The simulated values closely represented the experimenta deviations of all modeled from experimental values are between +0.08 and research is to serve as an encouraging inquisitive foundation into the possibility of producing c directly from solar powered electrolytic diaphragm cells, with the possibility of designing better cells in future. From the investigation, the non asbestos diaphragm cell type, with performances that indicated higher yield of caustic soda per d.c Watt. As observed, the asbestos and non characteristic performances, which is a reflection of their design, fabrication, composition and operational parameters. With the aid of the asbestos and non unwanted substances as well as permit reasonable production of the desired products hydrogen were produced. The method may include receiving hydrogen gas at an anolyte region of an electrochemical cell including an anode, the anode including a gas diffusion electrode, receiving an anolyte feed at an anolyte region of the electrochemical cell, and receiving a catholyte feed including carbon dioxide and an alkali metal. Carbon rods and stainless steel plates were used as the anode and cat solution. The present disclosure is a method and system for the reduction of carbon dioxide. The application of mathematical models for the operational simulation of asbestos and non diaphragm-type electrolytic cells, powered by an array of solar panels was carried out.
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