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Researcher Information

last modified:2019/08/02

Associate Professor HIGASHI Hidenori

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Faculty, Affiliation

Faculty of Frontier Engineering,Institute of Science and Engineering

College and School Educational Field


School of Frontier Engineering, College of Science and Engineering

Laboratory

Thermofluid and Particle System Laboratory

Academic Background

【Academic background(Doctoral/Master's Degree)】
Kyushu University Master 199603 Completed
【Academic background(Bachelor's Degree)】
Kyushu University 199403

Career

Kyushu University Faculty of Engineering Research Associate(1997/04/01-)
Kyushu University Research Associate(1999/04/01-)
Kyushu University Research Associate(2000/04/01-)
Kanazawa University Faculty of Engineering Research Associate(2004/03/01-)
Kanazawa University Research Associate(2004/04/01-)
Kanazawa University Assistant Professor(2007/04/01-)
Kanazawa University Assistant Professor(2008/04/01-)
Kanazawa University Associate Professor(2016/01/01-)
Kanazawa University Associate Professor(2018/04/01-)

Year & Month of Birth

Academic Society

The Society of Chemical Engineering of Japan
AIChE
Japan Society of Thermophysical Properties

The Society of Powder Technology, Japan
The Society of Separation Process Engineers, Japan
Japanese Society of Engineering Education

The American Association for Aerosol Research

Award

The American Association for Aerosol Research
The American Association for Aerosol Research
The American Association for Aerosol Research
The American Association for Aerosol Research
○Outstanding Paper Award of Journal of Chemical Engineering of Japan 2006(2007/03/09)
○SANEYOSHI SCHOLARSHIP FOUNDATION(2004/09/03)
○SANEYOSHI SCHOLARSHIP FOUNDATION(2004/09/03)

Specialities

Properties in chemical engineering process/Transfer operation/Unit operation

Speciality Keywords

Supercritical carobon dixoide, Phase equilibria, Molecular dynamics, aerosol, nanoparticle

Research Themes

Experimant and prediction for solubilities of solute in supercritical carbon dioxide

Measurement and correlation of phase equilibria at high pressuer

Prediction of fluid properties by molecular simulation

Micronization of pharmaceutical substances by rapid expansion of supercritical solution

Entrainer effect on solubilities of solute in supercritical carbon dioxide

Solubility od disperse dyes in supercritical carbon dioxide and diffusion coefficient in polymer

Diffusion coefficients of solute in supercritical carbon dioxide

Books

Papers

  •  Concentration Dependence of Diffusion Coefficients for Supercritical Carbon Dioxide + Naphthalene System FLUID PHASE EQUILIBRIA 194-197 1161-1167 2002/03
  •  Development of a Solution Model to Correlate Solubilities of Inorganic Compounds in Water Vapor Under High Temperatures and Pressures JOURNAL OF SUPERCRITICAL FLUIDS 21 2 105-110 2001/10
  •  Calculation of Self-Diffusion and Tracer Diffusion Coefficients near the Critical Point of Carbon Dioxide Using Molecular Dynamics Simulation INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH 39 12 4567-4570 2000/12
  •  Calculation of Diffusion Coefficients for Carbon Dioxide + Solute System near the Critical Conditions by Non-Equilibrium Molecular Dynamics Simulation FLUID PHASE EQUILIBRIA 219 55-60 2004/05
  •  Measurement and Correlation of Solubilities for Trifluoromethylbenzoic Acid Isomers in Supercritical Carbon Dioxide Hidenori HIGASHI, Yoshio IWAI, Kaoru MIYAZAKI, Yoshiyuki OGINO, Miyuki OKI and Yasuhiko ARAI JOURNAL OF SUPERCRITICAL FLUIDS 33 1 15-20 2005/01

show all

  •  Measurement and Correlation for Solubilities of Alkali Metal Chlorides in Water Vapor at High Temperature and Pressure Hidenori HIGASHI, Yoshio IWAI, Kaoru MIYAZAKI, Yoshiyuki OGINO, Miyuki OKI and Yasuhiko ARAI FLUID PHASE EQUILIBRIA 228 547-551 2005/02
  •  Molecular Dynamics Simulation of Fluorination Effect for Solvation of Trifluoromethylbenzoic acid Isomers in Supercritical Carbon Dioxide Hidenori HIGASHI, Yoshio IWAI, Kaoru MIYAZAKI and Yasuhiko ARAI MOLECULAR SIMULATION 31 10 725-730 2005/08
  •  Comparison of Molecular Models Used in Molecular Dynamics Simulation for Tracer Diffusion Coefficients of Naphthalene and Dimethylnaphthalene Isomers in Supercritical Carbon Dioxide Hidenori HIGASHI, Yoshio IWAI and Yasuhiko ARAI FLUID PHASE EQUILIBRIA 234 1 51-55 2005/07
  •  Diffusion Coefficients of Cetyl Alcohol in Supercritical Carbon Dioxide Hidenori HIGASHI, Yoshio IWAI, Tsuyoshi ODA, Kengo MURAI and Yasuhiko ARAI JOURNAL OF CHEMICAL ENGINEERING OF JAPAN 38 11 865-869 2005/11
  •  Estimation of Boiling and Melting Points of Light, Heavy and Complex Hydrocarbons by Means of a Modified Group Vector Space Method Hengde Li, Hidenori HIGASHI and Kazuhiro TAMURA FLUID PHASE EQUILIBRIA 239 2 213-222 2006/01
  •  Application of Association Model for Solubilities of Alkali Metal Chloride in Water Vapor at High Temperatures and Pressures Hidenori HIGASHI, Yoshio IWAI, Yoshiaki KITANI, Kota MATSUMOTO, Yusuke SHIMOYAMA and Yasuhiko ARAI JOURNAL OF CHEMICAL ENGINEERING OF JAPAN 39 10 1029-1034 2006/10
  •  Application of Molecular Simulation to Calculate Diffusion Coefficients near Critical Conditions Hidenori HIGASHI Proceedings og The 5th International Seminar for Engineering Frontiers I-1-I-20 2005/08
  •  Measurement of solubilities for rhodium complexes and phosphine ligands in supercritical carbon dioxide Yusuke SHIMOYAMA, Masanori SONODA, Kaoru MIYAZAKI, Hidenori HIGASHI, Yoshio IWAI, Yasuhiko ARAI JOURNAL OF SUPERCRITICAL FLUIDS 44 3 266-272 2008/04
  •  Effect of cation species on solubilities of metal chlorides in water vapor at high temperatures and pressures Yusuke Shimoyama, Hidenori Higashi, Seiya Tsuzaki, Fumio Okazaki, Yoshiaki Kitani, Yoshio Iwai, Yasuhiko Arai JOURNAL OF SUPERCRITICAL FLUIDS 50  1-5 2009/10
  •  Calculation of Diffusion Coefficient for Supercritical Carbon Dioxide and Carbon Dioxide + Naphthalene System by Molecular Dynamics Simulation Applied EPM2 Model MOLECULAR SIMULATION 36 10 772 2010/09
  •  Intra- and inter-molecular potential parameters for molecular dynamics simulation of benzene and cyclohexane mixture Higashi, Hidenori; Miyake, Yasufumi; Tamura, Kazuhiro; Seto, Takafumi; Otani, Yoshio Journal of Chemical Engineering of Japan 47 12 849-854 2014/01/01 
  •  Effect of Nucleation Temperature on Detecting Molecular Ions and Charged Nanoparticles with a Diethylene Glycol-Based Particle Size Magnifier Kim, Seyoung;Iida, Kenjiro;Kuromiya, Yusuke;Seto, Takafumi;Higashi, Hidenori;Otani, Yoshio AEROSOL SCIENCE AND TECHNOLOGY 49 1 35-44 2015/01/01 
  •  Conformation-dependent dynamics of macromolecular ions in the gas phase under an electrostatic field: A molecular dynamics simulation Tamadate, T., Orii, T., Higashi, H., Otani, Y., Kumita, M., Seto, T. Journal of Aerosol Science 2019
  •  Methanol adsorption behaviors of compression-molded activated carbon fiber with PTFE Kumita, M., Yamawaki, N., Shinohara, K., Higashi, H., Kodama, A., Kobayashi, N., Seto, T., Otani, Y. International Journal of Refrigeration 94 127-135 2018
  •  How does the packing density of a metal screen affect the mechanism for catching highly charged nanoparticles? Tamadate, T., Fujimoto, T., Choi, H.-J., Higashi, H., Otani, Y., Seto, T. Journal of Aerosol Science 119 22-30 2018
  •  Synthesis of nanoparticles by laser ablation: A review Kim, M., Osone, S., Kim, T., Higashi, H., Seto, T. KONA Powder and Particle Journal 34 80-90 2017
  •  Calculation of self-diffusion coefficients of the [BMIM][TFSA]/water system by molecular dynamics simulation Higashi, H., Kumita, M., Seto, T., Otani, Y. Molecular Simulation 43 1430-1435 2017
  •  Application of centrifugal filter to aerosol size distribution measurement Tanaka, Y., Choi, H.-J., Shimadzu, K., Higashi, H., Seto, T., Kumita, M., Otani, Y. Aerosol Science and Technology 51 1254-1261 2017
  •  Deposition of thick, rigid and size-controlled silica particle layer on aluminum sheet for water vapor adsorption Kumita, M., Oya, T., Matsui, K., Suwa, Y., Kodama, A., Higashi, H., Seto, T., Otani, Y. Applied Thermal Engineering 124 815-819 2017
  •  Local surface modification of quartz glass by the laser-induced reactive deposition of carbon clusters Osone, S., Hirasawa, M. , Kumita, M., Higashi, H., Sawada, K., Hara, K. Matsuki, A., Seto, T., Otani, Y., Taguchi, E., Yasuda, H. Journal of Chemical Engineering of Japan 49 10 920-924 2016
  •  Phase Transition and Restructuring of Carbon Nanoparticles Induced by Aerosol Laser Irradiation T. Seto, A. Inoue, H. Higashi, Y. Otani, M. Kohno, M. Hirasawa Carbon 70 224-232 2014/01
  •  Charge Neutralization of Aerosol Carbon Nanofibers Y. Tanaka, H. Higashi, E. Manirakiza, T. Seto, Y. Otani, M. Hirasawa Journal of Chemical Engineering of Japan 47 8 644-650 2014/08
  •  Effect of Nucleation Temperature on Detecting Molecular Ions and Charged Nanoparticles with a Diethylene Glycol-Based Particle Size Magnifier S. Kim, K. Iida, Y. Kuromiya, T. Seto, H. Higashi, Y. Otani  Aerosol Science and Technology 49 1 35-44 2014/12
  •  Focused Deposition of Nanoparticles on Polymer Film with an Improved TSI-Nanoparticle Sampler (Model 3089) K. Fukumori, H. Higashi, T. Naito, N. Shiratori, N. Hama, M. Kumita, T. Seto, Y. Otani Aerosol Science and Technology 49 6 363-370 2015/04
  •  Simultaneous Ion and Neutral Evaporation in Aqueous Nanodrops: Experiment, Theory, and Molecular Dynamics Simulation H. Higashi, T. Tokumi, C. Hogan Jr., H. Suda, T. Seto, Y. Otani Physical Chemistry Chemical Physics 17 15746-15755 2015/05
  •  Direct Calculation of Mutual Diffusion Coefficients of Binary System using Non-Equilibrium Molecular Dynamics Simulation H. Higashi, K. Tamura, T. Seto, Y. Otani Fluid Phase Equiliburia 402 83-88 2015/05

Conference Presentations

Arts and Fieldwork

Patent

Theme to the desired joint research

Grant-in-Aid for Scientific Research

○「複合収着材ナノ細孔内の金属塩の結晶性制御と次世代ケミカル冷凍機の実現」(2018-2020) 
○「迅速な水蒸気吸着と熱移動を可能にする多孔質シリカ/金属複合吸着体の開発」(2015-2017) 
○「機能キャリアとしての多価帯電ミストの蒸発・分裂ダイナミクス」(2015-2017) 
○「シリコン量子ドットへの原子膜物質の気相析出による界面制御」(2015-2017) 
○「PM2.5除去用エアフィルタ試験法の開発」(2014-2017) 
○「超臨界流体物性制御によるレーザー支援ナノ材料合成および形態制御」(2015-2017) 
○「超臨界溶体急速膨張法による微粒子形成のための基盤構築」(2012-2014)
○「超臨界二酸化炭素中での分散染料の溶解度およびポリマー中への拡散係数」(2008-2010) 
○「高温高圧水中への無機化合物の溶解度および溶液構造の解明」(2004-2006) 
○「超臨界二酸化炭素に対する含フッ素有機化合物の溶解度および拡散係数に関する研究」(2000-2002) 
○「超臨界二酸化炭素中での芳香族化合物の拡散係数の濃度依存性に関する研究」(1998-1999) 
○「フッ素修飾基の導入による超臨界二酸化炭素に対する溶解度の促進」(2005-2006) 
○「天然物の超臨界流体抽出におよぼす水の挙動解析」(2000-2003) 

Classes (Bachelors)

○Statistical Analysis 2(2018)
○Exercise in Chemical Engineering B(2018)
○Exercise in Chemical Engineering C(2018)
○Chemical and Biochemical Engineering Research 1(2018)
○Unit Operations B1(2018)
○Unit Operations B2(2018)
○Internship(2018)
○Exercise in Chemical and Biochemical Engineering B(2018)
○Experiments in Chemical and Biochemical Engineering(2018)
○Experiments in Chemical Engineering A(2018)
○Practical Exercise of Chemical Engineering(2018)
○Technical English in Engineering B(2018)
○Introduction to Advanced Technologies(2018)
○International Training B(2018)
○GS English Language for Undergraduates II (English for Science and Engineering)(2018)
○Basic Laboratory in Chemical and Biochemical Engineering(2018)
○Statistical Analysis 1(2018)
○Fundamentals of Unit Operations(2018)
○Experiments in Chemical Engineering B(2018)
○Chemical Engineering Stoichiometry(2018)
○GS English Language for Undergraduates I (English for Science and Engineering)(2018)
○International Training A(2018)
○Exercise in Chemical and Biochemical Engineering B(2018)
○Experiments in Chemical and Biochemical Engineering(2018)
○Experiments in Chemical Engineering A(2018)
○Exercise in Chemical Engineering B(2018)
○Chemical and Biochemical Engineering Research 1(2018)
○GS English Language for Undergraduates I (English for Science and Engineering)(2018)
○Practical Exercise of Chemical Engineering(2018)
○Exercise in Chemical Engineering C(2018)
○Statistical Analysis 1(2018)
○Chemical Engineering Stoichiometry(2018)
○Fundamentals of Unit Operations(2018)
○Statistical Analysis 2(2018)
○Chemical and Biochemical Engineering Research 2(2018)
○GS English Language for Undergraduates II (English for Science and Engineering)(2018)
○Technical English in Engineering B(2018)
○Chemical and Biochemical Engineering Research 1(2017)
○Experiments in Chemical Engineering A(2017)
○Technical English in Engineering B(2017)
○Guide to Chemical and Biochemical Engineerings(2017)
○Exercise in Chemical and Biochemical Engineering B(2017)
○GS English Language for Undergraduates I (English for Science and Engineering)(2017)
○GS English Language for Undergraduates II (English for Science and Engineering)(2017)
○Chemical and Biochemical Engineering Research 2(2017)
○Experiments in Chemical Engineering B(2017)
○Statistical Analysis 2(2017)
○Fundamentals of Unit Operations(2017)
○Chemical Engineering Stoichiometry(2017)
○Exercise in Chemical Engineering B(2017)
○Statistical Analysis 1(2017)
○Experiments in Chemical and Biochemical Engineering(2017)
○Basic Laboratory in Chemical and Biochemical Engineering(2017)
○Exercise in Chemical Engineering C(2017)
○Practical Exercise of Chemical Engineering(2017)
○Fundamentals of Unit Operations(2016)
○Chemical Engineering Stoichiometry(2016)
○Chemical and Biochemical Engineering Research 1(2016)
○Exercise in Chemical Engineering C(2016)
○Exercise in Chemical Engineering B(2016)
○Statistical Analysis(2016)
○Experiments in Chemical and Biochemical Engineering(2016)
○Experiments in Chemical Engineering A(2016)
○Exercise in Chemical and Biochemical Engineering B(2016)
○Experiments in Chemical Engineering B(2016)
○Chemical and Biochemical Engineering Research 2(2016)
○Practical Exercise of Chemical Engineering(2016)
○Basic Laboratory in Chemical and Biochemical Engineering(2016)

Classes (Graduate Schools)

○Advanced Physical Chemistry B(2018)
○Advanced Physical Chemistry A(2018)
○Practice in Career Development(2018)
○Research Skills C(2018)
○Research work in Chemical Engineering(2018)
○Engineering Fluid Dynamics A(2018)
○Basic Chemical Engineering A(2018)
○Engineering Fluid Dynamics B(2018)
○Basic Chemical Engineering A(2018)
○Basic Chemical Engineering B(2018)
○Computational Chemical Engineering(2018)
○Engineering Fluid Dynamics A(2018)
○Research work in Chemical Engineering(2018)
○Research Skills D(2018)
○Research Skills C(2018)
○Basic Chemical Engineering A(2017)
○Basic Chemical Engineering B(2017)
○Research work in Chemical Engineering(2017)
○Computational Chemical Engineering(2017)
○Advanced Physical Chemistry A(2017)
○Research Skills C(2017)
○Research Skills D(2017)
○Research work in Chemical Engineering(2017)
○Engineering Fluid Dynamics A(2017)
○Engineering Fluid Dynamics B(2017)
○Advanced Physical Chemistry B(2017)
○Basic Chemical Engineering A(2017)
○Basic Chemical Engineering B(2017)
○Research Skills D(2016)
○Research work in Chemical Engineering(2016)
○Advanced Physical Chemistry B(2016)
○Research work in Chemical Engineering(2016)
○Research Skills C(2016)
○Mechanical Separation Engineering A(2016)
○Basic Chemical Engineering B(2016)
○Computational Chemical Engineering(2016)
○Advanced Physical Chemistry A(2016)
○Mechanical Separation Engineering A(2016)
○Basic Chemical Engineering A(2016)

International Project

International Students

Lecture themes

Others (Social Activities)

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