A.T, Arun Shrinivas; Akash, A; Nair, Avinash J; Kapilesh, KArun Shrinivas; Akash, A; Nair, Avinash J; Kapilesh, KA.TBal, Sasmita2026-05-102026-05-102019-06https://gnanaganga.alliance.edu.in/handle/123456789/10798Electro-chemical process in which current is passed between two electrodes through an ionised solution (electrolyte) to deposit positive ions on the negative electrode (cathode) and negative ions on the positive electrode (anode). This overall system of separating the ions is referred to an electrolytic cell. This process is called electrolysis. Electric current causes positively charged hydrogen ions to migrate to the negatively charged cathode, where a reduction takes place in order to form hydrogen atoms. Similarly, oxidation takes place at anode, where the oxygen is gathered. It is a very well-known fact that hydrogen is a highly combustible gas with an estimated calorific value of 150kJ/g and that oxygen is a supporter of combustion. Hence, the Oxy-Hydrogen gas combusts with only water vapour as the combustion product. This could essentially make it an ideal fuel. This project gives the complete knowledge about the usage of Oxy-Hydrogen gas for house-hold and other usages by regulating the flow of gas which we obtained through the electrolysis of water. We also made an optimization study on the rate of production of the gas using various catalysts like Commercial Baking soda (Sodium Bi-Carbonate), Commercially available iodised salt (Sodium Chloride) and Potassium Hydroxide. Here, we are using the generated gas to act as a fuel source to run an in-house fabricated cooking stove. The main objective here is to make an affordable Oxy Hydrogen powered gas stove which can be used in remote rural areas where they use firewood to cook food which emits serious amount of pollutants.enElectro-Chemical ProcessGas GeneratorOxy-Hydrogentext::report