Session Details
(Special session) Introduction of the long-term MMIJ project (2022 Spring)
Wed. Mar 9, 2022 10:10 AM - 2:25 PM JST
Wed. Mar 9, 2022 1:10 AM - 5:25 AM UTC
Wed. Mar 9, 2022 1:10 AM - 5:25 AM UTC
Room-1 Webex
司会:柴山 敦(秋田大学),島田 英樹(九州大学),邑瀬 邦明(京都大学)
[3K0101-08-1add]PJ企画立案から採択までの経緯と趣旨説明[武部 博倫 (愛媛大学)]
司会:武部 博倫 (愛媛大学)
[3K0101-08-2add]領域 1:「21 世紀後半を見据えた資源・素材学の挑戦」紹介
司会:柴山 敦(秋田大学)
[3K0101-08-01]Development of pyrite depression technique using marine Fe-oxidizing bacteria in floatation process of valuable metal sulfide ore
○Shigeshi Fuchida1, Hiroko Makita2, Kokoro Kitagawa2, Keishi Oyama1, Sana Ishida1, Jifeng Xue1, Chiharu Tokoro1 (1. Waseda University, 2. Tokyo University of Marine Science and Technology)
司会:柴山 敦(秋田大学)
[3K0101-08-02]Challenges for automation and resolution enhancement of exploration for deep seafloor resources by application of remote sensing and machine learning
○Taiki Kubo1, Tatsu Kuwatani2 (1. Kyoto Univesity, 2. Japan Agency for Marine-Earth Science and Technology)
司会:柴山 敦(秋田大学)
[3K0101-08-5add]領域 1:「21 世紀後半を見据えた資源・素材学の挑戦」紹介
司会:島田 英樹(九州大学)
[3K0101-08-03]Development of grain size estimation method of crushed rocks by bucket excavation toward realizing full automation in mining works
○Tomoaki Satomi1, Kanna Kaji1, Hiroshi Takahashi1 (1. Tohoku University)
司会:島田 英樹(九州大学)
[3K0101-08-04]Development of a novel evaluation technique of mineral liberation by micro-scale element analysis
○Yuki Tsunazawa1, Yoshiaki Kon1 (1. National Institute of Advanced Industrial Science and Technology)
司会:島田 英樹(九州大学)
Break
[3K0101-08-05]Possibility of innovative non-ferrous smelting process by controlling high density / high speed reaction field
○Etsuro Shibata1 (1. Tohoku University)
司会:邑瀬 邦明(京都大学)
[3K0101-08-06]Development of copper matte-slag formation multiphysics with high-speed imaging and deep learning
○Shungo Natsui1, Hiroshi Nogami1 (1. Tohoku University)
司会:邑瀬 邦明(京都大学)
[3K0101-08-07]Developing a novel lab-scale concentrate burner and elucidating the mechanism to promote high efficiency of the copper concentrates ignition and combustion reaction with high spatial density and fast oxidation reaction field and suppress magnetite particles
○Nobuyasu Nishioka1 (1. Ehime University)
司会:邑瀬 邦明(京都大学)
[3K0101-08-08]Design of anode shape and flow field to promote mass transfer during copper electrolysis
○Hideaki Sasaki1 (1. Ehime University)
司会:邑瀬 邦明(京都大学)