Wang Jiajie

オウカショウ | Wang Jiajie

Affiliation and department：
Homepage URL (1)： https://www.researchgate.net/profile/Jiajie_Wang6

Research field (3)： Environmental materials/recycling technology , Solid earth science , Earth resource engineering, energy science

Research keywords (4)：地球化学 , CO2 storage , water-rock reaction , Hydrogen energy

Research theme for competitive and other funds (6)：

2023 - 2027 Development of arsenic-contaminated groundwater purification technology to secure safe water resources in the Mekong Delta
2022 - 2027 A New Chemical Stimulation Method for Geothermal Reservoirs: Selective Mineral Dissolution with Environmentally Friendly Chelating Agents
2021 - 2025 データ駆動型ネットワーク解析による地熱エネルギーの社会受容性評価
2021 - 2024 キレート剤による岩石/廃棄物からの金属抽出とCO2利用・鉱物化プロセスの開発
2020 - 2021 Development of sustainable process for Ca/Mg extraction and CO2 mineralization using rocks assisted by a recyclable chelating agent.

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Papers (35)：

Kohei Takuma, Yutaro Maeda, Yuto Watanabe, Sho Ogata, Kiyotoshi Sakaguchi, Eko Pramudyo, Daisuke Fukuda, Jiajie Wang, Kazumi Osato, Amane Terai, et al. CO2 fracturing of volcanic rocks under geothermal conditions: Characteristics and process. Geothermics. 2024. 120. 103007-103007
Jiajie Wang, Yusuke Maeda, Vani Novita Alviani, Shoichi Kumon, Kimitaka Sato, Noriyoshi Tsuchiya, Noriaki Watanabe. A sustainable temperature-swing process for CO2 capture and mineralization at below 100 °C using a recyclable chelating agent and bottom ash. Journal of Environmental Chemical Engineering. 2024. 12. 2. 112301-112301
Eko Pramudyo, Luis Salalá, Ryota Goto, Jiajie Wang, Kazumasa Sueyoshi, Lena Muhl, Kiyotoshi Sakaguchi, Noriaki Watanabe. Permeability enhancement by CO2 injection and chelating agent stimulation for creating geothermal reservoirs in granite. Geoenergy Science and Engineering. 2024. 234. 212586-212586
Jiajie Wang, Astin Nurdiana, Yoshinori Sato, Noriaki Watanabe, Noriyoshi Tsuchiya. Characteristics of congruent dissolution of silicate minerals enhanced by chelating ligand under ambient conditions. American Mineralogist. 2024
Jiajie Wang, Masahiko Yagi, Tetsuya Tamagawa, Hitomi Hirano, Noriaki Watanabe. Reactivity and Dissolution Characteristics of Naturally Altered Basalt in CO₂-Rich Brine: Implications for CO₂ Mineralization. ACS Omega. 2024

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Patents (2)：

Education (2)：

Professional career (2)：

Work history (4)：

Awards (8)：

2023/09 - The 28th JFES Annual Symposium Best Presentation Award Dissolution behaviors of naturally altered basalts in a brine at 100°C for in situ CO2 mineralization
2023/09 - 一般社団法人資源・素材学会若手ポスター発表賞生分解性キレート剤を利用した玄武岩層への CO2貯留・鉱物固定促進法
2023/08 - The 17th International Symposium on Water-Rock Interaction (WRI-17) Best Student Poster Award Mineral dissolution behaviors in the presence of potential natural chelating agents and their contribution to CO2 removal
2023/07 - 東北大学東北大学プロミネントリサーチフェロー地球化学プロセスの解明と持続可能な脱炭素技術への応用
2022/09 - 日本鉱物科学会研究発表優秀賞鉱物溶解に及ぼす天然キレート剤の促進効果に関する基礎的実験

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