Mechanism of the Shock Wave Generation and Energy Efficiency by Underwater Discharge

Mechanism of the Shock Wave Generation and Energy Efficiency by Underwater Discharge

We are developing the rice powder manufacturing system using an underwater shock wave. The purpose of this study is to research a mechanism of the shock wave generation and energy efficiency by underwater discharge in order to increase energy of the underwater shock wave. We observed the shock wave...

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Main Authors: O Higa, R Matsubara, K Higa, Y Miyafuji, T Gushi, Y Omine, K Naha, K Shimojima, H Fukuoka, H Maehara, S Tanaka, T Matsui, S Itoh
Format: Article
Language:English
Published: Multi-Science Publishing 2016-09-01
Series:International Journal of Multiphysics
Online Access:http://journal.multiphysics.org/index.php/IJM/article/view/196
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spelling doaj-82ee679e856b46c3b691654cbce213742020-11-24T22:55:07ZengMulti-Science PublishingInternational Journal of Multiphysics1750-95482048-39612016-09-016210.1260/1750-9548.6.2.89208Mechanism of the Shock Wave Generation and Energy Efficiency by Underwater DischargeO Higa0R Matsubara1K Higa2Y Miyafuji3T Gushi4Y Omine5K Naha6K Shimojima7H Fukuoka8H Maehara9S Tanaka10T Matsui11S Itoh12Technical Support Section, Okinawa National College of Technology, 905 Henoko, Nago, Okinawa 905-2192, JapanDepartment of Information And Communication System Engineering, Okinawa National College of Technology, 905 Henoko, Nago, Okinawa 905-2192, JapanDepartment of Information And Communication System Engineering, Okinawa National College of Technology, 905 Henoko, Nago, Okinawa 905-2192, JapanTechnical Support Section, Okinawa National College of Technology, 905 Henoko, Nago, Okinawa 905-2192, JapanTechnical Support Section, Okinawa National College of Technology, 905 Henoko, Nago, Okinawa 905-2192, JapanTechnical Support Section, Okinawa National College of Technology, 905 Henoko, Nago, Okinawa 905-2192, JapanDepartment of Mechanical System Engineering, Okinawa National College of Technology, 905 Henoko, Nago, Okinawa 905-2192, JapanDepartment of Mechanical System Engineering, Okinawa National College of Technology, 905 Henoko, Nago, Okinawa 905-2192, JapanDepartment of Mechanical System Engineering, Nara National College of Technology, 22 Yata-cho, Yamatokoriyama city, Nara 639-1080, JapanShock Wave and Condensed Matter Research Center, Kumamoto University, 2-39-1 Kurokami, Kumamoto City, Kumamoto 860-8555, JapanShock Wave and Condensed Matter Research Center, Kumamoto University, 2-39-1 Kurokami, Kumamoto City, Kumamoto 860-8555, JapanDepartment of Information And Communication System Engineering, Okinawa National College of Technology, 905 Henoko, Nago, Okinawa 905-2192, JapanOkinawa National College of Technology, 905 Henoko, Nago, Okinawa 905-2192, JapanWe are developing the rice powder manufacturing system using an underwater shock wave. The purpose of this study is to research a mechanism of the shock wave generation and energy efficiency by underwater discharge in order to increase energy of the underwater shock wave. We observed the shock wave generation using the visualization device with a high speed camera, and measured voltage current characteristics at the same time. As a result, it was clarified that countless underwater shock waves were generated at the time of water plasma expansion by discharge. But, the shock wave was not confirmed at the time of after a second peak of the damping oscillation. It was clarified that one part of charging energy was used to generation of the shock wave. Therefore, it was clarified that to release energy by the critical oscillation is desirable for efficient generation of the shock wave.http://journal.multiphysics.org/index.php/IJM/article/view/196
collection DOAJ
language English
format Article
sources DOAJ
author O Higa
R Matsubara
K Higa
Y Miyafuji
T Gushi
Y Omine
K Naha
K Shimojima
H Fukuoka
H Maehara
S Tanaka
T Matsui
S Itoh
spellingShingle O Higa
R Matsubara
K Higa
Y Miyafuji
T Gushi
Y Omine
K Naha
K Shimojima
H Fukuoka
H Maehara
S Tanaka
T Matsui
S Itoh
Mechanism of the Shock Wave Generation and Energy Efficiency by Underwater Discharge
International Journal of Multiphysics
author_facet O Higa
R Matsubara
K Higa
Y Miyafuji
T Gushi
Y Omine
K Naha
K Shimojima
H Fukuoka
H Maehara
S Tanaka
T Matsui
S Itoh
author_sort O Higa
title Mechanism of the Shock Wave Generation and Energy Efficiency by Underwater Discharge
title_short Mechanism of the Shock Wave Generation and Energy Efficiency by Underwater Discharge
title_full Mechanism of the Shock Wave Generation and Energy Efficiency by Underwater Discharge
title_fullStr Mechanism of the Shock Wave Generation and Energy Efficiency by Underwater Discharge
title_full_unstemmed Mechanism of the Shock Wave Generation and Energy Efficiency by Underwater Discharge
title_sort mechanism of the shock wave generation and energy efficiency by underwater discharge
publisher Multi-Science Publishing
series International Journal of Multiphysics
issn 1750-9548
2048-3961
publishDate 2016-09-01
description We are developing the rice powder manufacturing system using an underwater shock wave. The purpose of this study is to research a mechanism of the shock wave generation and energy efficiency by underwater discharge in order to increase energy of the underwater shock wave. We observed the shock wave generation using the visualization device with a high speed camera, and measured voltage current characteristics at the same time. As a result, it was clarified that countless underwater shock waves were generated at the time of water plasma expansion by discharge. But, the shock wave was not confirmed at the time of after a second peak of the damping oscillation. It was clarified that one part of charging energy was used to generation of the shock wave. Therefore, it was clarified that to release energy by the critical oscillation is desirable for efficient generation of the shock wave.
url http://journal.multiphysics.org/index.php/IJM/article/view/196
work_keys_str_mv AT ohiga mechanismoftheshockwavegenerationandenergyefficiencybyunderwaterdischarge
AT rmatsubara mechanismoftheshockwavegenerationandenergyefficiencybyunderwaterdischarge
AT khiga mechanismoftheshockwavegenerationandenergyefficiencybyunderwaterdischarge
AT ymiyafuji mechanismoftheshockwavegenerationandenergyefficiencybyunderwaterdischarge
AT tgushi mechanismoftheshockwavegenerationandenergyefficiencybyunderwaterdischarge
AT yomine mechanismoftheshockwavegenerationandenergyefficiencybyunderwaterdischarge
AT knaha mechanismoftheshockwavegenerationandenergyefficiencybyunderwaterdischarge
AT kshimojima mechanismoftheshockwavegenerationandenergyefficiencybyunderwaterdischarge
AT hfukuoka mechanismoftheshockwavegenerationandenergyefficiencybyunderwaterdischarge
AT hmaehara mechanismoftheshockwavegenerationandenergyefficiencybyunderwaterdischarge
AT stanaka mechanismoftheshockwavegenerationandenergyefficiencybyunderwaterdischarge
AT tmatsui mechanismoftheshockwavegenerationandenergyefficiencybyunderwaterdischarge
AT sitoh mechanismoftheshockwavegenerationandenergyefficiencybyunderwaterdischarge
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