FAQ pantone engine

Share this article with your friends:

Keywords: pantone engine pantone process, operation, assumptions, decrease pollution, consumption veracity.

To esssayer to end speculation about the different pantone process, here is a series of safe and some scientific facts about the assumptions that can be made about this process.

More explanations on the FAQ pantone engine

This FAQ page number 1 concerns 100 the mounting% pantone, it is the assembly on gasoline engine consisting in passing 100% of the fuel in the "reactor" supplying the engine, here are the plans: Pantone engine plans

In this connection we will now talk exchanger since, for the moment, it was possible to highlight any reaction except a heat exchange.

We assume that the reader knows the nature of the assembly if Plans pantone engine are available on this site.

How to modify my first Pantone engine?

We performed a complete game for beginners from Pantone, so click here Pantone Tutorial

There is a cracking of the hydrocarbon molecules in the reactor.


Indeed, during the chromatography C.Martz study showed that the average volatility of hydrocarbon gas entering the reactor was lower than the gas leaving the reactor.

Problem : It was not possible to identify the lightest hydrocarbon and it is not methane. It remains to confirm when and from which conditions this cracking occurs, also called reforming or vapocracking (due to the presence of water)
The details of this experiment are in the engineer's report, available here.

remaining uncertainties What is the gas leaving the reactor? What are the conditions for obtaining it (depression, T °?)

Water promotes the functioning of the process.


A measure pollution has shown that injecting water (in limited quantities) in the exchanger was falling pollutants without undermining the power. This measure is available on the page pollution control measures

In this case we can conclude that water promotes the functioning of the process but must still answer the question: how the water used in the reaction?

Oil well use a proven technique called vapocracking which involves injecting the superheated steam to facilitate cracking.

Here is a slightly more precise definition of these terms: "In chemistry, and more specifically in oil, cracking or cracking is the operation of breaking a complex organic molecule into smaller elements, including alkanes and alkenes. The conditions of temperature and pressure, as well as the nature of the catalyst are crucial elements of cracking.
One of the industrial manufacturing methods of hydrogen is high temperature hydrocarbon vapocracking: C3H8 + 6 H2O -> 10 H2 + 3 CO2. In oil refineries, cracking supplements the distillation of heavier products. "

remaining uncertainties : By what mechanism the water decreases Does pollution?

The method is not optimized.


Indeed, many aspects remain to understand and optimize. The most important aspect is the understanding of what is happening in the exchanger if anything, apart from a cracking, it happens. Even in the case of a simple cracking, one must understand the exact conditions (depression, T ° ...) this cracking and especially its nature (what it converts and how?).

It is only from this moment on: when we know the exact nature of what enters the engine that we can optimize its use "in" the engine. Engine compression ratio and ignition advance are, in our opinion, the 2 fundamental quantities to be optimized.

Indeed an increase in the compression rate results in a direct increase in engine efficiency and therefore a lower consumption. Engines are being designed for a 95 gold octane it is known that the octane lighter gaseous fuel CNG type are much larger (130). For the petrol engine a substantial performance improvement is expected in this aspect.

Regarding the ignition advance, you will know how to burn the gas exiting the heat exchanger to optimize it and make a proper mapping to this gas. For information, the speed of combustion of hydrogen (speed of the flame front) is 10 times faster than that of octane (gasoline) in stoichiometric mixture and it's a safe bet that the gas leaving the reactor is a much faster combustion than gasoline.

remaining uncertainties : Only an understanding of what is happening in the reactor can lead to optimization of combustion in the room. This requires means of engine analysis.

The Pantone engine is a water engine


This statement is completely false, but we can still read on some websites. Pantone process uses water but in any case it can not do without oil. That is until someone can prove otherwise.

In this sense, it is a means to rationalize the consumption of fossil fuels without without it (unlike renewables).

You can drive to 80% water with a Pantone


Again we continue to read this on some sites or hear this for some training. The truth is that in 20 30% of water are achievable maximum values ​​now. Please note, this does not mean that we not be able to increase this rate when you understand the process better.

Similarly to 20 30% savings is a correct number. Stay away from people who claim to have divided by 2 consumption with internet plans their car. These people may have something to sell you!

6) The Pantone engine does not work


It all depends on what criteria ... If it is based on 2 previous statements that are biased, yes, it does not.

If based on everything stated above, the process actually works!

Everything depends on the characterization criteria.

7) It is impossible to crack water to reactor temperatures.


Splitting water by pyrolysis: The first decomposition of water was made by Lavoisier, by passing steam over red-hot iron (pyrolysis). In so doing, it established that the water was not an element but a chemical body composed of several elements.

The water starts to become significant thermolysis to 750 ° C and is complete to 3 000 ° C. The reaction produces dioxygen and dihydrogen: 2H2O ↔ 2H2 O2 + (

source: Wikipedia


This point of 750 ° C can be further decreased by the presence of catalyst such as platinum and chromium. The ceriated steel, alloyed with cerium, would also be a strong catalyst for the thermolysis of water.

Participate in the development of these FAQs!

For any comments or further questions, please use le forum about FAQs and questions about the pantone engine


Leave a comment

Your email address will not be published. Required fields are marked with *