Methane Hydrate Decomposition with Radio Frequency Argon Jet Plasma

The purpose of this study is to decompose methane hydrate into hydrogen gas by the in-liquid plasma method. Two types of in-liquid plasma methods are proposed in order to decompose methane hydrate under pressures ranging from 0.1MPa to 1MPa. One is the radio frequency (RF) in-liquid plasma, which ha...

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Bibliographic Details
Main Authors: Ken, Fujiwara, Shinfuku, Nomura, Shinobu, Mukasa, Hiromichi, Toyota, Ismail, Rahim
Format: Conference Object
Language:English
Published: 2014
Subjects:
FAKULTAS TEKNIK
Pendidikan Teknik Otomotif
KARYA ILMIAH DOSEN
Methane hydrate
Online Access:http://eprints.unm.ac.id/21566/
http://eprints.unm.ac.id/21566/2/Methane%20Hydrate%20Decomposition%20with%20Radio%20Frequency%20Argon%20Jet%20Plasma1%20%281%29.pdf
http://eprints.unm.ac.id/21566/1/Prosiding%20Internasional-Methane%20Hydrate%20Decomposition.pdf
http://eprints.unm.ac.id/21566/4/Turnitin_Methane%20Hydrate%20Decomposition%20with%20Radio%20Frequency%20Argon%20Jet%20Plasma.pdf
Description
Summary:The purpose of this study is to decompose methane hydrate into hydrogen gas by the in-liquid plasma method. Two types of in-liquid plasma methods are proposed in order to decompose methane hydrate under pressures ranging from 0.1MPa to 1MPa. One is the radio frequency (RF) in-liquid plasma, which has had satisfactory results for plasma decomposition in various liquids. The other is the RF argon plasma jet methods, which generates plasma stably under severe environmental condition such as extremely low temperature and high pressure conditions. With these plasma methods, most of input energy exerted is for melting and breaking down the hydrate. The relative volume of hydrogen gas in the generated gas decreases as pressure increases, because a higher output power is necessary under the higher pressure. The methane hydrate is broken down into high temperature hydrogen gas, methane gas, and water steam, hence, there is no concern about greenhouse gases such as methane hydrate re-hydrating during this process. If a CO2 plasma jet could be utilized in substitution for argon gas, it would enable the conversion of the methane hydrate into CO2 hydrate. This suggests that this method could be used to solidify CO2 or other carbon components on the ocean floor.

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