COLDFISSION Reactions in water in real time

Cold Fission Green Hydrogen has the potential to change most of these issues. Firstly, by having the ability to produce low-cost green hydrogen without heat or pressure. Secondly, this technology only requires nature to create its very powerful Cold Fission Reactions which require very little energy.

Thirdly, if hydrogen fueled Jenbacher J420 type generators or Cummins Generators are used they are estimated to consume only around 10% of the hydrogen produced from the Cold Fission Green Hydrogen Generators.

SOLUTION: Now we have the possibility of” hydrogen producing hydrogen”, how green can you get!

This ability of the Cold Fission Green Hydrogen Generators to produce hydrogen at  such a low price changes the future of hydrogen fuels, the ability of this new Cold Fission technology to break down almost all of the elements in H2O except for the hydrogen (H2) atoms has the potential to create a completely new way to produce hydrogen gas below the magic $1.00 USD per kilogram mark, (11,000 liters), may just be possible, Low-cost fuel from water is the dream of humanity. Please Note: Both Low-pressure Cold Fission Green Hydrogen Generation, and High-pressure Electrolysis Systems, have pluses and minuses as illustrated below: All numbers quoted below are best estimates only.

COLD FISSION GREEN HYDROGEN:

Energy required to produce Hydrogen gas @ Nm3 atmospheric pressures of 1 Bar above Nm3 Atmospheric pressure requires approximately 12–15 kW, per hour utilizing mains energy in Australia priced at around $0.25 cents per KWH to produce an estimated 10-50 liters of low-cost Hydrogen gas for around 1 cent AUD. If Utilizing Hydrogen Fueled Jenbacher or Cummins type Generator Systems to produce the energy, (Hydrogen producing Hydrogen), or similar if using large Fuel Cells to produce the Co2 free electricity. (Please note: it is unwise to use mains electricity to produce hydrogen, as it is mostly produced from carbon based fuels).

The Gas flow of these Cold Fission Hydrogen Generators is produced at less than 1 Bar above Nm3, it will require around 6.3 liters of hydrogen produced at this pressure to become approximately 1 liter of hydrogen gas @ 10 bar of pressure which is required to fuel combustible engines and most Fuel Cells. 440 liters of Hydrogen gas can be compressed into 1 liter at a pressure of 700 Bar. It takes 11,000 liters of Hydrogen gas to weigh 1 kilogram or 2.2 LBS. A 125-liter Hydrogen high pressure vehicle fuel tank can hold 5 kilograms of Hydrogen (H2) gas @ 700 Bar which is equal to around 55,000 Liters of Hydrogen Gas produced @ 1 Bar of pressure @ Nm3. Our estimations are that 1kilogram of hydrogen is equal to between 10 liters plus of liquid petroleum Benzine/Petrol.

ELECTROLYSIS:

Energy required to produce 1,000 liters of Hydrogen gas is approximately 5 KW or they require approximately 4-5KW or 4,000-5,000 watts per 1,000 liters of Hydrogen Gas, best estimate. (Google Toyota Hydrogen testing Melbourne) (Strategic Synergies. 2024 otcasia.org).

COLD FISSION GREEN HYDROGEN:

Water volume required; it is estimated that 1 liter of water (H2O) will produce an estimated 1,200 liters plus of Hydrogen gas when produced by Cold Fission Generators. No water pre-treatment is required when using Cold Fission Green Hydrogen Generators as the system will destroy any unwanted toxic, or polluting elements in the water including toxic chemicals, bacteria, viruses, odor or color.

ELECTROLYSIS:

Estimated water volume required to produce 1,200 liters of Hydrogen gas may require up to 150 liters of possibly specialized treated water, or an estimated 1 liter of water to produce 8 liter of Hydrogen gas. (Google, toyota hydrogen trial Melbourne.com.au) (toyota to assemble) & (google: Electrolysis of water, Efficiency Wikipedia)

COLD FISSION GREEN HYDROGEN:

Water pre-treatment is not required because the Cold Fission Green Hydrogen Generators will break down and destroy any unwanted elements in the H2O. This includes chemical destruction, and any unwanted elements will no longer be present in the H2O within 5 minutes of initial operation. The system will also make any water added into alkaline water.

ELECTROLYSIS:

Water pre-treatment processes may require some Demineralization of the H2O before usage, although sodium and other additives are sometimes added. (Google, Impact of impurities in water electrolysis) (google, how inefficient is electrolysis)

COLD FISSION GREEN HYDROGEN:

Electricity may be produced using less than 10% of the Cold Fission Generated Hydrogen gas produced in the Cold Fission Generators, for powering Hydrogen fueled “Jenbacher” J420 or Cummins type Electricity producing Generators to produce the Hydrogen Gas. If Fuel Cells are used to produce the Electricity they would require a slightly less quantity. (Hydrogen producing Hydrogen) (“How green can you get”). No battery backup is required. (one spare Hydrogen fueled generator for backup is recommended)

ELECTROLYSIS:

Requires potentially expensive wind and solar farms to produce the electricity required to be classed as “green”. (May still require a battery backup energy storage source), as the wind does not always blow, and the sun does not always shine! (Google toyota hydrogen trial Melbourne). www.hydrogeninsight.com) There is no such thing as free energy, all energy has a price. In addition, large land areas may also be required especially in relation to solar energy.

COLD FISSION GREEN HYDROGEN:

Can Cold Fission Green Hydrogen turn any other gases into pure Hydrogen Gas, YES, C.F.G.H. has the potential to turn any Gas or Fuel made up with a molecular structure of Carbons, and Hydrogen atoms such as Methane (CH4), plus others  into pure Hydrogen, because the Fission Reaction will break down and destroy any Carbon (C) element because it has 6 very destructible Carbon (C) Electrons( with no discharge to atmosphere), but it cannot destroy Hydrogen, Protium (H1), Deuterium (H2),and Tritium (H3), all Hydrogens with their single indestructible electron, with Cold Fission, so all you can end up with is Hydrogen! (Google, all gases made up with a molecular structures of Hydrogens and Carbons).

ELECTROLYSIS:

Can Electrolysis turn any other gases into pure Hydrogen, NO, because Electrolysis cannot break down and destroy atomic elements.

COLD FISSION GREEN HYDROGEN:

Battery backup is not required.

ELECTROLYSIS:

Battery backup systems may be required to produce a constant Hydrogen gas flow, as the sun does not always shine, and the wind does not always blow! However, generators including Fuel Cells may be employed for short term backup.

COLD FISSION GREEN HYDROGEN:

Infrastructure and land area required, is very small, as little as 10 square meters for small triple Generating Reactor Containerized Systems, up to 2,000 square meters or half an acre of land would be required for a containerized building system of 200 x 40’ HQ containers, each containing 10 Generation Chambers, estimated to produce between 172,800,000 to possibly up to 864,000,000 liters of Hydrogen gas @ Nm3 plus 1 Bar of operating pressure, or 78,500 kilograms per day. (Variable speed system)

ELECTROLYSIS:

Infrastructure area for electrolysis requires larger land area plus specialized buildings. (google, small scale see toyota hydrogen trial Melbourne) For Large scale (Google: Mitsubishi Hydrogen Park Japan)

COLD FISSION GREEN HYDROGEN:

Flexibility of production utilizing Containerized Portable Systems, add or remove systems as required, total portability of production! Produce your Hydrogen on your own site, Gas/Petrol Stations, Power Stations, Mining Sites, Steel Mills, Trucking Companies, or Totally Decentralize the Energy Grid!!

ELECTROLYSIS:

Medium to Large Production Plants are normally required in comparison to CFGH, they can be portable, to a point but do not expect large volumes of H2, they will still require additional land area compared to CFGH systems.

COLD FISSION GREEN HYDROGEN:

Very small land footprint is required, even if large volumes are Hydrogen Gas are to be produced. (See Fission Green Hydrogen Container Building) decentralize your energy production, to where and when you need it. This shipping container building structure is demountable and relocatable, should the need ever arise.

ELECTROLYSIS:

A Large land footprint is normally required if large volumes of Hydrogen Gas are to be produced. (Google, Mitsubishi Hydrogen Park Japan)

COLD FISSION GREEN HYDROGEN:

Green Hydrogen gas may be produced on site wherever it is required. Only a high pressure 700 bar storage tank is required. As the pressure in the pressurized storage tank drops as it is being consumed a simple pressure switch will turn the Cold Fission Green Hydrogen Generators on and off again when the pressure in the storage tank reaches 700 Bar again. This low-pressure Hydrogen Gas production system will be automated and will not require operators unless it is a large, containerized building.

ELECTROLYSIS:

Hydrogen gas produced may require high pressure transport tankers to be delivered to the site where it is required. If larger production plants are utilized. Smaller Electrolysis plants can produce limited volumes of Hydrogen gas on site.

COLD FISSION GREEN HYDROGEN:

Cold Fission Green Hydrogen systems are estimated to produce around 1,200,000 (million) liters of Hydrogen (H2) gas from each 1 cubic meter, or 1,000 liters or 264 gallons of H2O consumed.

ELECTROLYSIS:

Normally approximately 1 liter of H2O is required to produce 8 liter of Hydrogen gas. So, 1 cubic meter or 1,000 liters of H2O is expected to produce around 150 liters of Hydrogen gas. (Google: toyota hydrogen eco park trial Melbourne Australia).

COLD FISSION GREEN HYDROGEN:

Production costs are very low, estimated to produce 40-50 liters of Hydrogen gas for around 1 cent, of (H2) gas produced at atmospheric Nm3 pressure plus 1 Bar using mains power @ 0.25 cents per KWH x 12KWH = $3.00 using mains power is not recommended if the electricity is being produced with a carbon based fuel. However, should the Cold Fission Generators be powered by Hydrogen fueled Jenbacher or Cummins type generators or Fuel Cells to produce Hydrogen H2, then possibly 50-100 liters plus liters of Hydrogen gas may be produced @ atmospheric Nm3 pressure plus 1 Bar (Further testing is required).

ELECTROLYSIS:

Current Hydrogen production costs can be quite high, estimated between 1 to 2 cents per liter. (Google Science Direct Green Hydrogen) (www.sgh2energy.com ). The average production price is hard to pin down on the real cost per liter of H2 gas, see website for further information. (Google, can electrolysis be made more efficient).

COLD FISSION GREEN HYDROGEN:

Hydrogen gas is produced at a very low pressure, less than 1 Bar, above atmospheric pressure Nm3, or just above atmospheric Nm3 pressure, (14.5 psi) this drastically reduces the risks during Hydrogen Gas production. The Green Revolution is Here!

ELECTROLYSIS:

Many Electrolysis systems produce Hydrogen utilizing very high-pressure Electrolysis may require pressures of around (1,740 psi 120 Bar) to (2,900 psi or 200 Bar), high pressures always increases costs. There are many and varied methods of Electrolysis Hydrogen production. (Google: high pressure electrolysis)

COLD FISSION GREEN HYDROGEN:

No Heat is produced or required by the Cold Fission Green Hydrogen Generation,  as Cold Fission Green Hydrogen Generators do not produce or require heat to produce large commercial quantities of Hydrogen gas @ Nm3 atmosphere pressure (water level) plus 1 Bar. Hydrogen Gas Dryers may not be required because no heat is created when producing the H2. (Further testing is required)

ELECTROLYSIS:

High temperatures can be generated and are normally between 700 to 1,000 degrees to produce H2, and may possibly be a real issue with high pressure electrolysis during Hydrogen gas production over long periods of time. High temperature always increases the energy required, not to mention a small risk of explosions which are rare but may occur. (Google; ScienceDirect)

COLD FISSION GREEN HYDROGEN:

Cold Fission Green Hydrogen does not require replaceable Cathodes and Anodes, they are not used in Cold Fission Green Hydrogen Generators. (This is Not an Electrolysis system).

ELECTROLYSIS:

Yes, Electrolysis requires Cathodes and Anodes, and generally they are produced from platinum or other expensive metals. Lower cost metals can and do normally degenerate too fast.

COLD FISSION GREEN HYDROGEN:

The purchase price of a 40’ containerized system, with 10 Cold Fission Green Hydrogen Generation Chambers can be purchased for an estimated $750,000 AUD or $500,000 USD. The CAPEX on this system if kept in full time Hydrogen Generated gas production may be less than 180 days.

ELECTROLYSIS:

The Electrolysis systems purchase price is difficult to quantify, it is said to be reducing, due to over production, but I would be surprised if the CAPEX could match that of the CFGH above.

COLD FISSION GREEN HYDROGEN:

Exporting Hydrogen gas to other countries is almost impractical as it need to be liquified and that means temperatures need to be kept below -253 degrees C. This is an expensive exercise. The export of this Fuel over long distances may be expensive. However, CFGH systems can be placed on site in any country to produce the Hydrogen where and when it is required, mainly in countries who are part of, and respect the World Trade Organization and the Intellectual Property Act.

This can be done by creating Joint Ventures, Franchising, or Licensing Sales agreements with or without royalties. Many large local and overseas companies, or countries including the licensing of states in large countries. This is a more practical way of exporting this very valuable green decarbonizing fuel.

ELECTROLYSIS:

Is used all over the world, this is at times considered an expensive method of producing Hydrogen and  can be built anywhere, as the technology is widespread and operates in many other countries, all countries can have wind and solar farms, and can also produce Hydrogen in its different forms, however nothing is expected to compete with Cold Fission Green Hydrogen Generation when it comes into production, only time will tell, further testing is required.

COLD FISSION GREEN HYDROGEN:

Cold Fission Green Hydrogen Generation has the potential to produce the lowest priced Green Hydrogen (H2) gas on the planet. The planned Licensing Sales of this powerful decarbonizing technology to large and small companies and countries around the world. These companies, or countries are expected to become great contributors to reducing climate change, and reduce the Co2 emissions, and may well vastly improve their profit earning potential, and the overall share value of their companies. “Save the planet, and you Save the people”. The result may take a mixture of Solar, Wind, and Cold Fission and Electrolysis is bound to be part of the mix. Low-Priced Decarbonizing Fuel from H2O, the dream of humanity.

HYDROGEN PRODUCTION FROM ELECTRON DESTRUCTION!!

If any information above is considered incorrect, please advise.

ADVANTAGES OF “COLD FISSION” WATER RENEWAL TECHNOLOGY!

• “Cold Fission” has the ability to Desalinate sea water without the use of filtering membranes
• “Cold Fission” Desalination Technologies do not discharge toxic salt brine back into our oceans
• “Cold Fission” Desalination Systems are green low-energy systems
• Desalinated water flowing from a “Cold Fission’ System is purified, does not need mineral additives or pH adjustment, no chemicals are required.
• “Cold Fission” Water Renewal Systems do not backwash or discharge waste.
• “Cold Fission” Water Renewal Systems can destroy color and odor in water
• “Cold Fission” Water Renewal Systems can destroy all viruses and bacteria
• “Cold Fission” Water Renewal Systems can breakdown and destroy chemicals elements and toxins in water
• “Cold Fission” Water Renewal Systems can break down and destroy heavy metals in water
• “Cold Fission” Water Renewal Systems can destroy all Carbon (C) in water
• Carbon (C) elements are destroyed by “Cold Fission” electron destruction (no discharge into the atmosphere)
• “Cold Fission” Water Renewal Systems are green low-energy systems
• “Cold Fission Water Renewal Systems can destroy toxic Ammonia (NH3) in all water including sewage water.
• “Cold Fission Water Renewal Technology can produce potable water from treated sewage water without chemicals.