QUOTE: Originally posted by Hugh Jampton QUOTE: Originally posted by underworld http://www.spiritofmaat.com/archive/watercar/h20car2.htm underworld [:D][:D][:D][:D][:D] I've never read such male bovine excrement in all my life. It just goes to show that anyone can put anything on the internet.
QUOTE: Originally posted by underworld http://www.spiritofmaat.com/archive/watercar/h20car2.htm underworld [:D][:D][:D][:D][:D]
QUOTE: Originally posted by K. P. Harrier QUOTE: Originally posted by petitnj As oil prices rise, the advantage of rail over trucks continues to improve. Railroads spend about 12% of their income on diesel fuel, trucks about 30%. Bring on the $4/gallon, it will save the rails. “It will save the rails”? They are drowning in business now! I say, in all due respect folks, America needs to be saved! Economists are already saying the high gas prices could send the economy downward.
QUOTE: Originally posted by petitnj As oil prices rise, the advantage of rail over trucks continues to improve. Railroads spend about 12% of their income on diesel fuel, trucks about 30%. Bring on the $4/gallon, it will save the rails.
----------------------------------------------------------------------------------------------------------------------------------- K.P.’s absolute “theorem” from early, early childhood that he has seen over and over and over again: Those that CAUSE a problem in the first place will act the most violently if questioned or exposed.
QUOTE: Originally posted by Valleyline Back in the late 50's/60's Pratt & Whitney was actively researching and developing aircraft propulsion that would use heat generated by an onboard nuclear reactor. They actually built a separate plant in Connecticut for the project, but it was ultimately shelved. I assume weight was the major factor in its demise.
QUOTE: Originally posted by Overmod 88, what you said was even more than I was 'fishing' for. Well said. (And well run, too.) If I may humbly suggest, however, there ARE cumulative nuclear effects on the structure of nuclear powerplants -- neutron embrittlement and dissociated-water hydrogen embrittlement of the metals in the primary loop of a PWR being one example. I would like to think that that's what Matt's thinking of, rather than some extrapolation of building shine. Point to remember here is that the original plant engineers understood this, staff has been monitoring it throughout the plants' operating lives, and the decisions to decommission (and yes, whether or not to extend operating licenses) take these factors into account. Never assume, even for a moment, that nuclear people are fools, crooks, or morons. It was my understanding that decommissioning of most of the plants built in the '60s was already scheduled, with the forward-going effects on baseline supply being understood by the generating companies, and in fact some of the earlier plants have already been shut down and their materials either processed or safely stored. Can you tell me which types of plant (e.g., manufacturer or timeframe of construction) were engineered in ways which allow their extended operation -- including the indefinite extensions you mention? (In particular, has it been found that BWRs have greater structural effects than PWRs?) I concur that most of the plant's equipment is not subject to radiation effects -- but the steam cycle in PWRs (and the BWRs I'm familiar with) involves such low levels of superheat/reheat that they are impractical to run with anything other than nuclear reactors. Meanwhile, I also understood that most of the modern nuclear technologies were essentially gas-cooled, and were not restricted to the high-volume-at-low-heat-rise cycle that the water-cooled reactors use. So in a sense Matt's argument about 'valueless' has some validity: not in the nuclear-waste sense, but in the salvage sense... certainly as applied to a hypothetical system that packages a NSSS of required power density within locomotive loading gauge.
QUOTE: Originally posted by rvos1979 Seeing as we are talking about exotic fuels, any opinions on using nitromethane for a fuel? Hmmm....... Top Fuel Locomotive..... Interesting.... Randy
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
QUOTE: Originally posted by Sterling1 Nuclear reactors tend to make everything in their presence have increased radioactivity that means the unit can't be used anymore after a certain period of time because of the radioactive hazard.
QUOTE: Originally posted by edblysard Additional reason not to try... Reactors do not run by themselves, they need the constant attention of a highly trained, and very highly paid group of folks to keep them running...so your crew cost would so far exceed any savings in fuel as to make it useless. Two, reactors require an on hand, dependable and constant supply of water... if you have a worst case accident, a Loss Of Coolant Accident, (LOCA)you can draw upon that supply to keep the reactor cooled and stable. In the case of land based reactors, you will note they all have either a man made lake or reservoir, or immediate access to a large, natural lake or body of water, for just that reason. With a mobile reactor, such as those found in submarines, well, they do happen to be surrounded by water, so using sea water, although not a first choice, is always a option. Last, can you name one single insurance company which would underwrite such a machine? And before you decide we are condemming your idea out of hand... Several major contractors did a few feasiblity studies on just such a concept, along with a nuc powered plane...and decided it was a no go idea. We had a very interesting and detailed thread going about two years ago on just this very concept...several forum members, with many, many degrees in several different applications, also came to the conclusion that it just was not a good, workable idea... Ed
Our community is FREE to join. To participate you must either login or register for an account.