Posted on 01/02/2009 1:30:04 PM PST by Red Badger
Can a car run on water?
Bend businessman Rob Juliano claims it can, despite ample skepticism from scientists and automotive experts.
Although the average price of fuel has slipped dramatically from a summer high of more than $4 per gallon, Juliano believes water specifically the hydrogen contained in water can be used to power an internal-combustion engine at a fraction of the cost of gasoline.
Hydrogen is being pursued as a fuel by car manufacturers. Honda earlier this year debuted its FCX Clarity, a hydrogen fuel cell vehicle powered by an electric motor. BMW has developed a car that can use either gasoline or hydrogen to power a traditional motor.
Juliano, however, is peddling something a bit different. Through his company UnitedH2O.com the 1984 graduate of Bends Mountain View High School builds and installs electrolytic hydrogen generators. They are small, footlong canisters that use electricity from a car battery to break water into its gaseous components, hydrogen and oxygen.
The gases are then funneled into the engine, where due to the combustive nature of hydrogen it is used to help drive an engines pistons. The process means less gasoline is injected into the piston cylinders, hence the car can travel farther on less gas, thereby increasing the cars fuel efficiency. In other words, Juliano says cars with his system get more miles per gallon.
Lincoln City resident Linda Young, who paid roughly $1,100 to have Juliano install the system, says her gas mileage has increased nearly 65 percent. Her Nissan Maxima used to get roughly 17 miles per gallon, but the last time she checked, it was getting 28 miles per gallon, she said.
(Excerpt) Read more at bendbulletin.com ...
The molecular structure packs in more hydrogen in gasoline per volume that H2 does.
A cubic foot of Hydrogen weighs 4.23 lbs
http://www-safety.deas.harvard.edu/services/hydrogen.html
A cubic foot of gasoline weighs 42.5 lbs
http://www.engineeringtoolbox.com/density-specific-weight-gravity-d_290.html
But 15.8% of the weight (assuming octane) is hydrogen.
C8H18
Molecular Mass H = 1, C = 12 (simplified, not exact)
That means the same volume of gasoline contains 6.71 lbs of hydrogen or nearly 60% more hydrogen.
Molecular bonding of atom allows for much more dense packing of the atoms that H2 alone is capable of.
That is just the way gasses act. At standard temperature and pressure (0 deg. C and 14.5 psi) a mole (i.e., Avagadro’s number of atoms or molecules) of a gas will occupy 22.4 liters. The weight of that 22.4 liters will be the atomic or molecular weight of the gas, in grams.
Adios $1100.........
Apparently I run it, as long as the fuel holds out.......;^)
Please add me to the “magic energy” ping list. ;-)
I’m on uncledave’s renewable energy list but sometimes there are devices that don’t really qualify.
I think you need to post that pic to every one of RedBadger’s fake energy threads. Maybe he will get the hint.
Keep in mind when you are looking around there that the laws of physics need not apply and many of the devices have not panned out.
Dim, hazy recollections of things almost heard in some room with a chalkboard and an odd-looking gent in the front... Thanks.
Critics of the “energy-from-water” hydrogen extraction concept are quick to cite the first law of thermodynamics, stating that a perpetual-motion machine is not possible. But they fail to note that no claim to such a machine is being made.
In insisting that hydrogen generators can’t work in cars, a false assumption is at work; that the existing car engine is an efficient closed energy loop - input equals output - with no spare energy for the electrolysis process. Since mileage improvement with hydrogen generators has already been observed, and since not all such improvements can be attributed to altered driving habits, the only possibility is that, with the alternator whirring away, the charging system can produce excess electrical energy, more than the engine needs. The hydrogen generator is merely using some of that available energy for electrolysis. Additionally, the resulting hydrogen in this case is supplementing gasoline, not replacing it; perhaps even improving gasoline combustion. No perpetual motion claim here.
So, yes, these devices do not (yet) violate the laws of thermodynamics. And, yes, they aren’t perfect. But it is finally time for a complete shift in thinking on the hydrogen issue.
You want proof? take a hydrogen generator like mine or several systems that product a liter per minute of HHO gas from a car battery. Have it run into the throttle body of the engine for 45 minutes “with out” the engine running. then, turn the car on.... BOOM!!! I know this for a fact, it was part of my testing and it is also the reason I have insurance for these types of installs. This blew the top end of the engine up.
Critics of the “energy-from-water” hydrogen extraction concept are quick to cite the first law of thermodynamics, stating that a perpetual-motion machine is not possible. But they fail to note that no claim to such a machine is being made.
In insisting that hydrogen generators can’t work in cars, a false assumption is at work; that the existing car engine is an efficient closed energy loop - input equals output - with no spare energy for the electrolysis process. Since mileage improvement with hydrogen generators has already been observed, and since not all such improvements can be attributed to altered driving habits, the only possibility is that, with the alternator whirring away, the charging system can produce excess electrical energy, more than the engine needs. The hydrogen generator is merely using some of that available energy for electrolysis. Additionally, the resulting hydrogen in this case is supplementing gasoline, not replacing it; perhaps even improving gasoline combustion. No perpetual motion claim here.
So, yes, these devices do not (yet) violate the laws of thermodynamics. And, yes, they aren’t perfect. But it is finally time for a complete shift in thinking on the hydrogen issue
Critics of the “energy-from-water” hydrogen extraction concept are quick to cite the first law of thermodynamics, stating that a perpetual-motion machine is not possible. But they fail to note that no claim to such a machine is being made.
In insisting that hydrogen generators can’t work in cars, a false assumption is at work; that the existing car engine is an efficient closed energy loop - input equals output - with no spare energy for the electrolysis process. Since mileage improvement with hydrogen generators has already been observed, and since not all such improvements can be attributed to altered driving habits, the only possibility is that, with the alternator whirring away, the charging system can produce excess electrical energy, more than the engine needs. The hydrogen generator is merely using some of that available energy for electrolysis. Additionally, the resulting hydrogen in this case is supplementing gasoline, not replacing it; perhaps even improving gasoline combustion. No perpetual motion claim here.
So, yes, these devices do not (yet) violate the laws of thermodynamics. And, yes, they aren’t perfect. But it is finally time for a complete shift in thinking on the hydrogen issue
Critics of the “energy-from-water” hydrogen extraction concept are quick to cite the first law of thermodynamics, stating that a perpetual-motion machine is not possible. But they fail to note that no claim to such a machine is being made.
In insisting that hydrogen generators can’t work in cars, a false assumption is at work; that the existing car engine is an efficient closed energy loop - input equals output - with no spare energy for the electrolysis process. Since mileage improvement with hydrogen generators has already been observed, and since not all such improvements can be attributed to altered driving habits, the only possibility is that, with the alternator whirring away, the charging system can produce excess electrical energy, more than the engine needs. The hydrogen generator is merely using some of that available energy for electrolysis. Additionally, the resulting hydrogen in this case is supplementing gasoline, not replacing it; perhaps even improving gasoline combustion. No perpetual motion claim here.
So, yes, these devices do not (yet) violate the laws of thermodynamics. And, yes, they aren’t perfect. But it is finally time for a complete shift in thinking on the hydrogen issue
Critics of the “energy-from-water” hydrogen extraction concept are quick to cite the first law of thermodynamics, stating that a perpetual-motion machine is not possible. But they fail to note that no claim to such a machine is being made.
In insisting that hydrogen generators can’t work in cars, a false assumption is at work; that the existing car engine is an efficient closed energy loop - input equals output - with no spare energy for the electrolysis process. Since mileage improvement with hydrogen generators has already been observed, and since not all such improvements can be attributed to altered driving habits, the only possibility is that, with the alternator whirring away, the charging system can produce excess electrical energy, more than the engine needs. The hydrogen generator is merely using some of that available energy for electrolysis. Additionally, the resulting hydrogen in this case is supplementing gasoline, not replacing it; perhaps even improving gasoline combustion. No perpetual motion claim here.
So, yes, these devices do not (yet) violate the laws of thermodynamics. And, yes, they aren’t perfect. But it is finally time for a complete shift in thinking on the hydrogen issue.
Rob Juliano
Critics of the “energy-from-water” hydrogen extraction concept are quick to cite the first law of thermodynamics, stating that a perpetual-motion machine is not possible. But they fail to note that no claim to such a machine is being made.
In insisting that hydrogen generators can’t work in cars, a false assumption is at work; that the existing car engine is an efficient closed energy loop - input equals output - with no spare energy for the electrolysis process. Since mileage improvement with hydrogen generators has already been observed, and since not all such improvements can be attributed to altered driving habits, the only possibility is that, with the alternator whirring away, the charging system can produce excess electrical energy, more than the engine needs. The hydrogen generator is merely using some of that available energy for electrolysis. Additionally, the resulting hydrogen in this case is supplementing gasoline, not replacing it; perhaps even improving gasoline combustion. No perpetual motion claim here.
So, yes, these devices do not (yet) violate the laws of thermodynamics. And, yes, they aren’t perfect. But it is finally time for a complete shift in thinking on the hydrogen issue.
Rob Juliano
Critics of the “energy-from-water” hydrogen extraction concept are quick to cite the first law of thermodynamics, stating that a perpetual-motion machine is not possible. But they fail to note that no claim to such a machine is being made.
In insisting that hydrogen generators can’t work in cars, a false assumption is at work; that the existing car engine is an efficient closed energy loop - input equals output - with no spare energy for the electrolysis process. Since mileage improvement with hydrogen generators has already been observed, and since not all such improvements can be attributed to altered driving habits, the only possibility is that, with the alternator whirring away, the charging system can produce excess electrical energy, more than the engine needs. The hydrogen generator is merely using some of that available energy for electrolysis. Additionally, the resulting hydrogen in this case is supplementing gasoline, not replacing it; perhaps even improving gasoline combustion. No perpetual motion claim here.
So, yes, these devices do not (yet) violate the laws of thermodynamics. And, yes, they aren’t perfect. But it is finally time for a complete shift in thinking on the hydrogen issue.
Rob Juliano..
You REALLY don’t know what you’re talking about.
As to your claim, the energy flow in an automobile basically works as follows:
gasoline combustion -> mechanical energy + electrical energy (to the alternator) + heat loss
It is well established chemistry that it requires more energy to crack water into hydrogen and oxygen (via electrolysis) than can be obtained by later burning the hydrogen.
Therefore, in terms of combustion, you are actually losing useful energy by first producing hydrogen and oxygen and then burning at as fuel, because the energy needed to crack the water comes from burning gasoline via the alternator.
This is why your claim violates the rules of basic thermodynamics.
The only other possible way your claim could be true is if the addition of hydrogen to the combustion process somehow acts as a "special sauce" that improves the combustion efficiency of gasoline to the point where that extra efficiency can offset the energy loss in producing the hydrogen.
While this is theoretically possible, it is not plausible. First, there is no science to suggest that this is true, and second, if it were true, automobile companies would have been including hydrolysis systems in cars for years.
Therefore, I conclude your claims are impossible, but thanks for posting ;)
If it works, start building functional engines and sell them.
I'm waiting.
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