Electrolysis of Water Generator Heating Process Principle Science Physical Experiment Teaching Model High Efficiency Lager Size
The dry type oxyhydrogen generator has the advantages of high efficiency, high gases production, easy maintenance and fine heat dissipation. The electrolyzed water generates H2 + O2, and they ignites to generate water, and there is no slight pollution in this process. Add water after the liquid has fallen, and only electricity is consumed. Unlike ordinary gases, solid, and liquid fuels, there is no carbon dioxide generation during the heating process, and there is no such thing as insufficient combustion, and there are no by-products such as blackening and carbon ash.
Features: Eco-friendly and no any other pollution. Anti-tempering protect, 304 stainless steel, high power supplies. Dry oxyhydrogen generator structure, sodium hydroxide electrolyte. Small size, high efficiency, high gases production, easy maintenance, fine heat dissipation, etc. The main structure of the product adopts transparent acrylic design, it is intuitive and clear. Easy to handle it. Safety and durability, high reliability. Can be used in school teaching, glass heating, jewelry heating, hydrogen and oxygen welding, thin metal cutting, and various heating.
.Color: As Shown .Material: Acrylic + Stainless Steel .Input Voltage: 12V DC or 110-220v AC .Output Power: 200-300W .Product Size: 20 x 30 x 35cm .Product Weight: 6500g .Package Dimensions: 20 x 30 x 35cm .Package Weight: 6600g .Packing: Carton Box
Note: Please allow 1-3mm error due to manual measurement. Due to the difference between different monitors, the picture may not reflect the actual color of the item.
Attention: The product received, the water inside is normal. Be sure to wait for more than half a minute to re-ignite to protect tempering and bursting. Do not close the valve after power-on. If it needs to be closed, be sure to close the valve and disconnect the power immediately. The burning gases is extremely hot and cannot be touched by hand.
Method of Use: First dissolve sodium hydroxide in water to form a saturated solution. Pour the liquid into the reaction chain along the copper tube. The liquid height is about 3/5. Screw on the copper tube and add 2/3 of the water to the side of the acrylic tube. Open the valve. Wait for half an hour while powering up, emptying the air. Ignition. If you need to shut down, be sure to turn off the valve before turning off the power.