Hydrogen-oxygen generators are widely used in pharmaceutical companies for ampoule sealing, meeting GMP standards. By generating a hydrogen-oxygen flame through specialized equipment, they can be used for welding, brazing, fusion, annealing, and localized heat treatment of various materials such as motor enameled wire, copper pipes, gold and silver jewelry, quartz glass, eyeglass frame hinges, thermocouples, LED chips, and lead-tin alloy plates for batteries. They have applications in the motor and refrigeration welding industries, and can replace gases such as acetylene and propane. This technology can also be used in the metallurgical industry for continuous casting slab cutting, replacing traditional acetylene and propane cutting to reduce pollution and carbon emissions. Utilizing its catalytic combustion characteristics, this technology can be used in clean coal combustion, hazardous waste incineration, and industrial heating furnaces, achieving energy conservation, emission reduction, and suppression of pollutants such as dioxins. As an intermediate product in water electrolysis for hydrogen production, after separation and purification, high-purity hydrogen can be obtained for use in hydrogen metallurgy, hydrogen chemical industry, and hydrogen refueling stations. This process features a short route, long electrolyzer lifespan, and low system maintenance costs. It can also be used for flame polishing of acrylic glass, precision parts processing, etc.
Hydrogen generators are mainly used in the glass and electronics industries, as well as annealing furnaces, while oxyhydrogen generators are mainly used for cutting various non-ferrous metals, cutting carbon steel, drawing and sealing water injections in pharmaceutical plants, and other flame processing applications.
