The discussion revolves around the feasibility of vaporizing fuel to achieve high miles per gallon (MPG) in internal combustion engines, specifically referencing a historical claim of a 1970 Ford Galaxy achieving 100 MPG. Participants explore the science behind fuel vaporization, its potential benefits and drawbacks, and the implications for engine performance and efficiency.
Participants generally express skepticism regarding the feasibility of achieving high MPG through vaporization, with some outright dismissing the claims as unrealistic. Multiple competing views remain regarding the potential benefits and drawbacks of vaporizing fuel, and the discussion does not reach a consensus on the effectiveness of the proposed methods.
Participants note various limitations, including the need for larger engines to accommodate vaporized fuel, potential safety issues with fuel vapors, and the historical context of similar claims being associated with dubious technologies. The discussion also highlights the dependence on specific conditions and assumptions regarding engine design and fuel properties.
If there was no unburnt fuel at all, we wouldn't need catalytic converters.tech99 said:I am not sure we see unburnt fuel in a modern spark ignition engine, so I am doubtful abut the advantage of pre-vapourising the fuel.
Absolutely brilliant reply, Jack!jack action said:If there was no unburnt fuel at all, we wouldn't need catalytic converters.
Yes, but there is still a twist here. The author does state that running on vaporized fuel alone would have terrible performance. So modern engines set up with propane or LNG would be tuned differently, and not be talking (supposed) advantage of the lean ratio.russ_watters said:I think this is a pretty good reason to believe there is next to no benefit:
Just being liquid vs vapor doesn't say much - it doesn't change the amount of energy available by more than a few percent (e.g., you could preheat a liquid fuel). In order for there to be much of a performance hit due to the fuel being liquid, it would have to be not burning or burning very late, and that just isn't happening.
According to the Wikipedia article, it might sort of be the other way around?jack action said:If there was no unburnt fuel at all, we wouldn't need catalytic converters.
So reducing carbon monoxide. And...These "two-way" oxidation converters combine oxygen with carbon monoxide (CO) and unburned hydrocarbons (HC) to produce carbon dioxide (CO2) and water (H2O).
reducing NOx - but some unburnt fuel is needed for the conversion. I think you can have very complete combustion, but with high NOx levels. So that would be a problem, and the 'solution' is - more unburnt fuel! Well, engineering is always a balancing act, right?"Three-way" converters, which also reduce oxides of nitrogen .... three-way-converters require fuel-rich or stoichiometric combustion to successfully reduce NO<em>x</em>.
Smokey Yunick had the solution in 1984 with his Hot Vapor Cycle engine. By capturing and reusing heat normally dissipated, efficiency dramatically improves.OmCheeto said:This thread is more and more reminding me of my very first thread, and the image that inspired it:
View attachment 366588
The image confused the hell out of me.
For full hydrocarbon usage comparison, the coal fired power station efficiency, or other hydrocarbon fuel supplied, and transmission losses from power plant to charging station should be taken into account, when analyzing electric vs ICE. That 100mpg can drop significantly in the overall scheme of things.russ_watters said:Adding to this: a Mustang Mach-E gets about 3 mi / kWh, almost exactly equivalent to 100mpg, or 12 hp at 80% efficiency. It's in the ballpark of a fair comparison to a modern ICE sedan, since the efficiency of the ICE engine is probably below 25% when it is producing 10% power, and that doesn't include drivetrain losses (electric cars directly power the wheels whereas gas cars lose maybe another 15% between the engine and wheels).
Right, this thread is about how much power it takes to move a car, not where the "fuel" came from. But I agree we need a clean grid and are to some extent putting the cart before the horse with electric cars in the US.256bits said:For full hydrocarbon usage comparison, the coal fired power station efficiency, or other hydrocarbon fuel supplied, and transmission losses from power plant to charging station should be taken into account, when analyzing electric vs ICE. That 100mpg can drop significantly in the overall scheme of things.
I know that you speak of something else, and not that specifically.