the program has to work with many people who aren't particularly literate, let alone computer-literate, and be convincingly human to them... Seems to me that you could develop a wise, patient, and friendly 'dispatcher' who would be knowledgeable of its limitations and humble in the face of better immediate knowledge by others...

One point about many, many freight moves (as illustrated by the ex-dispatch manager for Consolidated Freightways) is that JIT or kanban manufacturing ISN'T about getting freight from point A to point B fastest, it's about getting it there PRECISELY when expected. Where the higher speed then comes in (in some forms of car rallying) is in providing some 'slack' in the schedule to overcome inevitable Murphy/Finagle delays, or other uncertainties. (It does help, of course, that the overall trip time can be shorter, or that 'emergency' orders arrive ASAP). But it also means that precisely-timed slower services are just as competitive as other modes, once salesmen understand what's really important...

I don't think there are going to be major revolutions in train handling comparable to, say, the replacement of high-maintenance steam with diesels in the '40s and '50s. All the cheap ways are fully leveraged by now. What I think may be important is the synergistic application of as many incremental 'betterings' as possible, and in the improvement of overall operating morale. Who was the management guy who stressed 'execution' over complicated planning and Too Much Analysis?

To the extent that infrastructure improvements can benefit overall effectiveness or cost reduction -- it's valuable to arrange for public or private subsidy of some of these costs, even if only done to 'sterilize risk' (and subsequently repaid, like the loan to Chrysler and, perhaps, the funds for Conrail). Remember Baldwin and his creditors? Imagine if they had foreclosed on him, or worse, if he hadn't been able to get funding afterward. To a large extent, that's where we are with a wide range of possible technologies... see the recent FRA 'letter to the administrator' for an interesting range of views.

I look forward to see what other people might believe and propose.

Originally posted by Overmod Extension of PTC to semiautomatic train operation, thereby reducing crew size. I personally don't like the idea of this, but it does have to be said that the fastest way to eliminate problems with 8-hour crew laws is not to require that the crew be 'in the field' on the train... and there is little need for pair driving of trains that are all being attended remotely from central facilities (has the potential advantage that a given engineer could walk upstairs in JAX and sock a whiz-kid dispatcher if the latter screws him up too often ;-}) I think dispatchers would wind up in the hospital way too often.[swg] Randy Vos Randy Vos "Ever have one of those days where you couldn't hit the ground with your hat??" - Waylon Jennings "May the Lord take a liking to you and blow you up, real good" - SCTV Reply domefoamer Member since September 2003 51 posts Posted by domefoamer on Sunday, August 8, 2004 4:36 PM I'll take some time soon to weigh these lengthy technical arguments. But my snap judgement is that if you're aiming for a greener locomotive that uses less imported oil and belches out less pollutants, the answer is at hand. You don't need to reinvent the wheel, or the diesel-electric concept. Just change the fuel. I run my VW on a 20-50% seasonal mix of biodiesel with dino diesel. I get cleaner, quieter engine operation this way. I make every gallon of imported petrodiesel in the mix go the equivalent of 40-60 mpg. And with the other half of the mix, I consume the harvest of some red, white & blue Midwestern bean farmer. My net cost is about equal to premium gas, $2.20 around here. No, it's not a bargain. It's part of the solution. Yes, regular rotgut high-sulphur diesel is cheaper. If you buy it in quantity like the UP does, you might dread that higher price. But UP, taking just one example, rakes in plenty of profits hauling low-sulphur coal from the West over to distant markets that demand it. The moral: we tend to get whaeer we pay for, or demand by law, or subsidize by taxation. That's all it would take to convert the RRs to biodiesel, and that could happen a lot more quickly thanthe sort of distant (but intriguing) technical innovations most respondents have been searching for here. Reply Anonymous Member since April 2003 305,205 posts Posted by Anonymous on Sunday, August 8, 2004 8:14 PM DF, that's right on. in my earlier post that's what I hoped to imply when I said that even though I had crowed about steam on some other threads, I had heard something about coal slurry for diesels. Reply Edit Randy Stahl Member since June 2004 From: roundhouse 2,747 posts Posted by Randy Stahl on Sunday, August 8, 2004 10:48 PM I just got done watching the Matrix HMMMMM!!! Randy Reply Overmod Member since September 2003 21,669 posts Posted by Overmod on Sunday, August 8, 2004 11:02 PM One thing about most forms of biodiesel I've seen is that the supply rapidly gets constricted with higher demand. It is, of course, theoretically possible to develop an effective producing economy for the 'vegetable' precursors, and plants to accompli***he necessary treatment of the "biological" product into a proper cetane-rated hydrocarbon. You couldn't, for example, meaningfully adapt the 'biodiesel' that uses waste frying oil with preheat. Not because it wouldn't work... because both the transportation and production logistics just can't get that much old frying oil in circulation! As I have said (probably generating severe and frequent cases of MEGO syndrome in the process!) I think that increasing dino oil prices will rather briskly produce a market for Fischer-Tropsch (etc.) derived synthetic liquid fuel, as well as straight biodiesel and other 'natural' liquid fractions. (There are now at least two biological gene pathways that can produce methanol metabolically, as yeast does for ethanol; a little of the dreaded recombinant experimentation might easily produce organisms that could ferment meaningful amounts of methanol and not be poisoned thereby...) Where the equilibrium price 'per barrel' would be for this is not entirely clear... but I think we're already pushing the envelope at $45 a barrel or so, at least for some of the 'boutique' niches. Coal slurry in locomotives... drop it. There are better things you can do with all-ceramic-coated locomotive motors, which you'd need for the additional wear. Sulfur problems, clogging problems, fuel-oxidation-in-storage problems, etc. etc. etc. etc. etc. Ask UP about coal slurry in turbines built of very good alloys, and whether modern hard coatings would solve all the critical issues they observed... the situation is worse in just about all respects if you propose to burn the coal slurry in converted locomotive IC engines (and believe me, you don't want to go back to using converted ship-diesel technology in locomotives!!!) Reply domefoamer Member since September 2003 51 posts Posted by domefoamer on Tuesday, August 10, 2004 9:19 AM As for supply sources of biodiesel raw material, I agree that the waste cooking oil angle is mostly hype to amuse bored & simplistic journalists. My biodiesel comes from Blue Sun, a Colorado company that trucks soybeans from the midwest to its production plant here. Its goal is to make the fuel from locally grown mustard seed that's planted in the fallow years between wheat crops. So we're still talking about going fast with food, but it's not the fry oil, but a common condiment! Reply Overmod Member since September 2003 21,669 posts Posted by Overmod on Tuesday, August 10, 2004 10:14 AM What was that the Bible said about 'faith as small as a grain of mustard seed...' ;-} I, of course, fail to see why the folks that support ethanol subsidies don't also support quick and immediate biodiesel subsidies, at least in key 'farm' states that see significant interstate truck traffic. It's not too long ago that a whole little complex of truck stops cropped up in Arkansas, right across the river from Memphis, because the diesel price was so much lower... it was sufficiently cheaper that I could save money by driving 40 miles each way to fill my Suburban. Of course, the revenue boys killed that golden calf by raising the tax rate when they 'realized they were leaving money on the table'. Something that re-established an effective price break on fuel... or promoted domestic fuel independence and resistance to 'price shock' fuel cost increases... would almost certainly go over well with truckers. One would think that refining and supply infrastructure improvements for motor fuel would have a positive effect on their counterparts for locomotive fuel... Reply Anonymous Member since April 2003 305,205 posts Posted by Anonymous on Thursday, August 12, 2004 2:52 PM I believe that the great IKB did some work on an engine called the GAZ engine, but that he gave up the idea, due to the necessity of providing a pressure vessel capable of withstanding enormous pressures produced by the mixture of certain chemicals - I guess 19th century technology just wasn't good enough - perhaps he was afraid of blowing himself and his neighbourhood to kingdom come ! Could have been the 19th.century equivalent of the atom bomb. I also believe that the *** did something similar during WW2 with a chemically powered rocket plane which blew up a lot of their pilots ! What I am trying to say is, has anyone else tried to progress this idea now that we have better tecnology in the field of high pressure vessels, and the controlled release of high pressures? Reply Edit Junctionfan Member since February 2004 From: St.Catharines, Ontario 3,770 posts Posted by Junctionfan on Thursday, August 12, 2004 4:44 PM I rather see a AE Staley, MCP, or ADM gas station than ones own by Shell, Esso and Sunoco. Ethanol would likely be cheaper to use as places like ADM require train service; a small but mutual agreement could be made. One hand washes the other. Andrew Reply 12 Join our Community! Our community is FREE to join. To participate you must either login or register for an account. 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