2022/01/29 更新

写真a

マイヤズ コーリ アダム
マイヤズ コーリ アダム
所属
理工学術院 理工学術院総合研究所
職名
次席研究員(研究院講師)

兼担

  • 理工学術院   基幹理工学部

 

論文

  • Direct mineralization of atmospheric CO2 using natural rocks in Japan

    Corey Myers, Takao Nakagaki

    Environmental Research Letters   15 ( 12 ) 124018 - 124018  2020年11月  [査読有り]

    担当区分:筆頭著者

    DOI

  • Direct gas-solid CO2 capture and mineralization of iron and steel making flue gas with slag

    Corey A. Myers, Takao Nakagaki

       2019年09月

    担当区分:筆頭著者

  • Quantification of the CO2 mineralization potential of ironmaking and steelmaking slags under direct gas-solid reactions in flue gas

    Corey A. Myers, Takao Nakagaki, Kosei Akutsu

    International Journal of Greenhouse Gas Control   87   100 - 111  2019年08月  [査読有り]

    担当区分:筆頭著者

    DOI

  • Gigatonne-scale reduction of CO2 emissions via mineralization using iron and steel slags

       2019年07月

  • Prediction of Nucleation Lag Time from Elemental Composition and Temperature for Iron and Steelmaking Slags Using Deep Neural Networks

    Corey Adam Myers, Takao Nakagaki

    ISIJ International   59 ( 4 ) 687 - 696  2019年04月  [査読有り]

    担当区分:筆頭著者

    DOI

  • Feasibility study of net CO2 sequestration using seawater desalination brine with profitable polyproduction of commodities

    Yohei Tsubuku, Corey A. Myers, Takao Nakagaki

       2019年04月

  • CCS、CCUSのレビューと技術展望 ~コスト、量的寄与、リスクの観点から~

    日本機械学会誌、特集:二酸化炭素分離回収と貯留・固定および利用技術   122 ( 1203 )  2019年02月

  • Influence of particle shape on reaction rate of MgO during CO2 mineralization/aggregate production using wastewater brine

    Kohei Sato, Yohei Tsubuku, Corey A. Myers, Takao Nakagaki

       2018年

  • CO2 utilization via mineralization into construction aggregate using waste brine

    Kohei Sato, Yohei Tsubuku, Corey A. Myers, Takao Nakagaki

       2018年

  • Effect of Solidification and Cooling Methods on the Efficacy of Slag as a Feedstock for CO2 Mineralization

    Corey Adam Myers, Takao Nakagaki

    ISIJ International   58 ( 2 ) 211 - 219  2018年  [査読有り]

    担当区分:筆頭著者

    DOI

  • APPLICATION OF QUENCHING TO POLYCRYSTALLINE METALLURGICAL SLAGS TO REDUCE COMMINUTION ENERGY AND INCREASE MINERAL LIBERATION

    Corey A. Myers, Takao Nakagaki

    International Heat Transfer Conference 16    2018年  [査読有り]

    担当区分:筆頭著者

    DOI

  • Enhanced Recovery Process of Calcium Oxide and Metals from Steelmaking Slag with Net Carbon Sequestration

    Corey Adam Myers, Takao Nakagaki, Takuya Mitamura

    Energy Procedia   114   6246 - 6255  2017年07月  [査読有り]

    担当区分:筆頭著者

    DOI

  • Improvement of HCl recovery efficiency in brine-based CO2 mineralization using Mg

    Kei Shiraishi, Yohei Tsubuku, Corey A. Myers, Takao Nakagaki

       2017年

  • THOR® Steam Reforming Technology for the Treatment of Ion Exchange Resins and More Complex Wastes Such as Fuel Reprocessing Wastes

    J. Brad Mason, Corey A. Myers

    ASME 2010 13th International Conference on Environmental Remediation and Radioactive Waste Management, Volume 1    2010年01月  [査読有り]

     概要を見る

    The THOR® fluidized bed steam reforming process has been successfully operated for more than 10 years in the United States for the treatment of low- and intermediate-level radioactive wastes generated by commercial nuclear power plants. The principle waste stream that has been treated is ion exchange resins (IER) and Dry Active Waste (DAW), but various liquids, sludges, and solid organic wastes have also been treated. The principle advantages of the THOR® process include: (a) high volume reduction on the order of 5:1 to 10:1 for IER and up to 50:1 for high plastic content DAW streams depending on the waste type and waste characteristics, (b) environmentally compliant off-gas emissions, (c) reliable conversion of wastes into mineralized products that are durable and leach-resistant, and (d) no liquid effluents for treatment of most radioactive wastes. Over the past ten years, the THOR® process has been adapted for the treatment of more complex wastes including historic defense wastes, reprocessing wastes, and other wastes associated with the fuel cycle. As part of the U.S. Department of Energy (DOE) environmental remediation activities, the THOR® dual bed steam reforming process has successfully processed: (a) Idaho National Laboratory (INL) Sodium-Bearing Waste (SBW), (b) Savannah River Tank 48 High Level Waste (HLW), (c) Hanford Low Activity Waste (LAW), and (d) Hanford Waste Treatment Plant Secondary Waste (WTP-SW) liquid slurry simulants. The THOR® process has been shown in pilot plant operations to successfully process various simulated liquid, radioactive, nitrate-containing wastes into environmentally safe, leach-resistant, solid mineralized products. These mineralized products incorporate normally soluble ions (e.g. - Na, K, Cs, Tc), sulfates, chloride salts, and fluoride salts into an alkali alumino-silicate mineral matrix that inhibits the leaching of those ions into the environment. The solid mineralized products produced by the THOR® process exhibit durability and leach resistance characteristics superior to borosilicate waste glasses. As a result of this work, a full-scale THOR® process facility is currently under construction at the DOE’s Idaho site for the treatment of SBW and a full-scale facility is in the final design stage for the DOE’s Savannah River Site for the treatment of Tank 48 high level waste. Recent work has focused on the development of new monolithic waste formulations, the extension of the THOR® process to new waste streams, and the development of modular THOR® processes for niche waste treatment applications. This paper will provide an overview of current THOR® projects and summarize the processes and outcomes of the regulatory and safety reviews that have been necessary for the THOR® process to gain acceptance in the USA.

    DOI

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講演・口頭発表等

  • Direct gas-solid CO2 capture and mineralization of iron and steel making flue gas with slag

    Corey A. Myers

    IEAGHG 5th Post Combustion Capture Conference  

    発表年月: 2019年09月

  • Profitable negative emissions while producing water

    Corey A. Myers

    2019 Gordon Research Seminar  

    発表年月: 2019年

  • Experimental determination of CO2 mineralization depth of slag minerals at CO2 concentrations available in iron and steelmaking flue gases

    Corey A. Myers

    14th International Conference on Greenhouse Gas Control Technologies  

    発表年月: 2018年

  • CCUS development supported by prediction via Deep Neural Networks

    Corey A. Myers

    IEAGHG Summer School  

    発表年月: 2018年

  • ディープ・ニューラル・ネットワークを用いた複雑な組成の液体物性の効率的な予測

    発表年月: 2017年

  • Molten slag property estimation using deep neural networks for advanced material recycling

    Corey A. Myers

    1st International Conference on Energy and Material Efficiency and CO2 Reduction in the Steel Industry  

    発表年月: 2017年

▼全件表示

 

現在担当している科目

▼全件表示

 

メディア報道

  • Crushed rocks can save the planet

    新聞・雑誌

    執筆者: 本人以外  

    Aftonbladet  

    https://www.aftonbladet.se/nyheter/a/vAl0BX/forskare-krossad-sten-kan-radda-klimatet  

    2020年12月