Aplikasi Argon Plasma Jet untuk Dekomposisi Methane hydrate dengan Iradiasi Radio Frequency Plasma

Decomposition of methane hydrate using an argon plasma jet was investigated in the pressure range from 0.1MPa to 2.0MPa. In this study, there were indications that the hydrogen production rate decreased as the pressure increased. However, plasma irradiation was successfully generated at high pressur...

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Bibliographic Details
Main Authors: Ismail, Rahim, Shinfuku, Nomura
Format: Article in Journal/Newspaper
Language:Indonesian
Published: Fakultas Teknik Mesin dan Dirgantara ITB 2016
Subjects:
FAKULTAS TEKNIK
Pendidikan Teknik Otomotif
KARYA ILMIAH DOSEN
Methane hydrate
Online Access:http://eprints.unm.ac.id/21574/
http://eprints.unm.ac.id/21574/2/Aplikasi%20Argon%20Plasma%20Jet%20%28SNTTM%20XV%29.pdf
http://eprints.unm.ac.id/21574/1/Prosiding%20Nasional-Aplikasi%20Argon%20Plasma.pdf
http://prosiding.bkstm.org/prosiding/seminar/2016
Description
Summary:Decomposition of methane hydrate using an argon plasma jet was investigated in the pressure range from 0.1MPa to 2.0MPa. In this study, there were indications that the hydrogen production rate decreased as the pressure increased. However, plasma irradiation was successfully generated at high pressure, which is difficult to achieve when using the radio frequency plasma in-liquid method. Using emission spectrometer analysis and the Boltzmann plot method, the excitation temperature is found to increase as the gas pressure increases, whereas, it decreases as the argon flow rate increases. There are no waste greenhouse gases produced during the re-hydrating process since the methane hydrate is broken down into high-temperature hydrogen gas, methane gas, and water steam.

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