Our high-performance industrial boilers, powered by oxyhydrogen (HHO) gas, provide sustainable and efficient heating solutions for large-scale operations. Oxyhydrogen, produced through electrolysis, burns cleanly, generating heat and water vapor without harmful emissions. This eco-friendly alternative to fossil fuels significantly reduces the carbon footprint of industrial processes. These boilers offer reliable, high-temperature performance with advanced safety features, making them ideal for industries such as manufacturing, food processing, and chemical refining.
Our recent development involves optimizing a Rankine Cycle by utilizing HHO (Hydrogen-Hydrogen-Oxygen) gas as a heat source. The HHO gas, produced through electrolysis, heats water in a boiler to generate steam. This steam is then directed through a turbine, converting thermal energy into mechanical energy. Finally, the turbine drives a generator to produce electricity. Our base design is a 24 Mega Watt hour plant, leveraging the high-temperature capabilities of HHO gas to enhance the efficiency and sustainability of the Rankine Cycle.
Heat Line
Our advanced hydrogen-powered stoves provide efficient and clean heating solutions for commercial and industrial settings. These stoves utilize hydrogen gas, produced through electrolysis, which combusts with oxygen to generate heat and water vapor, ensuring zero carbon emissions. The high energy content of hydrogen allows for rapid heating and precise temperature control, making these stoves ideal for various cooking and heating applications. Additionally, they are equipped with multiple safety features, such as automatic shut-off valves and flame sensors, ensuring safe and reliable operation
Synthetic Plasmatic Waste Treatment
Our electrochemical system for synthetic plasmatic treatment of non-recyclable material is designed with highly resistant materials to ensure durability and efficiency. This system utilizes HHO (Hydrogen-Hydrogen-Oxygen) gas to convert non-recyclable waste into useful products with minimal gas emissions. The use of HHO, produced through electrolysis, ensures a clean and efficient process, generating heat and water vapor without harmful pollutants. By leveraging the high-temperature capabilities of HHO, this technology offers a sustainable solution for waste management, significantly reducing the environmental impact.
Fuel Saving Line
Our revolutionary solution for generators and diesel engines uses oxyhydrogen (HHO) technology to enhance fuel efficiency and reduce emissions. By injecting HHO gas into the air intake, the combustion process becomes more complete and efficient, leading to fuel savings of 15% to 30%. This cleaner combustion also reduces harmful emissions like nitrogen oxides (NOx) and particulate matter. The technology is particularly beneficial for long-haul trucks and large transportation equipment, providing increased power and helping fleets meet environmental regulations.
Why Choosing Our Electrolyzers?
- Our products are cutting edge Very low cost HHO production.
- The return on investment (ROI) for our boiler applications, when compared to Natural Gas, Fuel Oil, or Electric options, can be as short as 11 months.
- Our smallest unit consumes 0.06 kW/ hr and produces 45 liters of HHO
- Our products have been tested in multiple uses such as Tested in motorcycles, generators, cars, boat engines, heaters and torches.
- Our electrolyzer has a compact and economical design.
The table below provides a comprehensive overview of the technical characteristics of our electrolyzers.
| Application | Reactor Type | Average Input Power (kW-hr) | HHO Flow (L/ min) | Water Consumption (Lt/ Hr) |
| Small Engines & Blowtorches | Electrolyzer A12-11P | 0.06 | 0.75. | 0.024 |
| Stoves, Torches and Engines up to 2000 cc | Electrolyzer A16-11P | 0.16 | 1.64 | 0.049 |
| Stove, heaters, pre-heaters, boilers and engines up to 4.5 Lt | Electrolyzer A20-11P | 0.29 | 2.56 | 0.083 |
| Small Furnace, Stoves, pre-heaters, boilers, and big block engines. | Electrolyzer A24-11P | 0.53 | 3.87 | 0.125 |
| Medium Furnace, Stoves, Heaters and Boilers | Electrolyzer A32-11P | 0.74 | 7.3 | 0.237 |
| Large Furnace, Stoves, Heaters and Boilers | Electrolyzer A32-33P | 2.11 | 21.9 | 0.710 |
| Larger Furnace, Heaters and Boilers | Electrolyzer A36-33P | 2.72 | 26.0 | 0.842 |
Future applications under development:
- Absorption Heat pumps: Absorption heat pumps (AHPs) are a type of heat pump that uses thermal energy, such as oxy-hydrogen, natural gas, steam or solar-heated water instead of electricity. They operate using an ammonia-water absorption cycle, where ammonia acts as the refrigerant. Unlike traditional compression heat pumps, AHPs do not use a mechanical compressor; instead, they rely on a heat source to drive the absorption process. These heat pumps are particularly useful in industrial or commercial settings and large residential homes.
- Direct Exhaust Air Capture and Conversion into Graphene: Direct air capture (DAC) of CO2 and its conversion into graphene is a promising technology for environmental sustainability. This process captures carbon dioxide directly from the atmosphere and converts it into graphene, a valuable material with numerous applications. This technology not only reduces atmospheric CO2 levels but also provides a sustainable method to produce graphene.