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how much hydrogen and oxygen are required to produce one liter of ethanol.


how much hydrogen and oxygen are required to produce one liter of ethanol.

We would appreciate your help very much. We would love to present our invention to the Department of Energy, but we would like to give them an idea of our production. It would help us very much if you could tell us how much hydrogen and oxygen are required for one liter of ethanol and these other products: ammonia, oxygen, nitrogen, and methanol.

Thank you very much. We are trying to produce green products, mainly hydrogen. (


Giovanni Sarazua






We are providing solutions and not illusions.

We will be able to provide green hydrogen at a cost that will not affect the global economy. By being scalable, we can meet any market need. Innovation is sometimes renovation, and the conversion of existing equipment will be faster, greener, and cheaper than replacing existing equipment. We are in an emergency, and the interests of all should override the interests of some.

‘Trust but verify” give us the chance to prove that the “proof is on the pudding.”


The name of our equipment in Latin means "to give more than expected." We believe EXCEL will be better than expected because it can produce green hydrogen with 99.99% purity without using energy or water from external sources.

While we are undergoing this transformational metamorphosis, we can in the meantime reduce the amount of CO2 and other toxic gases that we put into the air. Adding green hydrogen to crude oil increases its volume and yield, which helps make petroleum products. We can make fuel, paint, alcohol, solvents, nylon, and most petroleum-based products. By injecting hydrogen on natural gas, we can Increase the BTU’S helping with the decarbonization process.

EXCEL can also produce other green products like ammonia, oxygen, nitrogen, methanol, and ethanol and purify and desalinate water.

EXCEL is an on-demand, autonomous, on-site, tankless, compact, transportable, scalable, and modular system that does not need storage tanks, logistic or transportation centers.

Produce energy without consuming energy and water from any other source

EXCEL only needs a power source to boot the system. We used two batteries of 12- volts and 5.5-amps with the current equipment. Then we disconnect the batteries, and EXCEL uses its power to produce 99.99% pure green hydrogen and other products.

Water harvesting from moisture

To produce hydrogen, we need water and energy. By harvesting water and cogenerating energy, EXCEL only needs start-up power; from there, it works independently. The size of the water harvesting equipment will depend on the average moisture level to produce. Their size will be smaller in humid areas compared to low-humidity regions.


Automatic on-site production

The modular idea lets us build green hydrogen plants of any size that can be monitored and controlled in real-time and shut down automatically in case of an emergency. Our units can be even in remote areas.


Its compact size dramatically reduces installation space, cost, time, labor, and risk factors.

The miracle of water, energy, and vibration combined.

Our system is an electromagnetic resonance device for changing the molecules, atoms, and chemicals in the water. It does this by using magnetic resonance to separate oxygen and hydrogen from water while using as little energy as possible without violating any thermodynamic laws.

We do not use electrolysis to produce green hydrogen because electrolysis takes a lot of energy to produce hydrogen, and the cost of doing so is so high that it is not worth it.

Moving from gray to green energy will be easier and faster in harmony and synchronization. We must understand that we cannot just turn the switch on-off and magically wait for the changes. WE MUST ACT WITH HUMAN SENSITIVITY AND APPROPRIATE STRATEGY

Existing energy industries have a wealth of knowledge that should not be overlooked. They deserve the recognition that we would never have made as much progress as we are now without them. By involving those who work in the grey energy and fission industries, we can reduce chaos and increase damage by making them part of the solution rather than seeing them as the problem. The best way to avoid future confrontations is to address the source of potential problems. When they become part of the solution, they will no longer be identified as part of the problem.


We can use the burned and polluted gases from oil refineries and factory smokestacks now, not later. We can extract clean gas of it, this clean gas will be converted into plant energy, hydrogen, nitrogen, and/or other products. There are ways to produce products from the remainder of the waste it is posible that there is no need to bury them or at least reduce.

Innovation through renovation

By combining innovation with renovation, we can improve what we already have in existence and accelerate the change from gray to green faster than we thought. Electric, diesel, and gasoline motors can be transformed to use hydrogen for any size or purpose. This is faster, cheaper, and green.

Because EXCEL is compact and scalable, this system can be installed on transport and tourist vessels, even large aircraft, and many other applications. In the form of ammonia or using one of the many ways to store energy using hydrogen cells.

Electric cars rely on grey energy until we make it green, but for now, electric cars are an ecological fallacy as the electricity that they consume is mostly grey.

Can we evacuate from hurricanes with electric vehicles? — Princeton University

Californians asked not to charge electric cars during heat wave (

Our Mission

To provide our excellence by collaborating in harmony to solve the world's enormous healing problem. Produce green energy sources and products and minimize CO2 pollution and other polluting gases while undergoing the metamorphosis of transformation to extend the existence of our humanity.

What we need

We are now on the seventh version of EXCEL. Our actual production is not as high as it could be because we cannot raise the pressure on the equipment as much as we should. We need to ensure the equipment meets the standards for its use, giving it the safety and efficiency, it needs to be tested in the real world and adding margins for error. Instead of making another prototype, we are ready to build a working unit and get it up and running to meet the needs of the learning curve in an actual location. It could be a hospital, school, hotel, a city or even a small country. And for that, we need financial support.




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