Diesel internal combustion engine converted to hydrogen?

In summary, this site says that you can convert a diesel engine to run off of hydrogen by vibrating the electrodes and using the hydrogen gas. However, other sources say this is not feasible.
  • #1
bennis
2
0
Okay, so I've found this site (http://www.spiritofmaat.com/archive/feb2/carplans_doc.htm) and it claims to have a reliable method to convert a diesel engine to run off of hydrogen. Now, my question is is this actually feasible in the method they've described? I've asked two other sources and so far they say that it isn't. If you have the time to read through it and come to a conclusion, that would be great, but if you don't have the time please don't just skim through it. Thank you for any of your help!
 
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  • #2
Forget it. This is a free energy (perpetual motion) scam. You will never get more energy out than you put in, especially with an internal combustion engine.

Bob S
 
  • #3
hi bennis. A careful read through isn't required. This topic has been brought up dozens of times here so you may want to search on perpetual motion machines. Hopefully they're all locked because it's utterly hopeless to produce such a machine. Generally they're just rip-offs. Don't waste your time with perpetual motion machines, they don't work.
 
  • #4
This isn't a perpetual motion machine though, it quite plainly requires input electricity from the battery to produce hydrogen and then uses the hydrogen as a fuel source. The part that i think may not work is using the hydrogen gas in the modified engine.
 
  • #5
bennis, this is straight off the web page:
How It Works

Exceedingly simple. Water is pumped as needed to replenish and maintain the liquid level in the chamber. The electrodes are vibrated with a 0.5-5A electrical pulse which breaks 2(H2O) => 2H2 + O2. When the pressure reaches say 30-60 psi, you turn the key and go. You step on the pedal, you send more energy to the electrodes, and thus more vapor to the cylinders; i.e. fuel vapor on demand.

You set the idle max-flow rate to get the most efficient use of power, and you're off to the races.

In the big picture, your free energy is coming from the tap water in an open system, as the latent energy in the water is enough to power the engine and hence drive the alternator and whatever belt-driven accessories. And the alternator is efficient enough to run the various electrical loads (10 - 20 amps), including the additional low current to run this vapor reaction. No extra batteries are required.
That's called "perpetual motion"... (got you on the hook, don't they?) ;)
 

1. How does a diesel internal combustion engine convert to hydrogen?

A diesel internal combustion engine can be converted to run on hydrogen by replacing the fuel injection system with a hydrogen injection system and modifying the engine's compression ratio to accommodate the different combustion properties of hydrogen.

2. What are the benefits of converting a diesel engine to run on hydrogen?

Converting a diesel engine to run on hydrogen can reduce emissions of harmful pollutants such as carbon monoxide, particulate matter, and nitrogen oxides. It can also decrease dependence on fossil fuels and contribute to a more sustainable energy system.

3. Are there any drawbacks to converting a diesel engine to run on hydrogen?

One potential drawback of converting a diesel engine to run on hydrogen is the higher cost of the conversion. Additionally, hydrogen fueling infrastructure is not yet widespread, making it difficult to find fueling stations for vehicles using this technology.

4. Can any diesel engine be converted to run on hydrogen?

Most diesel engines can be converted to run on hydrogen with the proper modifications. However, some older engines may not be suitable for conversion due to their design or condition.

5. What is the difference between a hydrogen-powered diesel engine and a traditional diesel engine?

A hydrogen-powered diesel engine uses hydrogen as fuel instead of diesel, resulting in lower emissions and potentially higher efficiency. The combustion process is also different, as hydrogen burns faster and cleaner than diesel, requiring modifications to the engine's compression ratio and fuel injection system.

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