環境プラズマ研究室トピックス

大久保雅章 (Masaaki Okubo)のホームページ

Reviews

[2022]
  1. M. Okubo, Recent Development of Technology in Scale-up of Plasma Reactors for Environmental and Energy Applications, Springer, Plasma Chemistry and Plasma Processing, 42, pp. 3-33 (2022.1).
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[2020]
  1. M. Okubo, Energy-Saving Clean Glass Melting System Symposium (Kansai Branch Report), J. Institute of Electrostatics Japan, 44 (1), p. 33 (2020.1) (in Japanese).
  2. M. Okubo, Production of Adhesive Fluoroplastic by Atmospheric Pressure Plasma Composite Treatment (Special Issue: Latest Trends in Surface Hydrophilic Treatment Using Plasma), J. Institute of Electrostatics Japan, 44 (3), pp. 101-105 (2020.5) (in Japanese).
[2019]
  1. M. Okubo, Improvement of Hydrophilicity of Resin/Glass/Metal Surface by Atmospheric Pressure Plasma and Applied Technology, Material Stage, Technical Information Institute Co., Ltd., 18 (12), pp. 45-52 (2019.3) (in Japanese).
[2018]
  1. M. Okubo, Analysis of Two-phase Flow and Secondary Flow in Electrostatic Precipitators, J. Aerosol Research, 33 (1), pp. 1-6 (2018.3) (in Japanese).
  2. M. Okubo, T. Kuroki, H. Fujishima, and H. Yamamoto, Basics of Plasma Hybrid Exhaust Gas Treatment Technology and Industrial Application (Exhaust Cleaning of Industrial Boilers and Glass Melting Furnaces), Clean Technology, Japan Industrial Publishing Co., Ltd., 28 (3), pp. 4-9 (2018.3) (in Japanese).
  3. M. Okubo, Innovation of Environmental Technology by Combined Plasma Processing (Environmental Conservation Laboratory, Department of Mechanical Engineering, Graduate School of Engineering, Osaka Prefecture University), Clean Technology, Japan Industrial Publishing Co., Ltd., 28 (4), pp. 71-74 (2018.4) (in Japanese).
  4. M. Okubo, Environmental Plasma Research and 20 Years of History (Introduction), J. Institute of Electrostatics Japan, 42 (4), p. 149 (2018.7) (in Japanese).
[2017]
  1. M. Okubo, Basics and Applications of Two-Phase Flow Analysis of Electrostatic Precipitators (Toward cleaning of PM2.5), Clean Technology, Japan Industrial Publishing Co., Ltd., 27 (5), pp. 41-46 (2017.5) (in Japanese).
  2. M. Okubo, “Innovation of Environmental Technology by Hybrid Plasma Processing” Environmental Conservation Laboratory, Department of Mechanical Engineering, Graduate School of Engineering, Osaka Prefecture University, J. Aerosol Research, 32 (2), p. 130 (2017.6) (in Japanese).
  3. M. Okubo, Atmospheric Pollutant Decomposition Technology Using Plasma (Future Cars that Clean the Air), Future Map Project, Toward the Realization of Children's Dream Machines, Journal of the Japan Society of Mechanical Engineers, 120 (1184), pp. 17-19 (2017.7) (in Japanese).
  4. M. Okubo, Application of Atmospheric Pressure Plasma Combined Treatment to the Surface Treatment Field, Special Issue, Atmospheric Pressure Plasma and Applied Technology Showing Various Developments, Industrial Materials, Nikkan Kogyo Shinbun, Ltd., 65 (10), pp. 22-26 (2017.10) (in Japanese).
[2016]
  1. M. Okubo and H. Fujishima, Fundamentals of Two-Phase Flow Numerical Simulation of Electrostatic Precipitator, J. Institute of Electrostatics Japan (Special Issue: Fundamentals of Plasma and Fluids), 40 (4), pp. 162-167 (2016.4) (in Japanese).
  2. M. Okubo, Trends in Plasma Surface Treatment Process and Application to Fluoroplastics Adhesion, Kino Zairyo, CMC Publishing Co., Ltd., 36 (10), pp. 3-11 (2016.10) (in Japanese).
  3. M. Okubo, Special Issue, Surface Treatment Technology Using Plasma (Introduction), Kino Zairyo, CMC Publishing Co., Ltd., 36 (10), 3 (2016.10) (in Japanese).
  4. M. Okubo, Report of the 33rd Aerosol Science and Technology Research Discussion Meeting, J. Aerosol Research, 31 (4), pp. 306-311 (2016.12) (in Japanese).
[2015]
  1. M. Okubo, Laboratory Introduction: Innovation of Environmental Technology by Plasma Hybrid Processing, Osaka Prefecture University, Graduate School of Engineering, Department of Mechanical Engineering, Environmental Protection Engineering Laboratory, Journal of the Japan Institution of Marine Engineering, 50 (1), pp. 125-128 (2015.1) (in Japanese).
  2. M. Okubo et al., Atmospheric Pressure Plasma Hybrid Surface Treatment for Fluoroplastics Adhesion (For Application to Medical Equipment, Biocompatible Materials, Electronic Devices), “Research Subcommittee on Advanced Physical Stimulation and Biological Response (P-SCC12)”, the Japan Society of Mechanical Engineers Division Council, Achievement Report, Chief Examiner: T. Sato (Tohoku University), pp. 63-66 (2015.2) (in Japanese).
  3. M. Okubo, Atmospheric Pressure Plasma Hybrid Surface Treatment for Fluoroplastic Adhesion: For Application to Medical Equipment, Biocompatible Materials, Electronic Equipment (Special Issue: Plasma Surface Treatment), Sekei Kako, (Journal of the Japan Society of Polymer Processing), The Japan Society of Polymer Processing, 27 (8), pp. 323-326 (2015.8) (in Japanese).
  4. M. Okubo, Trends in Air and Water Environment Protection Technology (Environmental Engineering), Yearbook of Mechanical Engineering, Journal of the Japan Society of Mechanical Engineers, 118 (1181), pp. 491-492 (2015.8) (in Japanese).
  5. M. Okubo, Improvement of Fluoroplastic Adhesion by Atmospheric Pressure Plasma Hybrid Treatment and Its Application (Adhesion between PTFE and Metal/Rubber), Settsucyaku no Gijyutsu (Technology of Adhesion), Adhesion Society of Japan, 35 (3), pp. 32-37 (2015.10) (in Japanese).
[2014]
  1. M. Okubo, News from the Student Association Kansai Branch “Exchange Meeting between Senior Association and Student Association”, Journal of the Japan Society of Mechanical Engineers, 117 (1144), p. 42 (2014.3) (in Japanese).
  2. Y. Otani, M. Okubo, and M. Adachi, Electrostatic Society-Aerosol Society Joint Symposium Special Lecture on Removal of Air Pollutants, J. Aerosol Research, 29 (1), p. 56 (2014.3) (in Japanese).
  3. M. Okubo, Received the Environmental Engineering Division Achievement Award, the Japan Society of Mechanical Engineers, Environmental Engineering Division News, Environment and the Earth: Creation of Amenity Space, No.25 (2014.4) (in Japanese).
  4. M. Okubo, Introduction of Activities of the Kansai Student Association of the Kansai Branch of the Japan Society of Mechanical Engineers (Knowledge Dissemination Activities for Machines for Elementary, Junior high, and University Students), Knowledge Dissemination Activities for Non-Destructive Inspection, Hihakaikensa, The Japanese Society for Non-destructive Inspection, 63 (9), pp. 478-485 (2014.9) (in Japanese).
  5. M. Okubo, Development of Industrial Plasma Environmental Cleaning Technology, Special Issue: New Development of Atmospheric Pressure Low Temperature Plasma Technology Development, Kino Zairyo, CMC Publishing, Co. Ltd., 34 (10), pp. 10-17 (2014.10) (in Japanese).
[2013]
  1. M. Okubo, Kuramae’s Campus Life, Tokyo Institute of Technology, Alumni Association, pp. 42-43 (2013.3) (in Japanese).
  2. M. Okubo, H. Fujishima, and K. Otsuka, Plasma Hybrid Processing Technology for Combustion Apparatus Exhaust Gas, Special Issue: New Development of Environmental Conservation Technology Utilizing Atmospheric Pressure Nonthermal Plasma (Chairman: M. Okubo), Journal of the Japan Society of Plasma Science and Nuclear Fusion Research, 89, 3, pp. 152-157 (2013.3) (in Japanese).
  3. M. Okubo, Introduction of the Special Issue: New Development of Environmental Conservation Technology Utilizing Atmospheric Pressure Nonthermal Plasma (Chairman: M. Okubo), Journal of the Japan Society of Plasma Science and Nuclear Fusion Research, 89, 3, pp. 137-138 (2013.3) (in Japanese).
  4. M. Okubo, Aftertreatment (Its Performance and New Method), Latest Technology and Trends of Internal Combustion Engines in the World, “27th CIMAC Shanghai Convention”, Report, 4. Exhaust Gas Aftertreatment, Session 6-5, Technical Bulletin, Japan Internal Combustion Engine Federation, No. 6, pp. 133-137 (2013.5) (in Japanese).
  5. T. Kuwahara, T. Kuroki, K. Yoshida, K. Hanamoto, K. Sato, and M. Okubo, Development of Super Clean Marine Diesel by Plasma Hybrid Exhaust Gas Treatment, Journal of the Japan Institution of Marine Engineering, 48 (4), pp. 540-545 (2013.7) (in Japanese).
  6. M. Okubo, T. Kuwahara, and T. Kuroki, Development of Super Clean Marine Diesel by Plasma Treatment (Total Cleaning System of PM/NOx), J. Institute of Electrostatics Japan, 37, 6, pp. 256-261 (2013.11) (in Japanese).
[2012]
  1. M. Okubo, T. Kuwahara, K. Yoshida, H. Fujishima, and T. Kuroki, Development of Super Clean Diesel/Combustion Furnace by Plasma Hybrid Processing, Dennetsu (Heat Transfer), The Heat Transfer Society of Japan, 51, 216, pp. 55-63 (2012.7) (in Japanese).
  2. M. Okubo, Exhaust Gas Returns to Clean Air, (Super Clean Boiler-, Viewpoint: Return, MIrai Zairyou (Future Materials), NTS Inc., 12, 9, pp. 4-8 (2012.9) (in Japanese).
  3. M. Okubo, New Adhesion Improvement Technology, (Low Environmental Load Plasma Hybrid Surface Treatment-, Special Issue: Adhesion Science and Technology, Journal of the Surface Finishing Society of Japan, The Surface Finishing Society of Japan, 63, 12, pp. 759-763 (2012.12) (in Japanese).
[2011]
  1. M. Okubo and T. Kuroki, Basics and Applications of Atmospheric Pressure Plasma Hybrid Treatment (Part 1) Improvement of Adhesiveness of Fluoroplastic and Plating Technology, Convertech, Converting Technical Institute, 39, 6, pp. 31-35 (2011.6) (in Japanese).
  2. T. Kuroki and M. Okubo, Basics and Applications of Atmospheric Pressure Plasma Hybrid Processing (Part 2), VOC Concentration and Decomposition Technology by Adsorption and Plasma Flow Desorption, Convertech, Converting Technical Institute, 39, 8, pp. 33-37 (2011.8) (in Japanese).
  3. M. Okubo and T. Kuroki, Fundamentals and Applications of Atmospheric Pressure Plasma Hybrid Treatment (Part 3) High-Performance Technology by Single-Sided Plasma Polymerization Treatment on Fibers and Fabrics, Convertech, Converting Technical Institute, 39, 9, pp. 105-108 (2011.9) (in Japanese).
  4. T. Kuroki, H. Fujishima, M. Okubo, and K. Otsuka, Development of Plasma Exhaust Gas Cleaning Biofuel Boiler System, Boiler Research, Japan Boiler Association, 370, pp. 21-27 (2011.12) (in Japanese).
[2010]
  1. M. Okubo, Prototype of Intelligent Comfortable Environment Sportswear (Giving Moisture and Air Suction Effect by Plasma Hybrid Treatment), Kikai no Kenkyu, 62-4, pp. 422-428 (2010.3) (in Japanese).
  2. M. Okubo and M. Tahara, Improvement of Fluoroplastic Adhesiveness by Atmospheric Pressure Plasma Hybrid Surface Treatment and Its Application, Journal of Japanese Society of Adhesion, 46, 3, pp. 116-121 (2010.3) (in Japanese).
  3. T. Kuroki, H. Fujishima, and M. Okubo, Plasma-Boiler Exhaust Gas Treatment System for Heat Supply by Wet Chemical Hybrid NOx Cleaning Method (Recent Research Results), Journal of the Institute of Electrical Engineers of Japan, 130A-10, pp. 885-891 (2010.10) (in Japanese).
[2009]
  1. T. Yamamoto, M. Okubo, and T. Kuroki, Economical High-Efficiency Gas Treatment Using Adsorption/Desorption/Low-Temperature plasma, J. Institute of Electrostatics Japan, 33, 1 pp. 51-55 (2009.2) (in Japanese).
[2008]
  1. M. Okubo, Atmospheric and Water Environment Protection Technology Using Atmospheric Pressure Low-Temperature Plasma Hybrid Technology, Journal of the Japan Society of Plasma Science and Nuclear Fusion Research, 84, 2, pp. 121-134 (2008.2) (in Japanese).
  2. M. Okubo, Environmental Engineering Division, Looking Back on 2007, Japan Society of Mechanical Engineers Environmental Engineering Division News, Environment and the Earth, 19, 2 (2008.4) (in Japanese).
  3. M. Okubo, Osaka Prefecture University Graduate School of Engineering, Department of Mechanical Engineering, Environmental Protection and Plasma Research Group (Introduction of Research Group), Journal of the Institute of Electrical Engineers of Japan, A, 128, 7, p. 501 (2008.7) (in Japanese).
  4. M. Okubo, T. Tanaka, Y. Chichibu, H. Nagaoka, and A. Kodama, Mechanical Engineering Yearbook, Environmental Engineering (Trends in Environmental Engineering, Trends in Noise/Vibration Book Intention Technology, Trends in Waste Treatment/Recycling Technology, Trends in Air/Water Environmental Conservation Technology, Environmentally Friendly Energy Using Adsorbent Materials Technology Trends), Journal of the Japan Society of Mechanical Engineers, 111, 1077, pp. 682-684 (2008.8) (in Japanese).
[2007]
  1. M. Okubo, Environmental Engineering Division Aspirations for activities in 2007, Environment and the Earth, Japan Society of the Mechanical Engineers, Environmental Engineering Division Newsletter, 18, pp. 1-2 (2007.5) (in Japanese).
  2. K. Kawamoto, M. Nishimura, H. Kawabata, M. Okubo, H. Nagaoka, and S. Kametani, Environmental Engineering (Mechanical Engineering Yearbook 2007), Journal of the Japan Society of Mechanical Engineers, 110, 1065, pp. 612-614 (2007.8) (in Japanese).
  3. M. Okubo and T. Hibino, Development of Fluoroplastic Film with Improved Adhesive Strength by Atmospheric Pressure Plasma Polymerization, JETI (Japan Energy & Technology Intelligence), 55, 12, pp. 42-45 (2007.11) (in Japanese).
  4. M. Okubo, K. Yoshida, and T. Yamamoto, Pilot Plant Test of Dioxin Decomposition in Waste Incinerator Exhaust Using Atmospheric Pressure Nanosecond Pulse Corona Plasma, Nagare, JSME Fluid Engineering Division Newsletter, http://www.jsme-fed.org/newsletters/2007_12/no3.html#ctop (2007.12) (in Japanese).
[2006]
  1. M. Okubo and T. Yamamoto, Diesel Exhaust Particle/NOx Cleaning Technology Based on Plasma Hybrid Process, J. Aerosol Research, 21-3, pp. 220-225 (2006.8) (in Japanese).
  2. M. Okubo, Trends in Air Pollution Control Technology (Mechanical Engineering Yearbook), Journal of the Japan Society of Mechanical Engineers, 109-1053, pp. 656-656 (2006.8) (in Japanese).
  3. T. Kuroki and M. Okubo, T. Yamamoto, Environmental Cleaning Technology Using Plasma Desorption (Toluene Concentration Technology Using Honeycomb Adsorbent and Plasma Desorption), Clean Technology, Japan Industrial Publishing Co., Ltd., 16-9, pp. 9-12 (2006.9) (in Japanese).
  4. T. Kuroki, K. Yoshida, M. Okubo, and T. Yamamoto, Decomposition of Harmful Substances in Wastewater by Gas-Liquid Interfacial Plasma, Kankyo Jyoka Gijyutsu (Environmental Cleaning Technology), 5-11, pp. 53-56 (2006.11) (in Japanese).
[2005]
  1. M. Okubo, Development of Noncatalytic Cleaning System for Diesel Engine Exhaust Gas Using Nonthermal Plasma, Journal of the Japan Society of Mechanical Engineers, 108-1044, pp. 872-872 (2005) (in Japanese).
  2. M. Okubo and T. Yamamoto, Deodorization Technology Using Low-Temperature Nonthermal Plasma (Simultaneous Removal of Malodorous Gas and Fine Particles Using a Plasma Processing Filter), J. Institute of Electrostatics Japan, 29-5, pp. 263-268 (2005) (in Japanese).
[2004]
  1. M. Okubo and T. Yamamoto, Deodorization Technology Using Nonequilibrium Low Temperature Plasma-Simultaneous Removal of Odorous Gas and Fine Particles Using Plasma Processing Filter, Clean Technology, Japan Industrial Publishing Co., Ltd., 14 [8], pp. 55-59 (2004) (in Japanese).
[2002]
  1. M. Okubo and T. Yamamoto, About the DPF Regeneration Method Using Nonthermal Plasma, J. Institute of Electrostatics Japan, 26-6, pp. 254-255 (2002) (in Japanese).
[2000]
  1. T. Yamamoto and M. Okubo, Yamamoto Laboratory, Department of Energy System Engineering, Faculty of Engineering, Osaka Prefectural University, J. Institute of Electrostatics Japan, 24, 3, pp. 165-165 (2000) (in Japanese).