研究者詳細

顔写真

オウ カシヨウ
Wang Jiajie
Wang Jiajie
所属
大学院環境科学研究科 先進社会環境学専攻 エネルギー資源学講座(エネルギー資源リスク評価学分野)
職名
助教
学位

  • 博士(環境科学)(東北大学)

  • 修士(厦門大学)

e-Rad 研究者番号
60875467

経歴 4

  • 2023年7月 ~ 継続中
    東北大学 大学院環境科学研究科

  • 2020年4月 ~ 継続中
    東北大学 大学院環境科学研究科

  • 2018年4月 ~ 2020年3月
    東北大学 大学院環境科学研究科

  • 2015年9月 ~ 2016年7月
    廈門大学

学歴 2

  • 東北大学 大学院環境科学研究科 博士(環境科学)

    2017年4月 ~ 2020年3月

  • 廈門大学 大学院環境生態研究科 修士

    2012年9月 ~ 2015年6月

研究キーワード 4

  • 地球化学

  • 水―岩石反応

  • CO2削減

  • エネルギー

研究分野 3

  • 環境・農学 / 環境材料、リサイクル技術 /

  • 自然科学一般 / 固体地球科学 /

  • エネルギー / 地球資源工学、エネルギー学 /

受賞 15

  1. Best Student Poster Award

    2025年8月 22nd Annual Meeting Asia Oceania Geosciences Society (AOGS2025) Silicate minerals dissolution in chelating agent-assisted CO2 storage environments

  2. Springer Nature Award

    2025年7月 第4回環境化学物質合同大会 再生可能キレート剤とCO2を利用した木質バイオマス灰の環境負荷低減・資源化プロセス

  3. SETAC JAPAN AWARD

    2025年7月 第4回環境化学物質合同大会 コンクリート製品製造における再生可能キレート剤を用いたCO2鉱物化プロセスの環境負荷低減効果

  4. 優秀発表賞(銅賞)

    2024年6月 資源・素材学会 東北支部 生分解性キレート剤を用いたCO2地中貯留・鉱物固定促進法における鉱物の 加速溶解現象のモデル化

  5. 優秀発表賞(銀賞)

    2024年6月 資源・素材学会 東北支部 生分解性キレート剤を用いたCO2地中貯留・鉱物固定促進法の粘土鉱物を 含有する玄武岩質火山性砂岩に対する有効性

  6. 優秀口頭発表賞

    2024年6月 21st International Conference on Carbon Dioxide Utilization

  7. 令和5年度トーキン科学技術賞

    2024年1月 公益財団法人トーキン科学技術振興財団

  8. 優秀発表賞

    2023年9月 The 28th JFES Annual Symposium

  9. 若手ポスター発表賞

    2023年9月 一般社団法人 資源・素材学会 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

  10. 優秀学生ポスター賞

    2023年8月 Mineral dissolution behaviors in the presence of potential natural chelating agents and their contribution to CO2 removal

  11. 東北大学プロミネントリサーチフェロー

    2023年7月 東北大学 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

  12. 研究発表優秀賞

    2022年9月 日本鉱物科学会 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

  13. 総長賞

    2020年3月 東北大学

  14. 藤野先生記念奨励賞

    2018年9月 東北大学

  15. 平成30年度資源・素材学会東北支部春季大会ポスターセッション金賞

    2018年5月 資源・素材学会

︎全件表示 ︎最初の5件までを表示

論文 43

  1. Machine-learning applications for magmatic–hydrothermal systems: Quartz trace-element insights into ore deposits 査読有り

    Denghui Zhu, Jiajie Wang, Tatsu Kuwatani, Noriyoshi Tsuchiya

    Applied Geochemistry 189 106431-106431 2025年9月

    出版者・発行元: Elsevier BV

    DOI: 10.1016/j.apgeochem.2025.106431  

    ISSN:0883-2927

  2. Unlocking geothermal potential: Activating calcite-filled veins using chelating agents to improve granitic rock permeability 査読有り

    Lena Muhl, Luis Salalá, Eko Pramudyo, Jiajie Wang, Ingo Sass, Noriaki Watanabe

    Geothermics 131 103356-103356 2025年9月

    出版者・発行元: Elsevier BV

    DOI: 10.1016/j.geothermics.2025.103356  

    ISSN:0375-6505

  3. Biobased biodegradable chelating agents enhance coupled ex situ and in situ carbon dioxide mineralization via peridotite dissolution and wormholing 査読有り

    Communications Earth & Environment 6 (1) 2025年8月21日

    出版者・発行元:

    DOI: 10.1038/s43247-025-02687-2  

    eISSN:2662-4435

  4. Synergized Effects of Amino Acids and NaCl to Enhance Silicate Mineral Dissolution in Aqueous Environments for Efficient Atmospheric CO2 Removal 査読有り

    Jiajie Wang, Sena Kikuchi, Noriyoshi Tsuchiya, Yoshinori Sato, Mei-Fang Chien, Noriaki Watanabe

    Environmental Science & Technology 2024年12月2日

    出版者・発行元: American Chemical Society (ACS)

    DOI: 10.1021/acs.est.4c07526  

    ISSN:0013-936X

    eISSN:1520-5851

  5. Applicability of monitoring data of Hg soil-atmosphere transport in an old mining area for exposure risk assessment

    Monami Kondo, Jiajie Wang, Takeshi Komai, Noriaki Watanabe

    Geochemistry: Exploration, Environment, Analysis 2024年11月19日

    出版者・発行元: Geological Society of London

    DOI: 10.1144/geochem2024-012  

    ISSN:1467-7873

    eISSN:2041-4943

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    Mercury (Hg) is a widespread pollutant that poses significant risks to both ecosystems and human health. While previous studies have evaluated Hg concentrations in soils, few have measured Hg emissions in areas with high Hg concentrations or related these measurements to estimates of exposure via air inhalation based on Hg flux values. This study addresses this gap by proposing the use of gaseous elemental Hg (GEM) flux measurements for exposure risk assessments, with a particular focus on the importance of inhalation exposure, which has implications for future risk management strategies. Sensitivity analysis of the site-specific exposure and risk estimation model revealed that the fraction of land area in surface water significantly impacted the estimated exposure through air inhalation. Additionally, the analysis showed that the GEM flux measured in situ in a high-Hg concentration area of Itomuka was not directly proportional to the Hg concentration, although the risk estimation model treated it as a function of concentration. Furthermore, we found that the flux values are influenced by both the fraction of land area in surface water and Hg concentration, indicating that this new flux-based indicator should be integrated into exposure risk assessments.

  6. CO2 capture, geological storage, and mineralization using biobased biodegradable chelating agents and seawater 査読有り

    Jiajie Wang, Ryota Sekiai, Ryota Tamura, Noriaki Watanabe

    Science Advances 10 (46) 2024年11月

    DOI: 10.1126/sciadv.adq0515  

  7. Characteristics and effectiveness of water-assisted CO2 fracturing for creating geothermal reservoirs in volcanic rocks

    Eko Pramudyo, Kohei Takuma, Yuto Watanabe, Kiyotoshi Sakaguchi, Yutaro Maeda, Sho Ogata, Kazumasa Sueyoshi, Jiajie Wang, Kazumi Osato, Amane Terai, Noriaki Watanabe

    Geoenergy Science and Engineering 213280-213280 2024年9月

    出版者・発行元: Elsevier BV

    DOI: 10.1016/j.geoen.2024.213280  

    ISSN:2949-8910

  8. CO2 fracturing of volcanic rocks under geothermal conditions: Characteristics and process

    Kohei Takuma, Yutaro Maeda, Yuto Watanabe, Sho Ogata, Kiyotoshi Sakaguchi, Eko Pramudyo, Daisuke Fukuda, Jiajie Wang, Kazumi Osato, Amane Terai, Noriaki Watanabe

    Geothermics 120 103007-103007 2024年6月

    出版者・発行元: Elsevier BV

    DOI: 10.1016/j.geothermics.2024.103007  

    ISSN:0375-6505

  9. Maximizing permeability of fractured volcanic rocks through chelating-agent-assisted and pH-controlled selective mineral dissolution

    Luis Salalá, Jonathan Argueta, Jiajie Wang, Noriaki Watanabe, Noriyoshi Tsuchiya

    Geothermics 119 102949-102949 2024年5月

    出版者・発行元: Elsevier BV

    DOI: 10.1016/j.geothermics.2024.102949  

    ISSN:0375-6505

  10. A sustainable temperature-swing process for CO2 capture and mineralization at below 100 °C using a recyclable chelating agent and bottom ash

    Jiajie Wang, Yusuke Maeda, Vani Novita Alviani, Shoichi Kumon, Kimitaka Sato, Noriyoshi Tsuchiya, Noriaki Watanabe

    Journal of Environmental Chemical Engineering 12 (2) 112301-112301 2024年4月

    出版者・発行元: Elsevier BV

    DOI: 10.1016/j.jece.2024.112301  

    ISSN:2213-3437

  11. Permeability enhancement by CO2 injection and chelating agent stimulation for creating geothermal reservoirs in granite 査読有り

    Eko Pramudyo, Luis Salalá, Ryota Goto, Jiajie Wang, Kazumasa Sueyoshi, Lena Muhl, Kiyotoshi Sakaguchi, Noriaki Watanabe

    Geoenergy Science and Engineering 234 212586-212586 2024年3月

    出版者・発行元: Elsevier BV

    DOI: 10.1016/j.geoen.2023.212586  

    ISSN:2949-8910

  12. Characteristics of congruent dissolution of silicate minerals enhanced by chelating ligand under ambient conditions 査読有り

    Jiajie Wang, Astin Nurdiana, Yoshinori Sato, Noriaki Watanabe, Noriyoshi Tsuchiya

    American Mineralogist 2024年2月1日

    出版者・発行元: Mineralogical Society of America

    DOI: 10.2138/am-2023-9025  

    ISSN:0003-004X

    eISSN:1945-3027

  13. Reactivity and Dissolution Characteristics of Naturally Altered Basalt in CO2-Rich Brine: Implications for CO2 Mineralization 査読有り

    Jiajie Wang, Masahiko Yagi, Tetsuya Tamagawa, Hitomi Hirano, Noriaki Watanabe

    ACS Omega 2024年1月17日

    出版者・発行元: American Chemical Society (ACS)

    DOI: 10.1021/acsomega.3c06899  

    ISSN:2470-1343

    eISSN:2470-1343

  14. Progressive carbonation and Ca-metasomatism of serpentinized ultramafic rocks: insights from natural occurrences and hydrothermal experiments 国際誌 査読有り

    Nomuulin Amarbayar, Otgonbayar Dandar, Jiajie Wang, Atsushi Okamoto, Masaoki Uno, Undarmaa Batsaikhan, Hideko Takayanagi, Yasufumi Iryu, Noriyoshi Tsuchiya

    Contributions to Mineralogy and Petrology 178 2023年6月

    出版者・発行元: SpringerNature

    DOI: 10.1007/s00410-023-02013-z  

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    Hydration, carbonation, and related metasomatism of mantle peridotite play a significant role in the global geochemical cycle. In this study, we combined an analysis of carbonated serpentinite with hydrothermal experiments on carbonation and Ca-metasomatism for samples from the Manlay ophiolite, southern Mongolia to investigate that carbonation mechanism of the serpentinite body after serpentinization. Samples show that the serpentinite was either transected by calcite and dolomite veins or was completely replaced by carbonates (calcite with minor dolomite) and quartz, in which the original mesh texture of serpentinite was preserved. Carbonation occurred after low-temperature serpentinization (lizardite/chrysotile), suggesting that carbonation occurred at temperatures lower than 300 ˚C. Calcite in the serpentinite showed δ13 CVPDB values ranging from -8.83 to -5.11 ‰ and δ18 OVSMOW from + 20.1 to + 24.4 ‰, suggesting that CO2 in the fluids could be derived from the degradation of organic material or methanotrophic processes rather than the origin of seafloor limestone. Three batch-type experiments, i.e., single step experiments (1) Olivine + NaHCO3,aq + CaCl2,aq and (2) Chrysotile + NaHCO3,aq + wollastonite (Ca source), and two steps experiment (3) Olivine carbonation and Ca-metasomatism, were conducted at 275 °C and 5.7 MPa to constrain the mechanism of calcite replacement of serpentinite. We found that calcite precipitated from the solution directly in the first two experiments, but replacement of serpentinite by calcite was not observed. In contrast, the third experiment caused the initial carbonation to form magnesite and then changed to calcite by later alteration. The natural occurrences and experiments revealed the possibility that the carbonation of olivine followed by Ca-rich fluid infiltration produced calcite in the carbonated serpentinite. Such Ca-metasomatism of Mg carbonates could easily occur in the ultramafic bodies and significantly affect the global carbon cycle.

  15. Process and optimum pH for permeability enhancement of fractured granite through selective mineral dissolution by chelating agent flooding 査読有り

    Ryota Takahashi, Jiajie Wang, Noriaki Watanabe

    Geothermics 109 102646-102646 2023年3月

    出版者・発行元: Elsevier BV

    DOI: 10.1016/j.geothermics.2022.102646  

    ISSN:0375-6505

  16. Prediction of 1,4-Dioxane Migration in Groundwater and Evaluation of Remediation Measures in an Illegal Dumping Site Using a 2D-Numerical Model

    Thatthep Pongritsakda, Yasuhide Sakamoto, Jiajie Wang, Yoshishige Kawabe, Sanya Sirivithayapakorn, Takeshi Komai, Noriaki Watanabe

    Sustainability 15 (5) 3930-3930 2023年2月21日

    出版者・発行元: MDPI AG

    DOI: 10.3390/su15053930  

    eISSN:2071-1050

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    Illegal dumping sites are usually characterized by complex contamination situations due to the presence of multiple contamination sources. To improve the efficiency of illegal waste dumping site remediation, this study developed a numerical model considering the effects of groundwater levels and hydraulic gradient changes on remediation operations. Using this model, the most likely sources of contamination for 1,4-dioxane at an illegal waste site in Iwate Prefecture, Japan, were successfully identified (including location, amount, and time of occurrence) by reproducing historical monitoring data (from 2010 to 2022) through history matching, and future contaminant migration in groundwater was predicted. In addition, based on quantitative evaluations of the remediation measures, we found that some remediation measures, such as impermeable wall construction, while having some effects on the control of contamination spreading, may accelerate the migration of contaminants off-site due to the change of hydraulic gradient. Therefore, remediation procedures should be more carefully considered for illegal dumping sites based on an understanding of the distribution of contamination sources and hydraulic gradient evolutions.

  17. NaHCO3 as a carrier of CO2 and its enhancement effect on mineralization during hydrothermal alteration of basalt

    Sena Kikuchi, Jiajie Wang, Otgonbayar Dandar, Masaoki Uno, Noriaki Watanabe, Nobuo Hirano, Noriyoshi Tsuchiya

    Frontiers in Environmental Science 11 2023年2月15日

    出版者・発行元: Frontiers Media SA

    DOI: 10.3389/fenvs.2023.1138007  

    eISSN:2296-665X

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    Reaction of carbon dioxide (CO2) with minerals to generate stable carbonates, also known as CO2 mineralization, has been regarded as one of the most promising methods for safe and permanent carbon storage. As a promising feedstock, basaltic rock has gained special interest, and elevating basalt carbonation efficiency with the reduction of negative environmental impact is the main challenge for CO2 mineralization system development. Considering multiple potential positive effects of the CO2 carrier, NaHCO3, we conducted this study to experimentally evaluate the CO2 storage efficiency during water-basalt-NaHCO3 interactions under hydrothermal conditions at 200–300°C. The inclusion of NaHCO3 was confirmed to drastically promote the alteration of basalt, especially at higher temperatures. As revealed by experiments conducted at the saturated vapor pressure of water, the carbon storage efficiency at 300°C reached 75 g/kg of basalt in 5 days, which was 12 times higher than that at 200°C. In such hydrothermal systems, basalt was carbonated to generate calcite (CaCO3), where the Ca was mainly from plagioclase; Mg and Fe were incorporated into smectite, and Na in the saline system participated in the formation of Na silicates (i.e., analcime in the case of basalt). Due to the presence of additional Na in solution, all the released elements were consumed quickly with generation of secondary minerals in turn promoted basalt dissolution to release more Ca for CO2 storage. This study illuminated the role of NaHCO3 in basalt carbonation and provided technical backup to the design of advanced CO2 mineralization systems.

  18. Permeability enhancement and void formation by chelating agent in volcanic rocks (Ahuachapán and Berlín geothermal fields, El Salvador) 国際誌 国際共著 査読有り

    Luis Salalá, Ryota Takahashi, Jonathan Argueta, Jiajie Wang, Noriaki Watanabe, Noriyoshi Tsuchiya

    Geothermics 107 102586-102586 2023年1月

    出版者・発行元:

    DOI: 10.1016/j.geothermics.2022.102586  

    ISSN:0375-6505

  19. Effectiveness and characteristics of atmospheric CO2 removal in croplands via enhanced weathering of industrial Ca-rich silicate byproducts 査読有り

    Rina Yoshioka, Kengo Nakamura, Ryota Sekiai, Jiajie Wang, Noriaki Watanabe

    Frontiers in Environmental Science 10 1068656 2022年11月25日

    出版者・発行元:

    DOI: 10.3389/fenvs.2022.1068656  

    eISSN:2296-665X

  20. Potentially toxic elements pose significant and long-term human health risks in river basin districts with abandoned gold mines 査読有り

    Arie Pujiwati, Kengo Nakamura, Jiajie Wang, Yoshishige Kawabe, Noriaki Watanabe, Takeshi Komai

    Environmental Geochemistry and Health 44 (2) Article 00149R2 2022年3月8日

    出版者・発行元:

    DOI: 10.1007/s10653-022-01229-5  

    ISSN:0269-4042

    eISSN:1573-2983

  21. Role of water in unexpectedly large changes in emission flux of volatile organic compounds in soils under dynamic temperature conditions 査読有り

    Asma Akter Parlin, Monami Kondo, Noriaki Watanabe, Kengo Nakamura, Jiajie Wang, Yasuhide Sakamoto, Takeshi Komai

    Scientific Reports 12 (1) 4418 2022年3月

    出版者・発行元:

    DOI: 10.1038/s41598-022-08270-5  

    eISSN:2045-2322

  22. A geochemical approach for source apportionment and environmental impact assessment of heavy metals in a Cu–Ni mining region, Botswana 査読有り

    Fiona Motswaiso, Jiajie Wang, Kengo Nakamura, Noriaki Watanabe, Takeshi Komai

    Environmental Earth Sciences 81 (5) Article 138 2022年3月

    出版者・発行元:

    DOI: 10.1007/s12665-021-10158-y  

    ISSN:1866-6280

    eISSN:1866-6299

  23. Sustainable process for enhanced CO2 mineralization of calcium silicates using a recyclable chelating agent under alkaline conditions 査読有り

    Jiajie Wang, Noriaki Watanabe, Kosuke Inomoto, Masanobu Kamitakahara, Kengo Nakamura, Takeshi Komai, Noriyoshi Tsuchiya

    Journal of Environmental Chemical Engineering 10 (1) 107055-107055 2022年2月

    出版者・発行元: Elsevier BV

    DOI: 10.1016/j.jece.2021.107055  

    ISSN:2213-3437

  24. Multi-stage serpentinization of ultramafic rocks in the Manlay Ophiolite, southern Mongolia 査読有り

    Amarbayar Nomuulin, Noriyoshi Tsuchiya, Otgonbayar Dandar, Atsushi Okamoto, Masaoki Uno, Undarmaa Batsaikhan, Jiajie Wang

    Mongolian Geoscientist 26 (53) 1-17 2021年12月30日

    出版者・発行元: Mongolian Journals Online

    DOI: 10.5564/mgs.v26i53.1787  

    ISSN:2220-0622

    eISSN:2663-5151

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    Serpentinization of ultramafic rocks in ophiolites is key to understanding the global cycle of elements and changes in the physical properties of lithospheric mantle. Mongolia, a central part of the Central Asian Orogenic Belt (CAOB), contains numerous ophiolite complexes, but the metamorphism of ultramafic rocks in these ophiolites has been little studied. Here we present the results of our study of the serpentinization of an ultramafic body in the Manlay Ophiolite, southern Mongolia. The ultramafic rocks were completely serpentinized, and no relics of olivine or orthopyroxene were found. The composition of Cr-spinels [Mg# = Mg/(Mg + Fe2+) = 0.54 and Cr# = Cr/(Cr + Al) = 0.56] and the bulk rock chemistry (Mg/Si = 1.21–1.24 and Al/Si < 0.018) of the serpentinites indicate their origin from a fore-arc setting. Lizardite occurs in the cores and rims of mesh texture (Mg# = 0.97) and chrysotile is found in various occurrences, including in bastite (Mg# = 0.95), mesh cores (Mg# = 0.92), mesh rims (Mg# = 0.96), and later-stage large veins (Mg# = 0.94). The presence of lizardite and chrysotile and the absence of antigorite suggests low-temperature serpentinization (<300 °C). The lack of brucite in the serpentinites implies infiltration of the ultramafic rocks of the Manlay Ophiolite by Si-rich fluids. Based on microtextures and mineral chemistry, the serpentinization of the ultramafic rocks in the Manlay Ophiolite took place in three stages: (1) replacement of olivine by lizardite, (2) chrysotile formation (bastite) after orthopyroxene and as a replacement of relics of olivine, and (3) the development of veins of chrysotile that cut across all previous textures. The complex texture of the serpentinites in the Manlay Ophiolite indicates multiple stages of fluid infiltration into the ultramafic parts of these ophiolites in southern Mongolia and the CAOB.

  25. Prediction and Remediation of Groundwater Pollution in a Dynamic and Complex Hydrologic Environment of an Illegal Waste Dumping Site

    Thatthep Pongritsakda, Kengo Nakamura, Jiajie Wang, Noriaki Watanabe, Takeshi Komai

    Applied Sciences 11 (19) 9229-9229 2021年10月4日

    出版者・発行元: MDPI AG

    DOI: 10.3390/app11199229  

    eISSN:2076-3417

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    The characteristics of groundwater pollution caused by illegal waste dumping and methods for predicting and remediating it are still poorly understood. Serious 1,4-dioxane groundwater pollution—which has multiple sources—has been occurring at an illegal waste dumping site in the Tohoku region of Japan. So far, anti-pollution countermeasures have been taken including the installation of an impermeable wall and the excavation of soils and waste as well as the monitoring of contamination concentrations. The objective of this numerical study was to clarify the possibility of predicting pollutant transport in such dynamic and complex hydrologic environments, and to investigate the characteristics of pollutant transport under both naturally occurring and artificially induced groundwater flow (i.e., pumping for remediation). We first tried to reproduce the changes in 1,4-dioxane concentrations in groundwater observed in monitoring wells using a quasi-3D flow and transport simulation considering the multiple sources and spatiotemporal changes in hydrologic conditions. Consequently, we were able to reproduce the long-term trends of concentration changes in each monitoring well. With the predicted pollutant distribution, we conducted simulations for remediation such as pollutant removal using pumping wells. The results of the prediction and remediation simulations revealed the highly complex nature of 1,4-dioxane transport in the dumping site under both naturally occurring and artificially induced groundwater flows. The present study suggests possibilities for the prediction and remediation of pollution at illegal waste dumping sites, but further extensive studies are encouraged for better prediction and remediation.

  26. Dynamic evaluation method for planning sustainable landfills using GIS and multi-criteria in areas of urban sprawl with land-use conflicts

    Chelsea Langa, Junko Hara, Jiajie Wang, Kengo Nakamura, Noriaki Watanabe, Takeshi Komai

    PLOS ONE 16 (8) e0254441-e0254441 2021年8月27日

    出版者・発行元: Public Library of Science (PLoS)

    DOI: 10.1371/journal.pone.0254441  

    eISSN:1932-6203

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    Landfill site selection is problematic in many countries, especially developing nations where there is rapid population growth, which leads to high levels of inadequate waste disposal. To find sustainable landfill sites in sprawling cities, this study presents an approach that combines geographic information system (GIS) with multi-criteria (social, environmental and, technical criteria) and the population growth projection. The greater Maputo area in Mozambique was selected as a representative city for the study, which is undergoing rapid urbanization. Six criteria, i.e., land use, transport networks, hydrology, conservation reserve, geology and slope, were considered and overlaid in the GIS using an analytic hierarchy process (AHP). The arithmetic projection of the population trend suggests that the greater Maputo area is experiencing a rapid and uncontrolled population growth, especially in Matola city. These pronounced changes in population then significantly change the landfill placement decision making. Dynamic and static scenarios were created, based on the analysis of multi-criteria and the areas likely to undergo future increased population growth. A comparative evaluation in a scenario of dynamic behavior considering future population showed that suitable areas for landfill sites have been drastically modified due to social and environmental factors affected by population distribution in some regions. The results indicate that some suitable areas can generate land use conflicts due to population growth with unplanned land use expansion. Finally, the western part of Matola city is recognized as the most recommendable landfill site, which can serve both Maputo and Matola city with affordable costs. This study provides an effective landfill placement decision making approach, which is possible to be applied anywhere, especially in developing countries to improve sustainable municipal solid waste management systems.

  27. Enhancement of aragonite mineralization with a chelating agent for CO2 storage and utilization at low to moderate temperatures 査読有り

    Jiajie Wang, Noriaki Watanabe, Kosuke Inomoto, Masanobu Kamitakahara, Kengo Nakamura, Takeshi Komai, Noriyoshi Tsuchiya

    Scientific Reports 11 13956 2021年7月

    出版者・発行元: Springer Science and Business Media LLC

    DOI: 10.1038/s41598-021-93550-9  

    eISSN:2045-2322

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    <title>Abstract</title>Among the CaCO3 polymorphs, aragonite demonstrates a better performance as a filler material in the paper and plastic industries. Despite being ideal from the environmental protection perspective, the production of aragonite particles via CO2 mineralization of rocks is hindered by the difficulty in achieving high production efficiencies and purities, which, however, can be mitigated by exploiting the potential ability of chelating agents on metal ions extraction and carbonation controlling. Herein, chelating agent <italic>N,N</italic>-dicarboxymethyl glutamic acid (GLDA) was used to enhance the extraction of Ca from calcium silicate and facilitate the production of aragonite particles during the subsequent Ca carbonation. CO2 mineralization was promoted in the presence of 0.01–0.1 M GLDA at ≤ 80 °C, with the maximal CaCO3 production efficiency reached 308 g/kg of calcium silicate in 60 min using 0.03 M GLDA, which is 15.5 times higher than that without GLDA. In addition, GLDA showed excellent effects on promoting aragonite precipitation, e.g., the content of aragonite was only 5.1% in the absence of GLDA at 50 °C, whereas highly pure (&gt; 90%, increased by a factor of 18) and morphologically uniform aragonite was obtained using ≥ 0.05 M GLDA under identical conditions. Aragonite particle morphologies could also be controlled by varying the GLDA concentration and carbonation temperature. This study proposed a carbon-negative aragonite production method, demonstrated the possibility of enhanced and controlled aragonite particle production during the CO2 mineralization of calcium silicates in the presence of chelating agents.

  28. Water-Enhanced Flux Changes under Dynamic Temperatures in the Vertical Vapor-Phase Diffusive Transport of Volatile Organic Compounds in Near-Surface Soil Environments

    Asma Akter Parlin, Monami Kondo, Noriaki Watanabe, Kengo Nakamura, Mizuki Yamada, Jiajie Wang, Takeshi Komai

    Sustainability 13 (12) 6570-6570 2021年6月9日

    出版者・発行元: MDPI AG

    DOI: 10.3390/su13126570  

    eISSN:2071-1050

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    The quantitative understanding of the transport behavior of volatile organic compounds (VOCs) in near-surface soils is highly important in light of the potential impacts of soil VOC emissions on the air quality and climate. Previous studies have suggested that temperature changes affect the transport behavior; however, the effects are not well understood. Indeed, much larger changes in the VOC flux under in situ dynamic temperatures than those expected from the temperature dependence of the diffusion coefficients of VOCs in the air have been suggested but rarely investigated experimentally. Here, we present the results of a set of experiments on the upward vertical vapor-phase diffusive transport of benzene and trichloroethylene (TCE) in sandy soils with water contents ranging from an air-dried value to 10 wt% during sinusoidal temperature variation between 20 and 30 °C. In all experiments, the flux from the soil surface was correlated with the temperature, as expected. However, the changes in flux under wet conditions were unexpectedly large and increased with increasing water content; they were also larger for TCE, the volatility of which depended more strongly on the temperature. Additionally, the larger flux changes were accompanied by a recently discovered water-induced inverse correlation between temperature and flux into the overlying soil. These results demonstrated that the flux changes of VOCs under dynamic temperatures could be increased by volatilization-dissolution interactions of VOCs with water. Future extensive studies on this newly discovered phenomenon would contribute to a better understanding of the impacts of soil VOC emissions on the air quality and climate.

  29. Water-Induced Inverse Correlation between Temperature and Flux Changes in Vertical Vapor-Phase Diffusive Transport of Volatile Organic Compounds in Near-Surface Soil Environments

    Asma Akter Parlin, Noriaki Watanabe, Kengo Nakamura, Mizuki Yamada, Jiajie Wang, Takeshi Komai

    Applied Sciences 11 (8) 3489-3489 2021年4月13日

    出版者・発行元: MDPI AG

    DOI: 10.3390/app11083489  

    eISSN:2076-3417

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    Volatile organic compounds (VOCs) in contaminated soils have been investigated in near-surface environments to describe their transport behaviors and the resultant impacts of vapor intrusion into buildings. Prior studies have suggested that temperature changes significantly influence such transport behaviors in near-surface soils; however, the nature of these influences and their mechanisms have remained unclear. This is because an inverse correlation between the in situ temperature and VOC flux changes has been suggested but has not been experimentally investigated or demonstrated. Herein, we show the results of a set of experiments on the vertical and upward vapor-phase diffusive transport of benzene in sandy soils for different sand grain size and water content combinations under sinusoidal temperature changes between 20 and 30 °C. Under all experimental conditions, changes in the flux from the soil surface correlated with temperature changes, whereas changes in the flux into the overlying soil showed inverse correlations. Concurrent monitoring of the relative humidity revealed that an inverse correlation was exhibited in response to the condensation and volatilization of water. Moreover, the intensity of the inverse correlation was independent of grain size but was larger at higher water contents. Overall, water in soil may induce an inverse correlation.

  30. Data-driven analysis for source apportionment and geochemical backgrounds establishment of toxic elements and REEs in the Tohoku region, Japan 査読有り

    Arie Pujiwati, Jiajie Wang, Kengo Nakamura, Yoshishige Kawabe, Noriaki Watanabe, Takeshi Komai

    Chemosphere 263 128268-128268 2021年1月

    出版者・発行元: Elsevier BV

    DOI: 10.1016/j.chemosphere.2020.128268  

    ISSN:0045-6535

  31. Characteristics of hydrogen production with carbon storage by CO2-rich hydrothermal alteration of olivine in the presence of Mg–Al spinel 査読有り

    Jiajie Wang, Noriaki Watanabe, Atsushi Okamoto, Kengo Nakamura, Takeshi Komai

    International Journal of Hydrogen Energy 2020年3月

  32. Pyroxene control of H-2 production and carbon storage during water-peridotite-CO2 hydrothermal reactions 査読有り

    Jiajie Wang, Noriaki Watanabe, Atsushi Okamoto, Kengo Nakamura, Takeshi Komai

    INTERNATIONAL JOURNAL OF HYDROGEN ENERGY 44 (49) 26835-26847 2019年10月

    DOI: 10.1016/j.ijhydene.2019.08.161  

    ISSN:0360-3199

    eISSN:1879-3487

  33. NaHCO<inf>3</inf>-promoted olivine weathering with H<inf>2</inf> generation and CO<inf>2</inf> sequestration in alkaline hydrothermal system 査読有り

    J. Wang, K. Nakamura, N. Watanabe, A. Okamoto, T. Komai

    IOP Conference Series: Earth and Environmental Science 257 (1) 2019年5月10日

    DOI: 10.1088/1755-1315/257/1/012017  

    ISSN:1755-1307

    eISSN:1755-1315

  34. Acceleration of hydrogen production during water-olivine-CO2 reactions via high-temperature-facilitated Fe(II) release 査読有り

    Jiajie Wang, Noriaki Watanabe, Atsushi Okamoto, Kengo Nakamura, Takeshi Komai

    INTERNATIONAL JOURNAL OF HYDROGEN ENERGY 44 (23) 11514-11524 2019年5月

    DOI: 10.1016/j.ijhydene.2019.03.119  

    ISSN:0360-3199

    eISSN:1879-3487

  35. Enhanced hydrogen production with carbon storage by olivine alteration in CO2-rich hydrothermal environments 査読有り

    Jiajie Wang, Noriaki Watanabe, Atsushi Okamoto, Kengo Nakamura, Takeshi Komai

    JOURNAL OF CO2 UTILIZATION 30 205-213 2019年3月

    DOI: 10.1016/j.jcou.2019.02.008  

    ISSN:2212-9820

    eISSN:2212-9839

  36. Simultaneous H2 Production with Carbon Storage by Enhanced Olivine Weathering in Laboratory-scale: An Investigation of CO2 Effect 査読有り

    Jiajie Wang, Kengo Nakamura, Noriaki Watanabe, Atsushi Okamoto,Takeshi Komai

    The Second International Conference on Materials Chemistry and Environmental Protection 2019年1月

  37. Simultaneous Olivine Alteration and Carbonation in CO2-rich Geological Condition 査読有り

    Jiajie Wang, Kengo Nakamura, Noriaki Watanabe, Takeshi Komai

    Twenty-eighth International Ocean and Polar Engineering Conference (ISOPE) 2018-June 244-250 2018年6月

    ISSN:1098-6189

    eISSN:1555-1792

  38. Rapid synthesis of colloidal silver triangular nanoprisms and their promotion of TiO2 photocatalysis on methylene blue under visible light 査読有り

    Ang Yu, Qijun Wang, Jiajie Wang, Chang-tang Chang

    CATALYSIS COMMUNICATIONS 90 75-78 2017年2月

    出版者・発行元: ELSEVIER SCIENCE BV

    DOI: 10.1016/j.catcom.2016.11.004  

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    This study synthesizes colloidal silver triangular nanoprisms via dual-reduction method. The particle morphology is controlled by changing the silver nitrate and polyvinylpyrrolidone concentrations. The triangular silver and spherical silver colloids are combined with TiO2 powder for methylene blue (MB) photodegradation in visible light. Comparisons between the spherical Ag (S-Ag) and experimental results show that the triangular silver (T-Ag) significantly promotes MB degradation under visible light, which contributes to the surface plasmon resonance effect on the Ag triangular nanoprisms. (C) 2016 Elsevier B.V. All rights reserved.

  39. Synthesized TiO2/ZSM-5 composites used for the photocatalytic degradation of azo dye: Intermediates, reaction pathway, mechanism and bio-toxicity 査読有り

    Kefu Zhou, Xin-Yan Hu, Bor-Yann Chen, Chung-Chuan Hsueh, Qian Zhang, Jiajie Wang, Yu-Jung Lin, Chang-Tang Chang

    APPLIED SURFACE SCIENCE 383 300-309 2016年10月

    DOI: 10.1016/j.apsusc.2016.04.155  

    ISSN:0169-4332

    eISSN:1873-5584

  40. Preparation of 13X from Waste Quartz and Photocatalytic Reaction of Methyl Orange on TiO2/ZSM-5, 13X and Y-Zeolite 査読有り

    Jia-Jie Wang, You-Hai Jing, Tong Ouyang, Chang-Tang Chang

    JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY 15 (8) 6141-6149 2015年8月

    DOI: 10.1166/jnn.2015.10202  

    ISSN:1533-4880

    eISSN:1533-4899

  41. Photocatalytic degradation of acetaminophen in aqueous solutions by TiO2/ZSM-5 zeolite with low energy irradiation 査読有り

    Chang-Tang Chang, Jia-Jie Wang, Tong Ouyang, Qian Zhang, You-Hai Jing

    MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE MATERIALS 196 53-60 2015年6月

    DOI: 10.1016/j.mseb.2014.12.025  

    ISSN:0921-5107

    eISSN:1873-4944

  42. Photoreduction of carbon dioxide by graphene-titania and zeolite-titania composites under low-intensity irradiation 査読有り

    Qian Zhang, Jia Jie Wang, Cheng-Fang Lin, You Hai Jing, Chang-Tang Chang

    MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING 30 162-168 2015年2月

    DOI: 10.1016/j.mssp.2014.09.049  

    ISSN:1369-8001

    eISSN:1873-4081

  43. Photocatalytic reduction of CO2 to energy products using Cu-TiO2/ZSM-5 and Co-TiO2/ZSM-5 under low energy irradiation 査読有り

    Jia-Jie Wang, You-Hai Jing, Tong Ouyang, Qian Zhang, Chang-Tang Chang

    CATALYSIS COMMUNICATIONS 59 69-72 2015年1月

    DOI: 10.1016/j.catcom.2014.09.030  

    ISSN:1566-7367

    eISSN:1873-3905

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産業財産権 6

  1. 岩石中の金属成分溶解方法、地中への二酸化炭素貯留方法、および二酸化炭素固定方法

    渡邉則昭, WANG JIAJIE, 岡本敦, 堰合涼太

    特許7726549

    産業財産権の種類: 特許権

  2. 二酸化炭素固定方法及び二酸化炭素固定装置

    渡邉則昭, Wang Jiajie, 佐藤王高, 公文翔一

    産業財産権の種類: 特許権

  3. 二酸化炭素固定方法、二酸化炭素回収方法、並びに二酸化炭素固定装置及 びこれを備えた環境配慮型産業設備

    渡邉則昭, Wang Jiajie

    産業財産権の種類: 特許権

  4. 岩石中の成分の溶解方法、地中への二酸化炭素の貯留方法、二酸化炭素の 固定方法、地中への流体の貯留方法、原油の回収方法、及び、天然ガスの回収方法

    渡邉 則昭, Wang Jiajie, 田村 諒太, 平野 ひとみ, 玉川 哲也

    産業財産権の種類: 特許権

  5. 金属成分及び陰イオン成分の回収方法

    渡邉則昭, Wang Jiajie

    産業財産権の種類: 特許権

  6. 二酸化炭素固定方法,二酸化炭素の回収方法,二酸化炭素固定装置,および環境配慮型産業設備

    渡邉則昭, WANG JIAJIE, 土屋範芳

    特許7345791

    産業財産権の種類: 特許権

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共同研究・競争的資金等の研究課題 8

  1. 生分解性キレート剤を利用した玄武岩層へのCO2地中貯留・鉱物固定促進法

    WANG JIAJIE, 渡邉 則昭, 坂本 靖英

    提供機関:Japan Society for the Promotion of Science

    制度名:Grants-in-Aid for Scientific Research

    研究種目:Grant-in-Aid for Scientific Research (B)

    研究機関:Tohoku University

    2024年4月 ~ 2029年3月

  2. 木質バイオマス灰の革新的資源循環利用と養分動態解析:持続可能な農業への新展開

    牧野知之, 濱本 亨, 井上千弘, 渡邉則昭, 王 佳婕, 森 岳人, 長沼 宏, 澤田 晃宏

    提供機関:Bio-oriented Technology Research Advancement Institution (BRAIN)

    2024年9月 ~ 2027年3月

  3. メコンデルタにおける安全な水資源を確保するためのヒ素汚染地下水浄化技術の開発

    宮内 啓介, 井上 千弘, 黄田 毅, WANG JIAJIE, 遠藤 銀朗

    提供機関:Japan Society for the Promotion of Science

    制度名:Grants-in-Aid for Scientific Research

    研究種目:Fund for the Promotion of Joint International Research (International Collaborative Research)

    研究機関:Tohoku Gakuin University

    2023年9月 ~ 2027年3月

  4. 地熱貯留層の新化学的刺激法:環境調和型キレート剤による選択的鉱物溶解

    渡邉 則昭, WANG JIAJIE

    提供機関:Japan Society for the Promotion of Science

    制度名:Grants-in-Aid for Scientific Research

    研究種目:Grant-in-Aid for Scientific Research (B)

    研究機関:Tohoku University

    2022年4月 ~ 2027年3月

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    高温ではあるものの浸透性が低い地熱貯留層を地熱発電に利用できるよう造成するためには,井戸を通じて貯留層の岩石を刺激し,高浸透性き裂網を形成する必要がある。そこで研究代表者らは最近,環境調和型キレート剤による選択的鉱物溶解を利用した新化学的刺激法を発明した。しかし,なぜ,一部の鉱物の溶解に起因して,大きな浸透性の増加が生じるのかという問いに対する明確な答えが存在せず,新化学的刺激法の有効性や課題を完全には明らかにできていない。本研究は,地熱貯留層条件下での岩石へのキレート剤流通実験を実施することで,選択的鉱物溶解と浸透性の増加の特徴を把握し,浸透性増加のプロセスを解明することを目的とする。また,新化学的刺激法の有効性や課題を明確にし,その課題に対する解決策を検討することも目的とする。 <BR> 本年度は,花崗岩における黒雲母の選択的溶解および浸透性増加のpH依存性を調査した。その結果,以下の2段階プロセスで浸透性の増加が生じることが明らかになった。つまり,まず,黒雲母が溶解することで孔隙が形成され,この孔隙を連結する流路の流動抵抗が低下し,卓越流路が形成される。その後,キレート剤は,程度の差はあるものの多種類の鉱物に対して溶解促進効果を持つため,卓越流路の幅が拡大し,浸透性が増加するというプロセスである。またこのプロセスに基づいて,浸透性の増加のための最適pHは単一のpHではなく,黒雲母の溶解による孔隙形成に適した弱酸性のpHと,キレート剤では達成できない石英の溶解促進に適したアルカリ性のpH(例えば,pH 4とpH 8)の組み合わせであることを明らかにした。加えて,花崗岩以外の岩石に対しても新化学的刺激法が適用可能であることを見出し,CO2の地中貯留および鉱物固定に関する特許を出願した。

  5. 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

    土屋 範芳, 鈴木 杏奈, WANG JIAJIE, 平野 伸夫, 窪田 ひろみ, TRENCHER GREGORY

    2021年4月 ~ 2025年3月

  6. 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

    WANG JIAJIE

    2021年4月 ~ 2024年3月

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    To address the remaining issues for CO2 mineralization, i.e., low carbon storage efficiency and poor economic performance, this research aims to develop a new CO2 mineralization system by using recyclable chelating agents at low to moderate temperatures. The new CO2 mineralization system has the potential merits of high efficiency and high economic performance, thus is promising to be applied widely to fight climate change. In the first year of research, the excellent role of chelating agent on promoting CO2 mineralization was confirmed. Based on clarification of the effects of various conditions on mineral dissolution and carbonation, the system was optimized. Moreover, the special role of chelating agents on controlling Ca carbonates purity and morphologies was confirmed (Wang et al., Sci. Rep., 2021), which has great significance in making valuable products for industrial application. After that, a sustainable process for enhanced CO2 mineralization using chelating agents were proposed and optimized (Wang et al., J. Environ. Chem. Eng., 2022). The technical feasibility was verified and potential challenges were proposed. Finally, the application of this system to various industrial wastes were also started and the behaviours of heavy metals and rare earth elements will also be investigated from the environmental science and resource aspects.

  7. Development of sustainable process for Ca/Mg extraction and CO2 mineralization using rocks assisted by a recyclable chelating agent.

    WANG JIAJIE

    提供機関:The Sumitomo Foundation

    研究機関:Tohoku University

    2020年10月 ~ 2021年11月

  8. 鉱物触媒水熱反応を用いた二酸化炭素の地中資源化システム

    WANG JIAJIE

    2018年4月 ~ 2020年3月

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    In this research year, reaction pathways and Fe behaviors during water-olivine-CO2 reactions under different reaction conditions were further summarized and published in the conferences of "17th ICCDU (Germany, 2019)" and 日本地球惑星科学連合大会(2019). The influences of the most common coexisting minerals (i.e., pyroxenes and spinel) with olivine in peridotite in natural system were clarified. The presence of orthopyroxene or Mg-Al spinel can accelerate olivine alteration in CO2-rich hydrothermal environments and change Fe(II) behaviors without significant influence on the total H2 yield in terms of long-time reaction. However, the mineralization of CO2 could not be enhanced. The role of orthopyroxene and Mg-Al spinel also changed with the reaction time. These findings suggest that using peridotite that contains pyroxenes or spinels for H2 production is also possible; in general, peridotite contains <20 wt% orthopyroxene or >10 wt% Mg-Al spinel is more suitable for H2 production than monomineralic olivine. For another, several ways for elevating H2 production (e.g., including Al sources) were also suggested. This part of research is a step forward in large-scale application of the new negative-carbon H2 production system. The results have been summarized into 2 papers published in the journal of “International Journal of Hydrogen energy (IF: 4.229)”.

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