Experimental investigation on accelerated generation of HHO gas using titanium electrodes with platinum and mixed metal oxide coating - A comparative study.

HHO gas is an alternate source of fuel that can be used in automobiles as a clean fuel with reduced carbon emissions, replacing the conventional hydrocarbon fuels being used today. Many different methods are involved in the production of this gas. Among these methods, alkaline water electrolysis is one of the easiest and most reliable methods for production. Though there are many limitations in the storage of Hydrogen, the HHO gas has been produced on-site using alkaline water electrolysis. This article mainly focuses on the production of HHO gas for different operating parameters and conditions, such as change of electrolyte, electrode material coating, effect of temperature and the surface area of the electrode. The electrolytes used in the electrolyser are sodium hydroxide (NaOH) and potassium hydroxide (KOH). The electrode material is titanium coated with two different materials namely Mixed Metal Oxide (MMO) and Platinum (Pt) respectively. A maximum yield of 0.9 LPM of HHO gas has been generated when supplying 40 amps of current to the electrolyser unit coated with MMO and KOH as electrolyte. Use of KOH electrolyte results in higher production rate when compared to NaOH. MMO coated titanium electrode produces more HHO gas when compared to platinum coated electrode. • Enhanced HHO gas generation of 0.9 LPM. • Increase in HHO production of 4.4 %. • Design and analysis of platinum and mixed metal oxide coated titanium-based electrolyser. • Effect temperature and current on HHO gas production. • Effect of different Electrolytes on HHO production rate. [ABSTRACT FROM AUTHOR]