THE EFFECTIVENESS OF SEPARATION HYDROGEN BY ELECTROMAGNETIC FORCES TO EFFICIENCY ELECTROLYSIS OF WATER COMBUSTION OF HYDROGEN

Zikri, Ahmad and Trisnaliani, Lety and Purnamasari, Indah (2016) THE EFFECTIVENESS OF SEPARATION HYDROGEN BY ELECTROMAGNETIC FORCES TO EFFICIENCY ELECTROLYSIS OF WATER COMBUSTION OF HYDROGEN. Proceeding Forum in Research, Science, and Technology (FIRST) 2016. ISSN 2461-0739

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Abstract

Hydrogen become one of the alternative energy are constantly being developed to get optimal production. One way of obtaining hydrogen is through the process of electrolysis of water. Related research electrolysis of water is constantly evolving to obtain energy consumption to a minimum, and generally gaseous hydrogen and oxygen are produced are still in mixed conditions. Needs to be done to the separation process due to the combustion process can be release of energy quickly or explosion if hydrogen concentrations of more than 18.3% by air. To avoid it then we do research to separate the hydrogen and oxygen using electromagnetic force. So that hydrogen is separated not in a state of excess oxygen and can be burned directly in free air. Electric current for direct current (DC) voltage regulation varied premises for 11-15 Volt and supplied to the anode and cathode in the form of stainless steel pipe which leads to a potential difference ionizes water molecules into H + and O- ions. Through electromagnetic induction, written after the ionization step, hydrogen ionic compounds that are positively charged and negatively charged ionic oxygen flow can be maintained to remain separate in a different formation zones. The production of pure hydrogen gas is the maximum generated at a voltage 15 V (2 A) that is equal to 1:10 ml / sec using a solution concentration of potassium hydroxide 1 M.

Item Type: Article
Uncontrolled Keywords: Pure Hydrogen, Electromagnetic, Electrolysis
Subjects: T Technology > TD Environmental technology. Sanitary engineering
T Technology > TP Chemical technology
Divisions: General > Proceeding and Seminar
Depositing User: Administrator EPRINTS POLSRI
Date Deposited: 30 May 2017 06:02
Last Modified: 30 May 2017 06:02
URI: http://eprints.polsri.ac.id/id/eprint/3575

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