Researcher Profile and Settings

Researcher

• Name

  NODA Reiji

Affiliation

• Department of Environmental Engineering Science, Associate Professor

Profile and Settings

• Name

  Noda, Reiji

Alternate Names

• Reiji Noda,R. Noda,Reiji NODA,R. NODA
• Reiji Noda
• R. Noda
• Reiji NODA
• R. NODA
• Dr. Reiji Noda
• Reji Noda
• 野田 玲冶

Affiliation

• Affiliation

  Graduate School of Science and Technology

• Job title

  Associate Professor

Research Experience

• Gunma University

Research Activities

Research Areas

• Environmental science/Agricultural science, Environmental materials/recycling technology
• Manufacturing technology (mechanical, electrical/electronic, chemical engineering), Catalytic processes and resource chemistry

Published Papers

• Molecular dynamics simulations of ovalbumin adsorption at squalene/water interfac, Qingxia Xiong;Ying Ren;Yufei Xia;Guanghui Ma;Reiji Noda;Wei Ge, 2022, Chinese Journal of Chemical Engineering, 50, 369, 378

  DOI
• Effects of Steam on Ni/Al2O3 Catalysts for Ammonia Decomposition, Atsumi, Ryosuke; Noda, Reiji; Takagi, Hideyuki; Vecchione, Luigi; Di Carlo, Andrea; Del Prete, Zaccaria; Kuramoto, Koji, Nov. 2014, INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 53, 45, 17849, 17853, Scientific journal

  DOI
• Ammonia decomposition activity over Ni/SiO2 catalysts with different pore diameters, Atsumi, Ryosuke; Noda, Reiji; Takagi, Hideyuki; Vecchione, Luigi; Di Carlo, Andrea; Del Prete, Zaccaria; Kuramoto, Koji, Sep. 2014, INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 39, 26, 13954, 13961, Scientific journal

  DOI
• アルカリ金属化合物の基礎蒸発特性, 野田玲治; 高野剛志; 成瀬一郎; 大竹一友, 1997, 23
• Fundamental Evolution Characteristics of Alkali Metal Compounds in Coal Combustion, MURAKAMI Takahiro; NODA Reiji; NARUSE Ichiro; OHTAKE Kazutomi, 1999, Chemical engineering, 25, 3, 389, 394, Scientific journal

  DOI
• Development of Novel Method for Measurement of Floc Strength Using Supersonic., 野田玲治; 岸敦男; 笠倉忠夫; 樫野泰司, 1999, EICA, 4, 2, 41, 47
• 高圧圧搾による汚泥中水分測定, 野田玲治; 樫野泰司; 笠倉忠夫; 松原極, 2000, 37
• Plastics from the Zero Emission Perspective., KASAKURA Tadao; NODA Reiji, 2001, ENVIRONMENTAL SCIENCE, 14, 4, 407, 414

  DOI
• リバーニング処理による飛灰ペレット中の重金属溶出特性とその抑制, 成 昊鎮; 野田 玲治; 伊藤 一郎; 堀尾 正靱, 2004, 30
• 事業型生ごみ発生現場におけるコンポスト化前処理装置の意義と効果, 姜虎; 笹尾彰; 澁澤栄; 八木茂; 岡山毅; 野田玲治, 2005, 67, 4
• Reaction analysis of a direct methanol fuel cell employing a porous carbon plate operated at high methanol concentrations, Nobuyoshi Nakagawa; Kazuya Sekimoto; M. Shahbudin Masdar; Reiji Noda, Jan. 2009, JOURNAL OF POWER SOURCES, 186, 1, 45, 51, Scientific journal

  DOI
• Axial gas profiles in a bubbling fluidised bed biomass gasifier, Davide Ross; Reji Noda; Masayuki Horio; Adam Kosminski; Peter Ashman; Peter Mullinger, Jul. 2007, FUEL, 86, 10-11, 1417, 1429, Scientific journal

  DOI
• Coupled Recycling of PVC and Glass Wastes Producing Chlorine-Free Fuels and Cement Feed Stock, Ho-Jin Sung; Reiji Noda; Masayuki Horio, 2009, Environmental Science and Technology, 43, 1, 47, 52, Scientific journal

  DOI
• Steam Gasification of Cellulose and Wood in a Fluidized Bed of Porous Clay Particles, Reiji Noda; Tomoyuki Ito; Nao Tanaka; Masayuki Horio, 2009, JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, 42, 7, 490, 501, Scientific journal

  DOI
• Fundamentals on combustion and gasification behavior of coal particle trapped on molten slag layer, R Noda; Naruse, I; K Ohtake, Apr. 1996, JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, 29, 2, 235, 241, Scientific journal

  DOI
• Trends in Waste Plastics and Recycling, Tadao KASAKURA; Reiji NODA; Kenichi HASHIUDO, 1999, Journal of Material and Waste Management, 1
• Evaluation of Material Recycle for Plastics, Reiji NODA; Masanori KOMATSU; Eriko SUMI; Tadao KASAKURA, 2001, Journal of Material and Waste Management, 3
• Optimization of amino acids production from waste fish entrails by hydrolysis in sub- and supercritical water, K Kang; AT Quitain; H Daimon; R Noda; N Goto; HY Hu; K Fujie, Feb. 2001, CANADIAN JOURNAL OF CHEMICAL ENGINEERING, 79, 1, 65, 70, Scientific journal

  DOI
• Adhesion force measurement of a DPI size pharmaceutical particle by colloid probe atomic force microscopy, M Tsukada; R Irie; Y Yonemochi; R Noda; H Kamiya; W Watanabe; EI Kauppinen, Mar. 2004, POWDER TECHNOLOGY, 141, 3, 262, 269, Scientific journal

  DOI
• Thermal treatment of waste PVC and chlorine neutralization by waste glass, HJ Sung; R Noda; M Horio, Mar. 2005, JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, 38, 3, 220, 228, Scientific journal

  DOI
• Particle design and evaluation of dry CO2 recovery sorbent with liquid holding capability, Satoshi Kimra; Masamitsu Adachi; Reiji Noda; Masayuki Horio, 2005, Chemical Engineering and Science, 60, 14, 4061, 4071, Scientific journal

  DOI
• Evaluation of lubrication force on colliding particles for DEM simulation of fluidized beds, Wenbin Zhang; Reiji Noda; Masayuki Horio, 2005, Powder Technology, 158, 1-3, 92, 101, Scientific journal

  DOI
• Mineralogical stabilization of heavy metals from alkali melting furnace fly ash by thermal treatment with adjustment of its chemical composition, HJ Sung; K Kamiya; R Noda; M Horio, Dec. 2005, JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, 38, 12, 1054, 1068, Scientific journal

  DOI
• Biomass gasification with clay minerals using a multi-bed reactor system, D Ross; R Noda; M Adachi; K Nishi; N Tanaka; M Horio, 2005, Circulating Fluidized Bed Technology VIII, 468, 473, International conference proceedings
• A realistic collision model based on lubrication in fluidized beds, WB Zhang; R Noda; M Horio, 2005, Circulating Fluidized Bed Technology VIII, 336, 342, International conference proceedings
• Liquid Fuel Production from Biomass Tar by Hydrogenation, Dr. Moe; Thanda Kyi; Dr. Reiji Noda, Mar. 2017, IJSRP, 7, 3
• Steam Gasification of Cellulose and Wood in a Fluidized Bed of Porous Clay Particles, NODA Reiji;ITO Tomoyuki;TANAKA Nao;HORIO Masayuki, Jul. 2009, JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, 42, 4, 490, 501
• Coupled Recycling of PVC and Glass Wastes Producing Chlorine-Free Fuels and Cement Feed Stock, Sung, Ho-Jin;Noda, Reiji;Horio, Masayuki, 2009, ENVIRONMENTAL SCIENCE & TECHNOLOGY, 43, 1, 47, 52

  DOI
• Reaction analysis of a direct methanol fuel cell employing a porous carbon plate operated at high methanol concentrations, Nakagawa, Nobuyoshi;Sekimoto, Kazuya;Masdar, M. Shahbudin;Noda, Reiji, 2009, JOURNAL OF POWER SOURCES, 186, 1, 45, 51

  DOI
• Steam Gasification of Cellulose and Wood in a Fluidized Bed of Porous Clay Particles, Noda, Reiji;Ito, Tomoyuki;Tanaka, Nao;Horio, Masayuki, 2009, JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, 42, 7, 490, 501
• Ammonia decomposition activity over Ni/SiO2 catalysts with different pore diameters, Atsumi, Ryosuke;Noda, Reiji;Takagi, Hideyuki;Vecchione, Luigi;Di Carlo, Andrea;Del Prete, Zaccaria;Kuramoto, Koji, 2014, INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 39, 26, 13954, 13961

  DOI
• Effects of Steam on Ni/Al2O3 Catalysts for Ammonia Decomposition, Atsumi, Ryosuke;Noda, Reiji;Takagi, Hideyuki;Vecchione, Luigi;Di Carlo, Andrea;Del Prete, Zaccaria;Kuramoto, Koji, 2014, INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 53, 45, 17849, 17853

  DOI
• Major Tar Compounds in Raw Producer Gas and Deposits from a Small Downdraft Gasifier: Analysis and Comparison, Anh Vo Cong;Enomoto, Hiroshi;Naryanto, Rizqi Fitri;Fukadu, Kazushi;Zong, Zheng;Chunti, Chuntima;Noda, Reiji, 2020, BIORESOURCES, 15, 1, 1773, 1790

  DOI
• The Effect of Moisture Content on the Tar Characteristic of Wood Pellet Feedstock in a Downdraft Gasifier, Naryanto, Rizqi Fitri;Enomoto, Hiroshi;Anh Vo Cong;Fukadu, Kazuki;Zong, Zheng;Delimayanti, Mera Kartika;Chunti, Chuntima;Noda, Reiji, 2020, APPLIED SCIENCES-BASEL, 10, 8

  DOI
• Agglomeration and Defluidization of Silica Sand and Bentonite Particles during Empty Fruit Bunch (EFB) Ash Addition in Bubbling Fluidized Bed (BFB) Processes, Prima, Zuldian;Noda, Reiji, 2021, JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, 54, 7, 369, 379

  DOI
• Influence of coal treatments on the Ni loading mechanism of Ni-loaded lignite char catalysts, Tipo, Ronnachai;Chaichana, Chatchawan;Noda, Reiji;Chaiklangmuang, Suparin, 2021, RSC ADVANCES, 11, 56, 35624, 35643

  DOI
• Study on the Themochemical NH_3 Decomposition for Efficient Hydrogen Production, KURAMOTO Koji;ATSUMI Ryosuke;NODA Reiji;NAKAGAWA Nobuyoshi;TSUJIGUCHI Takuya;TAKAGI Hideyuki, Mar. 2010, 2010, 15, 49, 52
• 資源・エネルギー, 成瀬 一郎;神原 信志;汲田 幹夫;大友 順一郎;坂田 興;野田 玲治;義家 亮, Oct. 2012, 76, 10, 620, 627
• 粒子・流体プロセス, 上ノ山 周;佐伯 隆;吉川 史郎;藤岡 沙都子;野田 玲治;後藤 邦彰;瀬戸 章文, Oct. 2013, 77, 10, 689, 694
• 資源・エネルギー, 伊原 学;蘆田 隆一;窪田 光宏;菊地 隆司;坂田 奥;野田 玲治, Oct. 2013, 77, 10, 734, 740
• P227 Biomass Gasification with Clay Bed Material in a Circulating Fluidized Bed, NAKAMURA Toru;SHIRAIWA Yoshiko;HORIO Masayuki;NODA Reiji;TANAKA Nao, 2007, Proceedings of the Conference on Biomass Science, 2, 0, 94, 95
• 3-17 Biomass Gasification with Clay Bed Material in a Circulating Fluidized Bed, Nakamura Toru;Horio Masayuki;Noda Reiji;Tanaka Nao, 2007, Proceedings of the Annual Conference of The Japan Institute of Energy, 16, 0, 136, 137
• O403 Steam gasification of woody biomass by a circulating fluidized bed of clay materials, Noda Reiji;Saito Yoshiko, 2009, Proceedings of the Conference on Biomass Science, 4, 0, 36, 37
• 3-90-4 Fluidization Behavior of a Fluidized Bed by Air Injection from a Side Port, NODA Reiji;MASUDA Yumi;HIRANO Soshi;TSUJIGUCHI Takuya;NAKAGAWA Nobuyoshi, 2009, Proceedings of the Annual Conference of The Japan Institute of Energy, 18, 0, 206, 207
• 7-4-1 Development of a co-production process of raw material and fuel for a cement process by concurrent processing of PVC and glass wastes, MATSUMOTO Satoru;NODA Reiji, 2010, Proceedings of the Annual Conference of The Japan Institute of Energy, 19, 0, 344, 345
• 4-8-2 Development of hydrogen production from ammonia as chemical hydrogen storage medium, TAKAGI Hideyuki;ATSUMI Ryosuke;NODA Reiji;MATSUOKA Koichi;ANDO Yuji;KURAMOTO Koji, 2012, Proceedings of the Annual Conference of The Japan Institute of Energy, 21, 0, 252, 253
• 6-3-3 Development of low carbon city based on local wood resource utilization, NODA Reiji;TAKARADA Takayuki;NEDU Kikuo;AMAGAI Kenji;KITAGAWA Koichiro;Ouchi Sakae, 2012, Proceedings of the Annual Conference of The Japan Institute of Energy, 21, 0, 286, 287
• 4-3-3 Pore structure of catalyst support affecting activity for ammonia decomposition reaction, ATSUMI Ryosuke;TAKAGI Hideyuki;NODA Reiji;KURAMOTO Koji, 2013, Proceedings of the Annual Conference of The Japan Institute of Energy, 22, 0, 172, 173
• 3-5-3 Study on an appropriate tar evaporation process for hydrogenation liquid fuel production from biomass, KOBAYASHI Hironori;NODA Reiji;HOSHINO Tomoyuki;KANEKO Keiichi, 2014, Proceedings of the Annual Conference of The Japan Institute of Energy, 23, 0, 100, 101
• 4-4-3 Development of NH_3 cracking fluidized-bed reactor for hydrogen production, ATSUMI Ryosuke;NODA Reiji;TAKAGI Hideyuki;KURAMOTO Koji, 2014, Proceedings of the Annual Conference of The Japan Institute of Energy, 23, 0, 190, 191
• P-5 Appropriate catalysts for methanol synthesis from biomass in Indonesia, IGUCHI Shiori;NODA Reiji, 2015, Proceedings of the Annual Conference of The Japan Institute of Energy, 24, 0, 338, 339
• P-35 Development of Cu and Zn--loaded carbon based-catalysts for methanol synthesis reaction, TANAKA Toshiyuki;IGUCHI Shiori;KANNARI Naokatsu;NODA Reiji;TAKARADA Takayuki;YANTI Fusia Mirda;VALENTINO Novio;JUWITA Asmi Rima, 2017, Proceedings of the Conference on Biomass Science, 12, 0, 119, 120
• 3-2-4 Evaluation of clay catalysts for biomass fluid catalytic cracking gasification, SUN Yan;SUDO Yuta;TANAKA Nao;Sholihah Atti;NODA Reiji, 2016, Proceedings of the Annual Conference of The Japan Institute of Energy, 25, 0, 66, 67
• 3-5-4 Particle circulation rate modeling including back pressure difference of J shaped loop seal, KANEKO Wakana;SUGIMOYTO Masaya;UEHARA Takumi;NODA Reiji, 2017, Proceedings of the Annual Conference of The Japan Institute of Energy, 26, 0, 98, 99
• No.1-16 Methanol synthesis activity of Cu and Zn-loaded carbon catalysts, KANNARI Naokatsu;TANAKA Toshiyuki;SATO Kazuyoshi;NODA Reiji;TAKARADA Takayuki, 2017, Proceedings of Conference on Coal Science, 54, 0, 32, 33
• 4-2 Effect of Tar Formation on Biomass Downdraft Gasification Reactor of Wood Pellet with Variation of Moisture Content, Naryanto Rizqi Fitri;Enomoto Hiroshi;Anh Vo Cong;Chunti Chuntima;Noda Reiji, Jan. 2019, Proceedings of the Conference on Biomass Science, 14, 0, 39, 40
• 1-6 An Influence of Alkaline Accumulation on Defluidization of a Clay and Silica sand Particles Fluidized Bed, PRIMA Zuldian;NODA Reiji, Jan. 2019, Proceedings of the Conference on Biomass Science, 14, 0, 11, 12
• The Influence of Wood Pellet Feedstock Water Content on Tar Component in Biomass System Using Downdraft Gasifier, NARYANTO Rizqi Fitri;ENOMOTO Hiroshi;HIEDA Noburu;TERAOKA Yoshikazu;CHUNTI Chuntima;NODA Reiji, May 2019, Journal of the Japan Institute of Energy, 98, 5, 115, 118
• 3-4-2 Tar Characteristics of Auto-thermal Small Downdraft Gasifier using Cedar Pellets, Anh Vo Cong;Enomoto Hiroshi;Naryanto Rizqi Fitri;Chunti Chuntima;Noda Reiji, Jul. 2019, Proceedings of the Annual Conference of The Japan Institute of Energy, 28, 0, 90, 91
• Homogenization of Heavy Tar and Plastics by Thermal Co-treatment to Prepare Liquid Fuel Feedstock, CHUNTI Chuntima;NODA Reiji, Nov. 2019, Journal of the Japan Institute of Energy, 98, 11, 299, 311
• 3-18　Analysis of the reaction process of tar forming in biomass pyrolysis and gasification over a wide temperature range by CHEMKIN, ZHOU Zhaohe;ENOMOTO Hiroshi;FUKADU Kazushi;ZONG Zheng;NODA Reiji, Jul. 2020, Proceedings of the Annual Conference of The Japan Institute of Energy, 29, 0, 72, 73
• 3-17　ガス化炉出口からガスエンジンに至るまでのタール成分の挙動, NAGASHIMA Takumi;NODA Reiji;KOMATSU Takashi;SENDA Takeshi;TSUJIBAYASHI Ryosuke, Jul. 2020, Proceedings of the Annual Conference of The Japan Institute of Energy, 29, 0, 70, 71
• A Study on the Influence Factors of Catalytic Activity of Indonesian Clay by Multivariate Analysis, SUN Yan;SUDO Yuta;MASFURI Imron;VALENTINO Novio;SHOLIHAH Atti;NODA Reiji, Oct. 2020, Journal of the Japan Institute of Energy, 99, 10, 190, 203
• Future of Small Biomass Gasification Systems, NODA Reiji, Nov. 2020, Nihon Enerugii Gakkai Kikanshi Enermix, 99, 6, 613
• Agglomeration and Defluidization of Silica Sand and Bentonite Particles during Empty Fruit Bunch (EFB) Ash Addition in Bubbling Fluidized Bed (BFB) Processes, Prima Zuldian;Noda Reiji, Jul. 2021, JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, 54, 7, 369, 379
• Synthesis and Properties of the First 1-Silanaphthalene, TAKEDA Nobuhiro, 2002, 4024, 4026
• Fundamentals on Evaporation of Alkali Compounds., Noda Reiji;Takano Tsuyoshi;Naruse Ichiro;Ohtake Kazutomo, 1997, KAGAKU KOGAKU RONBUNSHU, 23, 5, 635, 643
• [9903]品質を考慮したプラスチックリサイクルのLCA, 野田 玲治, Jan. 1999, 63, 1, 53
• 高圧圧搾による汚泥中水分測定, 野田 玲治;ノダ レイジ;樫野 泰司;カシノ ヤスジ;笠倉 忠夫;カサクラ タダオ, Sep. 2000, 37, 455, 97, 106
• Fundamental Evolution Characteristics of Alkali Metal Compounds in Coal Combustion., MURAKAMI TAKAHIRO;NODA REIJI;NARUSE ICHIRO;OHTAKE KAZUTOMO, 1999, KAGAKU KOGAKU RONBUNSHU, 25, 3, 389, 394
• プラスチック・ゼロエミッション化の考察, 笠倉 忠夫;カサクラ タダオ;野田 玲治;ノダ レイジ, 2001, 14, 4, 407, 414
• 野田玲治, 2000, 48, 3, 42, 46
• プラスチックリサイクル解析システムの構築とその評価, 赤田 和美;野田 玲治;笠倉 忠夫, Nov. 2000, 11回, 1, 177, 179
• 熱可塑性プラスチックのマテリアルリサイクルの定量的評価方法, 野田 玲治;ノダ レイジ;角 江里子;スミ エリコ;笠倉 忠夫;カサクラ タダオ, Mar. 2000, 48, 3, 42, 46
• 超音波を利用した新しいフロック強度測定法の開発, 野田 玲治;ノダ レイジ;岸 敦男;キシ アツオ;樫野 泰司;カシノ ヤスジ, Sep. 1999, 4, 2, 41, 47
• Implication of an In-situ Garbage Pre-composting Device in a Local Industrial Waste Management System, JIANG Hu;SASAO Akira;SHIBUSAWA Sakae;YAGI Shigeru;OKAYAMA Tsuyoshi;NODA Reiji, 2005, JOURNAL of the JAPANESE SOCIETY of AGRICULTURAL MACHINERY, 67, 4, 81, 89
• 太陽熱温水器に関する消費者選好のアンケート調査, 秋澤 淳;アキサワ アツシ;野田 玲治;ノダ レイジ;岩岡 正博;イワオカ マサヒロ, Jun. 2006, 25, 13, 16
• 3-22. Effects of alkaline salts on Pyrolysis and Combustion of Biomass, Fujiwara Satoko;Nagao Atsushi;Noda Reiji;Horio Masayuki, 2003, Proceedings of the Annual Conference of The Japan Institute of Energy, 12, 0, 194, 195
• 3-23. Alkali metal evolution characteristics of wood biomass during pyrolysis and gasification, Noda Reiji;Matsuhisa Yuko;Ito Tomoyuki;Horio Masayuki, 2003, Proceedings of the Annual Conference of The Japan Institute of Energy, 12, 0, 196, 197
• 8-4. Energy Recovery and Hydrogen Production from PVC, SUNG Ho-jin;HIROTANI Tomoya;NODA Reiji;HORIO Masayuki, 2003, Proceedings of the Annual Conference of The Japan Institute of Energy, 12, 0, 364, 365
• 7-5. Hydrogen Production from PVC Wastes, DUMEIGNIL Franck;SAKURAI Shinsaku;QIAN Eika W.;ISHIHARA Atsushi;NODA Reiji;HORIO Masayuki, 2004, Proceedings of the Annual Conference of The Japan Institute of Energy, 13, 0, 294, 295
• 7-10. Waste PVC recycle-Chlorine neutralization by waste glass and the effect of calcium carbonate in PVC, SUNG Ho-jin;HIROTANI Tomoya;NODA Reiji;HORIO Masayuki, 2004, Proceedings of the Annual Conference of The Japan Institute of Energy, 13, 0, 304, 305
• 3-27. DEVELOPMENT OF BIOMASS CHAR STOVE FOR DOMESTIC UTILIZATION, Amit Suri;Sysanet Chanounla;Shimizu Eizou;Noda Reiji;Horio Masayuki, 2005, Proceedings of the Annual Conference of The Japan Institute of Energy, 14, 0, 150, 151
• 3-29. Outlook for the Biomass Town Plan of Rumoi City and Shiura Village, ABE Shinichirou;NODA Reiji, 2005, Proceedings of the Annual Conference of The Japan Institute of Energy, 14, 0, 154, 155
• 5-4. Observation of Vaporization Behavior of Heavy Metal Compounds by Using Electro Thermal Vaporization (ETV) ICP-MS, NODA Reji;KAMIYA Kosuke;HORIO Masayuki, 2005, Proceedings of the Annual Conference of The Japan Institute of Energy, 14, 0, 274, 275
• 3-19. Biomass Gasification with Clay Bed Material in Circulating Eluidized Bed, Nakamura Toru;Adachi Masamitsu;Nishii Kazuo;Noda Reiji;Horio Masayuki;Tanaka Nao, 2006, Proceedings of the Annual Conference of The Japan Institute of Energy, 15, 0, 143, 144
• 7-23. Process flow scheme and thermal efficiency of thermal utilization of waste polyvinylchloride (PVC) with neutralization by waste glass in cement process, NODA Reiji;SUNG Ho-jin;Honya Akihiro;Sysanet C hanounla;HORIO Masayuki;Miura Keiichi;Ohgiri Tetsuo;Sato Koichro, 2006, Proceedings of the Annual Conference of The Japan Institute of Energy, 15, 0, 401, 402
• 3-29. Potential of Woody Biomass Energy with Continuous Harvesting, AOYAGI Satoshi;NODA Reiji;HORIO Masayuki;IWAOKA Masahiro;FUJIMURA Hiroyuki, 2002, Proceedings of the Annual Conference of The Japan Institute of Energy, 80Anniv, 0, 200, 201
• 8-7. Development of CO_2 adsorption ceramic particles with low adhesion characteristics for high efficiency CO_2 recovery fluidized bed system, KIMURA Satoshi;NAGASHIMA Taro;NISHII Kazuo;NODA Reiji;HORIO Masayuki;NAKAGAWA Kazuaki, 2002, Proceedings of the Annual Conference of The Japan Institute of Energy, 80Anniv, 0, 308, 309
• 8-10. Leaching Characteristic of Heavy Metals in Pelletized Fly Ash after Reburning, SUNG Hojin;KAMIYA Kousuke;NODA Reiji;HORIO Masayuki;ITO Ichiro, 2002, Proceedings of the Annual Conference of The Japan Institute of Energy, 80Anniv, 0, 314, 315
• O208 Steam gasification of wood biomass by a circulating fluidized bed of waste clay brick, NODA Reiji;ADACHI Masamitsu;NAKAMURA Toru;ROSS Davide;HORIO Masayuki;NISHII Kazuo, 2006, Proceedings of the Conference on Biomass Science, 1, 0, 40, 41
• P232 Gasification effects of clay brick particles in fluidized bed steam gasification of wood biomass, NODA Reiji;SHIRAIWA Yoshiko;ROSS Davide;HORIO Masayuki, 2006, Proceedings of the Conference on Biomass Science, 1, 0, 120, 121
• OS0605 Study on Development Strategy of Low-carbon Community Based on Regional Characteristics of Kiryu City, Amagai,Kenji;Takarada,Takayuki;Nedu,Kikuo;Noda,Reiji, Sep. 2009, 2009, 173, 174
• Leaching Characteristic and Control of Heavy Metals in Pelletized Fly Ash with Reburning, SUNG Ho-Jin;NODA Reiji;ITO Ichiro;HORIO Masayuki, 2004, KAGAKU KOGAKU RONBUNSHU, 30, 1, 65, 72
• Plastics from the Zero Emission Perspective., KASAKURA Tadao;NODA Reiji, 2001, ENVIRONMENTAL SCIENCE, 14, 4, 407, 414
• 参加型地域計画のための公共プラットフォームPEGASUSの開発, 堀尾 正靱;野田 玲治;小林 久;町田 聡;日高 正人, 2006, 2006f, 0, 705, 705
• 青森県板柳町をモデルケースとした地域エネルギーの自給について, 阿部 慎一郎;野田 玲治;堀尾 正靱, 2006, 2006f, 0, 706, 706
• 地域エネルギー自給のための要素技術群、システムおよび導入手法について, 堀尾 正靱;野田 玲治;清水 栄蔵;田中 直, 2006, 2006f, 0, 707, 707
• 廃ガラスによる中和を利用した廃PVCの高効率エネルギー変換～中和反応器プロセス設計～, 本谷 昭博;成 昊鎮;野田 玲治;堀尾 正靱, 2007, 2007, 0, 586, 586
• 廃レンガを流動媒体とするバイオマス水蒸気ガス化, 白岩 佳子;野田 玲治;堀尾 正靭;田中 直, 2007, 2007, 0, 692, 692
• 粘土系流動媒体を用いたバイオマス循環流動層ガス化, 中村 徹;白岩 佳子;野田 玲治;田中 直;堀尾 正靱, 2007, 2007, 0, 693, 693
• パッシブDMFCにおける反応生成物の定量, 関本 和也;我妻 真嗣;中里 勉;野田 玲治;中川 紳好, 2007, 2007, 0, 173, 173
• 新規電極構造体を有するパッシブDMFCの動作特性, 増見 直人;アブデルカリーム モハマド;中里 勉;野田 玲治;中川 紳好, 2007, 2007, 0, 174, 174
• 噴流型粉粒流動層における超微粒子の飛散挙動, 中里 勉;柴田 大輔;野田 玲治;中川 紳好, 2007, 2007, 0, 260, 260
• 流動層熱処理による二酸化チタンの窒素ドープに及ぼす原料の影響, 中里 勉;阿部 祐介;野田 玲治;中川 紳好, 2008, 2008, 0, 77, 77
• バイオマス熱分解ガスを動力とする流動層の流動化条件の把握, 増田 有美;平野 荘士;辻口 拓也;中川 紳好;野田 玲治, 2009, 2009f, 0, 209, 209
• CO2 80%削減に向けた桐生市の取り組み, 天谷 賢児;野田 玲治;関 庸一;志賀 聖一;宝田 恭之;根津 紀久雄;佐羽 宏之;北川 紘一郎;小竹 裕人, 2009, 2009f, 0, 220, 220
• バイオマス熱分解ガスを動力とする流動層のためのバイオマス供給方法の検討, 西村 慎一朗;辻口 拓也;中川 紳好;野田 玲治, 2009, 2009f, 0, 892, 892
• 流動層バイオマスガス化における廃棄物系触媒の好適反応条件, 齊藤 嘉子;田中 直;辻口 拓也;中川 紳好;野田 玲治, 2009, 2009f, 0, 893, 893
• 粘土系廃棄物を流動媒体とするバイオマスの流動層水蒸気ガス化, 野田 玲治;白岩 佳子;田中 直;堀尾 正靱, 2005, 2005f, 0, 373, 373
• ガス導入ICP/MSによるバイオマス含有金属類の蒸発挙動の解明, 野田 玲治;成田 昇;神谷 幸資;堀尾 正靱, 2005, 2005f, 0, 380, 380
• ガス化および燃焼過程での木質中のアルカリ金属蒸発挙動, 山本 淳司;松久 有子;野田 玲治;堀尾 正靭, 2005, 2005f, 0, 381, 381
• 廃ガラスによる中和を利用した廃PVCの高効率エネルギー変換～ガラス中のNaとHClの中和反応速度の解析～, 本谷 昭博;成 昊鎮;廣谷 友哉;野田 玲治;堀尾 正靭, 2005, 2005f, 0, 401, 401
• 粒径分布を考慮した離散要素法による流動層シミュレーション, 野田 玲治;田上 暢之;堀尾 正靱, 2005, 2005f, 0, 783, 783
• 粘土系廃棄物流動媒体によるバイオマスの水蒸気ガス化プロセスの構築, 野田 玲治;中村 徹;田中 直;堀尾 正靱, 2007, 2007f, 0, 1179, 1179
• カーボンナノファイバー中間層を用いたDMFC電極の高性能化, 岡田 将尭;紺田 祐理;中里 勉;野田 玲治;中川 紳好, 2007, 2007f, 0, 1230, 1230
• 流動層による低温活性型メタン部分酸化触媒の製造, 中里 勉;坂本 匠;中島 伸一郎;野田 玲治;中川 紳好, 2007, 2007f, 0, 1251, 1251
• DEFC用アノード触媒としてのPtRuRh/Cの活性評価および生成物の定量, 金田 祐樹;我妻 真嗣;野田 玲治;中川 紳好, 2008, 2008f, 0, 268, 268
• パッシブDMFCの動作特性に及ぼす大気温度、湿度の影響, 須藤 淳史;野田 玲治;中川 紳好, 2008, 2008f, 0, 273, 273
• 触媒被覆型粒子の流動層メタン部分酸化活性, 中里 勉;坂本 匠;野田 玲治;中川 紳好;甲斐 敬美, 2008, 2008f, 0, 744, 744
• 流動層バイオマスガス化における廃棄物系触媒の好適反応条件, 齊藤 嘉子;田中 直;辻口 拓也;中川 紳好;野田 玲治, 2009, 2009, 0, 1, 1
• 新規DMFCに適した多孔質板構造, 吉利 司;辻口 拓也;野田 玲治;中川 紳好, 2009, 2009, 0, 481, 481
• 流動層バイオマスガス化における廃棄物系触媒の好適反応条件, 齊藤 嘉子;田中 直;辻口 拓也;中川 紳好;野田 玲治, 2010, 2010, 0, 370, 370
• 金属担持触媒を用いたアンモニア分解による水素製造, 熱海 良輔;高木 英行;野田 玲治;中川 伸好;辻口 拓也;倉本 浩司, 2010, 2010, 0, 645, 645
• 排ガス直接導入ICP-MSシステムによる廃棄物からの重金属放出挙動の直接観察, 小川 雄平;辻口 拓也;中川 紳好;野田 玲治, 2010, 2010, 0, 278, 278
• バイオマス熱分解ガスを動力とする流動層の流動化条件の把握, 増田 有美;平野 荘士;辻口 拓也;中川 紳好;野田 玲治, 2010, 2010, 0, 223, 223
• 粘土を流動媒体とするバイオマスの低温流動層ガス化, 野田 玲治;伊藤 知之;松久 有子;田中 直;堀尾 正靱, 2003, 2003f, 0, 313, 313
• 金属鉄-過酸化水素酸化法による高濃度有機性廃液の処理, 野田 玲治;ノダ レイジ;佐野 綾子;サノ アヤコ;笠倉 忠夫;カサクラ タダオ, Sep. 2000, 45, 9, 679, 684
• 化学工学を学びたい方への手引き, 内田 博久;野田 玲治;岩田 修一, Jan. 2015, 79, 1, 45, 52
• カーボンナノチューブを担体とするアンモニアの流動接触分解触媒, 野田 玲治;ノダ レイジ, Jul. 2017, 68, 7, 528, 533
• 高効率アンモニア分解のためのカーボンナノチューブ被覆流動媒体, 野田 玲治, 2018, 32, 39
• インドネシアに適合的なバイオマスガス化システムの開発, 野田 玲治;ノダ レイジ, Nov. 2018, 54, 11, 34, 42
• 循環流動層の安定運転を実現するパルス駆動型ループシールの開発, 野田 玲治;ノダ レイジ, Mar. 2020, 65, 3, 175, 182
• P227 Biomass Gasification with Clay Bed Material in a Circulating Fluidized Bed, NAKAMURA Toru;SHIRAIWA Yoshiko;HORIO Masayuki;NODA Reiji;TANAKA Nao, 2007, Proceedings of the Conference on Biomass Science, 2, 0, 94, 95

  DOI
• バイオマス・廃棄物エネルギー利用のロードマップ, HORIO Masayuki;, 2003
• 超音波を利用した新しいフロック強度測定法の開発, ;;, Sep. 1999, 4, 2, 41, 47
• 3-17 Biomass Gasification with Clay Bed Material in a Circulating Fluidized Bed, Nakamura Toru;Horio Masayuki;Noda Reiji;Tanaka Nao, 2007, Proceedings of the Annual Conference of The Japan Institute of Energy, 16, 0, 136, 137

  DOI
• O403 Steam gasification of woody biomass by a circulating fluidized bed of clay materials, Noda Reiji;Saito Yoshiko, 2009, Proceedings of the Conference on Biomass Science, 4, 0, 36, 37

  DOI
• 3-90-4 Fluidization Behavior of a Fluidized Bed by Air Injection from a Side Port, NODA Reiji;MASUDA Yumi;HIRANO Soshi;TSUJIGUCHI Takuya;NAKAGAWA Nobuyoshi, 2009, Proceedings of the Annual Conference of The Japan Institute of Energy, 18, 0, 206, 207

  DOI
• 7-4-1 Development of a co-production process of raw material and fuel for a cement process by concurrent processing of PVC and glass wastes, MATSUMOTO Satoru;NODA Reiji, 2010, Proceedings of the Annual Conference of The Japan Institute of Energy, 19, 0, 344, 345

  DOI
• Influence of coal treatments on the Ni loading mechanism of Ni-loaded lignite char catalysts, Ronnachai Tipo; Chatchawan Chaichana; Reiji Noda; Suparin Chaiklangmuang, Nov. 2021, RSC ADVANCES, 11, 56, 35624, 35643, Scientific journal

  DOI
• Agglomeration and Defluidization of Silica Sand and Bentonite Particles during Empty Fruit Bunch (EFB) Ash Addition in Bubbling Fluidized Bed (BFB) Processes, Zuldian Prima; Reiji Noda, Jul. 2021, JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, 54, 7, 369, 379, Scientific journal

  DOI
• Oil palm empty fruit bunch ash as a potassium source in the synthesis of NPK fertilizer, Arfiana; E. R. Finalis; I. Noor; S. D. Sumbogo Murti; H. Suratno; E. Rosyadi; H. Saputra; R. Noda, 17 May 2021, IOP Conference Series: Earth and Environmental Science, 749, 1, Scientific journal

  DOI
• A Study on the Influence Factors of Catalytic Activity of Indonesian Clay by Multivariate Analysis, Yan Sun; Yuta Sudo; Imron Masfuri; Novio Valentino; Atti Sholihah; Reiji Noda, Oct. 2020, JOURNAL OF THE JAPAN INSTITUTE OF ENERGY, 99, 10, 190, 203, Scientific journal

  DOI
• Major Tar Compounds in Raw Producer Gas and Deposits from a Small Downdraft Gasifier: Analysis and Comparison, Anh Vo Cong; Hiroshi Enomoto; Rizqi Fitri Naryanto; Kazushi Fukadu; Zheng Zong; Chuntima Chunti; Reiji Noda, Feb. 2020, BIORESOURCES, 15, 1, 1773, 1790, Scientific journal

  DOI
• The Effect of Moisture Content on the Tar Characteristic of Wood Pellet Feedstock in a Downdraft Gasifier, Rizqi Fitri Naryanto; Hiroshi Enomoto; Anh Vo Cong; Kazuki Fukadu; Zheng Zong; Mera Kartika Delimayanti; Chuntima Chunti; Reiji Noda, Feb. 2020, APPLIED SCIENCES-BASEL, 10, 8, Scientific journal

  DOI
• Homogenization of Heavy Tar and Plastics by Thermal Co-treatment to Prepare Liquid Fuel Feedstock, Chuntima Chunti; Reiji Noda, Nov. 2019, JOURNAL OF THE JAPAN INSTITUTE OF ENERGY, 98, 11, 299, 311, Scientific journal

  DOI
• BIOETHANOL PRODUCTION VIA SYNGAS FERMENTATION OF CLOSTRIDIUM LJUNGDAHLII IN A HOLLOW FIBER MEMBRANE SUPPORTED BIOREACTOR, Irika Devi Anggraini; Keryanti; Made Tri Ari Penia Kresnowati; Ronny Purwadi; Reiji Noda; Tomohide Watanabe; Tjandra Setiadi, May 2019, INTERNATIONAL JOURNAL OF TECHNOLOGY, 10, 3, 481, 490, Scientific journal

  DOI
• The Influence of Wood Pellet Feedstock Water Content on Tar Component in Biomass System Using Downdraft Gasifier, Rizqi Fitri Naryanto; Hiroshi Enomoto; Noburu Hieda; Yoshikazu Teraoka; Chuntima Chunti; Reiji Noda, May 2019, JOURNAL OF THE JAPAN INSTITUTE OF ENERGY, 98, 5, 115, 118, Scientific journal

  DOI
• Leaching characteristic and control of heavy metals in pelletized fly ash with reburning, HJ Sung; R Noda; Ito, I; M Horio, Jan. 2004, KAGAKU KOGAKU RONBUNSHU, 30, 1, 65, 72, Scientific journal

  DOI
• Influence of coal type on evolution characteristics of alkali metal compounds in coal combustion, Naruse, I; T Murakami; R Noda; K Ohtake, 1998, TWENTY-SEVENTH SYMPOSIUM (INTERNATIONAL) ON COMBUSTION, VOLS 1 AND 2, 27, 2, 1711, 1717, International conference proceedings

  DOI
• Pickering emulsion transport in skeletal muscle tissue: A dissipative particle dynamics simulation approach, Xuwei Liu; Wei Chen; Yufei Xia; Guanghui Ma; Reiji Noda; Wei Ge, Apr. 2024, Chinese Journal of Chemical Engineering, 68, 65, 75, Scientific journal

  DOI
• Molecular dynamics simulations of ovalbumin adsorption at squalene/water interfac, Qingxia Xiong; Ying Ren; Yufei Xia; Guanghui Ma; Reiji Noda; Wei Ge, 2022, Chinese Journal of Chemical Engineering, 50, 369, 378, Scientific journal

  DOI
• バイオマス・廃棄物エネルギー利用のロードマップ, 堀尾 正靭; 野田 玲治, 2003, Scientific journal
• Optimization of Syngas via tar reduction on empty palm fruit bunch (EFB) bubbling fluidized bed gasification using bentonite, Prima Zuldian; Nurdiah Rahmawati; Astri Pertiwi; Tyas Puspita Rini; Muhammad Arief Yamin; Ardian Salsa Rusmana; Edwin Permana; Erlan Rosyadi; Reiji Noda, 11 Jun. 2024, AIP Conference Proceedings, 3074, 1, International conference proceedings

  DOI
• Investigation of producer gas biomass gasification on reciprocated internal combustion engine, R. F. Naryanto; H. Enomoto; V. C. Anh; K. Fukadu; S. Iwai; R. Noda, 23 Apr. 2020, IOP Conference Series: Earth and Environmental Science, 460, 1, International conference proceedings

  DOI
• Preliminary study of activated carbon as support catalyst for low cost methanol production from biomass syngas, Fusia Mirda Yanti; Asmi Rima Juwita; Novio Valentino; S. D.Sumbogo Murti; Astri Pertiwi; Nurdiah Rahmawati; Tyas Puspita Rini; Atti Sholihah; Joni Prasetyo; Hens Saputra; Shiori Iguchi; Reiji Noda, 13 Apr. 2020, AIP Conference Proceedings, 2217, International conference proceedings

  DOI
• Methanol production from biomass syngas using Cu/ZnO/Al2O3 catalyst, Fusia Mirda Yanti; Novio Valentino; Asmi Rima Juwita; S. D.Sumbogo Murti; Astri Pertiwi; Nurdiah Rahmawati; Tyas Puspita Rini; Atti Sholihah; Joni Prasetyo; Hens Saputra; Shiori Iguchi; Reiji Noda, 06 Apr. 2020, AIP Conference Proceedings, 2223, International conference proceedings

  DOI
• Optimization on low cost methanol production utilizes syngas of biomass: Simulation and validation, Joni Prasetyo; Galuh Wirama Murti; Nurdiah Rahmawati; Astri Pertiwi; Sri Djangkung Sumbogo Murti; Tyas Puspitarini; Fusia Mirdayanti; Frendy Rian Saputro; Hens Saputra; Reiji Noda, 23 Apr. 2019, AIP Conference Proceedings, 2097, International conference proceedings

  DOI
• Utilization of empty fruit bunch (EFB) char in the production of NPK slow release fertilizer (SRF), Arfiana; Era R. Finalis; Fausiah; Ilhamsyah Noor; Erbert F. Destian; Dorit B.I. Nuswantoro; S. D.Sumbogo Murti; Hens Saputra; Reiji Noda, 23 Apr. 2019, AIP Conference Proceedings, 2097, International conference proceedings

  DOI
• Investigation of Loop Seal Operation By Pulse Air Injection for Improving the Performance and Stability, E. Rosyadi; I. Masfuri; T. Bagus; K. Wakana; R. Noda; Y. Sudo, 2019, Fluidization XVI, 175, 176, International conference proceedings
• Preliminary study of local catalyst for low cost methanol synthesis as subsequence process of a model system of biomass fluidized bed catalytic gasification, Joni Prasetyo; Nurdiah Rahmawati; Galuh Wirama Murti; S. D. Sumbogo Murti; Tyas Puspitarini; Astri Pertiwi; Fusia Mirdayanti; Erlan Rosyadi; Herman Hidayat; Adiarso; Yuta Sudo; Reiji Noda, 26 Nov. 2018, E3S Web of Conferences, 67, International conference proceedings

  DOI
• Study on low cost methanol production utilizes syngas of biomass, Joni Prasetyo; Astri Pertiwi; S. D.Sumbogo Murti; Tyas Puspitarini; Nurdiah Rahmawati; Fusia Mirdayanti; Adiarso; Shirota Rikiya; Yuta Sudo; Reiji Noda, 16 Aug. 2018, AIP Conference Proceedings, 2001, International conference proceedings

  DOI
• Investigation of biomass gasification using Indonesian clay as catalyst, S. D.Sumbogo Murti; Yuta Sudo; Sun Yan; Adiarso; Reiji Noda, 25 Jan. 2018, IOP Conference Series: Earth and Environmental Science, 105, 1, International conference proceedings

  DOI
• A novel process to produce chlorine-free fuel gas and char from waste PVC and waste glass, H. J. Sung; T. Hirotani; A. Honya; R. Noda; M. Horio, 2006, Studies in Surface Science and Catalysis, 159, 397, 400, International conference proceedings

  DOI
• Experimental and numerical investigations of the die filling of iron powders, Y. Ozaki; S. Uenosono; N. Tagami; K. Kuwagi; R. Noda; M. Horio, 2006, Advances in Powder Metallurgy and Particulate Materials - 2006, Proceedings of the 2006 International Conference on Powder Metallurgy and Particulate Materials, PowderMet 2006, 335, 346, International conference proceedings
• Stabilization of alkali melting furnace fly ash by thermal treatment with adjustment of its chemical composition, Ho-Jin Sung; Kousuke Kamiya; Reiji Noda; Masayuki Horio, 2006, A and WM, Annual International Conference on Incineration and Thermal Treatment Technologies, IT3, 1, 105, 120, International conference proceedings
• High Calorie Fuel Gas Production from Biomass by Soil-to-Soil Fluidized Bed Steam Gasification, Noda Reiji; Ito Tomoyuki; Tanaka Nao; Horio Masayuki, 2004, Asian Pacific Confederation of Chemical Engineering congress program and abstracts, 2004, 573, 573, International conference proceedings

  DOI
• Fundamentals on evaporation of alkali compounds, Reiji Noda; Tsuyoshi Takano; Ichiro Naruse; Kazutomo Ohtake, 1997, Kagaku Kogaku Ronbunshu, 23, 2, 642, 643, Scientific journal

  DOI
• Molecular dynamics simulations of ovalbumin adsorption at squalene/water interface, Xiong, Qingxia;Ren, Ying;Xia, Yufei;Ma, Guanghui;Noda, Reiji;Ge, Wei, 2022, CHINESE JOURNAL OF CHEMICAL ENGINEERING, 50, 369, 378

  DOI

MISC

• 化学工学年鑑2022 10.資源・エネルギー, 中川紳好; 橋本望; 江崎丈裕; 石飛宏和; 飯田重樹; 野田玲治, 2022, 86, 10
• 化学工学年鑑2021 10.資源・エネルギー, 則永行庸; 江崎丈裕; 多田昌平; 飯田重樹; 野田玲治, 2021, 85, 10
• 高効率アンモニア分解のためのカーボンナノチューブ被覆流動媒体—ナノカーボンの作製・機能創出・利用, 野田 玲治, 2018, 32, 39
• カーボンナノチューブを担体とするアンモニアの流動接触分解触媒—Carbon Nanotube Support Catalysts for Ammonia Fluid Catalytic Cracking, 野田 玲治, Jul. 2017, 68, 7, 528, 533
• Study on thermal decomposition of RDF(Refuse Derived Fuel)., 笹倉忠夫; 野田玲治, 1999, 天野工業技術研究所年次報告, 1998
• Discussion, NODA Reiji; NORINAGA Koyo; FUSHIMI Chihiro; ENOMOTO Hiroshi; HOSOKAI Sou; OTA Tomohisa, Jul. 2024, Nihon Enerugii Gakkai Kikanshi Enermix, 103, 4, 422, 431

  DOI
• 座談会 第18回バイオマス科学会議 100周年記念行事 パネル討論会 ポストFITのバイオマス利活用 イノベーションと地域利活用, 山本 博巳; 野田 玲治; 勝山 猛; 森 一晃; 野中 寛; 小菅 喜仁, Mar. 2023, 102, 2, 120, 139
• Japanese Gasification Technology, NODA Reiji; ENOMOTO Hiroshi; NAMIOKA Tomoaki; FUSHIMI Chihiro; HOSOKAI Sou; NORINAGA Koyo, 20 Jan. 2023, Nihon Enerugii Gakkai Kikanshi Enermix, 102, 1, 74, 79

  DOI
• 日本のガス化技術のこれまでとこれから(第1回)日本のガス化技術—Japanese Gasification Technology, 野田 玲治; 榎本 啓士; 波岡 知昭; 伏見 千尋; 細貝 聡; 則永 行庸, Jan. 2023, 102, 1, 74, 79
• Future of Small Biomass Gasification Systems, NODA Reiji, 20 Nov. 2020, Nihon Enerugii Gakkai Kikanshi Enermix, 99, 6, 613

  DOI
• 循環流動層の安定運転を実現するパルス駆動型ループシールの開発, 野田 玲治, Mar. 2020, 65, 3, 175, 182
• インドネシアに適合的なバイオマスガス化システムの開発—特集 進化するバイオマス利用技術, 野田 玲治, Nov. 2018, 54, 11, 34, 42
• 金属担持触媒を用いたアンモニア分解による水素製造技術の開発, 熱海良輔; 高木英行; 野田玲治; 中川紳好; 辻口拓也; 倉本浩司, 19 Jul. 2010, 化学工学会関東支部大会研究発表講演要旨集, 2010, 8, 645

  DOI
• バイオマス熱分解ガスを動力とする流動層のためのバイオマス供給方法の検討, 西村慎一朗; 辻口拓也; 中川紳好; 野田玲治, 16 Aug. 2009, 化学工学会秋季大会研究発表講演要旨集(CD-ROM), 41st, AA101, 892

  DOI
• バイオマス熱分解ガスを動力とする流動層の流動化条件の把握, 増田有美; 平野荘士; 辻口拓也; 中川紳好; 野田玲治, 16 Aug. 2009, 化学工学会秋季大会研究発表講演要旨集(CD-ROM), 41st, G117, 209

  DOI
• 金属鉄-過酸化水素酸化法による高濃度有機性廃液の処理—特集 環境安全の技術, 野田 玲治; 佐野 綾子; 笠倉 忠夫, Sep. 2000, 45, 9, 679, 684
• 熱可塑性プラスチックのマテリアルリサイクルの定量的評価方法—特集 環境型社会を目指すプラスチック・家電リサイクル技術 ; リサイクル材評価手法, 野田 玲治; 角 江里子; 笠倉 忠夫, Mar. 2000, 48, 3, 42, 46

Books etc

• 骨太のエネルギーロードマップ, 2005
• ごみの百科事典, Single work, Sep. 2003
• エネルギー・環境キーワード辞典, Single work, May 2005
• バイオマスからの気体燃料製造, Single work, Oct. 2007
• 座談会 日本エネルギー学会 ガス化部会座談会「木質バイオマスガス化技術と水素製造」, Jan. 2024
• Japanese Gasification Technology, 野田玲治; 榎本啓士; 波岡知昭; 伏見千尋; 細貝聡; 則永行庸, 2023
• Future of Small Biomass Gasification Systems, NODA Reiji, The Japan Institute of Energy, 20 Nov. 2020

  DOI
• 循環流動層の安定運転を実現するパルス駆動型ループシールの開発, Mar. 2020
• インドネシアに適合的なバイオマスガス化システムの開発—特集 進化するバイオマス利用技術, Nov. 2018
• Carbon Nanotube Support Catalysts for Ammonia Fluid Catalytic Cracking, Jul. 2017
• バイオマス・廃棄物エネルギー利用のロードマップ, 2003
• 金属鉄-過酸化水素酸化法による高濃度有機性排水の処理, 2000
• 熱可塑性プラスチック・マテリアルリサイクルの定量的評価方法, 2000
• [9903]品質を考慮したプラスチックリサイクルのLCA, 05 Jan. 1999

Presentations

• 低コスト充填物におけるバイオマスタール除去方法の検討, 清水喬平 , 野田玲治 , 三機工業 , 小松 , 貴司 , 千田武志 , 辻林良祐, 第31回日本エネルギー学会大会, 04 Aug. 2022, 05 Aug. 2022
• バイオマスガス化発電システムにおける重質 タールの再燃料化に及ぼすボトムアッシュ混合の触 媒効果, Ariunaa Baterdene , 野田玲治 , 小松貴司 , 千田武志 , 辻林良祐, 第31回日本エネルギー学会大会, 04 Aug. 2022, 05 Aug. 2022, Japanese
• Pyrolysis Behavior of Polyethylene in Circulating Fluidized Bed Pyrolizer, Wanxuan CAI,Reiji Noda,Takayuki Ihara,Takashi Fujiwara,Toshiki Watanabe, 第31回日本エネルギー学会大会, 04 Aug. 2022, 05 Aug. 2022, English
• アルミドロス灰の乾式流動層安定化処理に及ぼす流動化条件の影響, 冨樫 弘賢 , 野田 玲治 , 二渡 章生, 化学工学会第53回秋季大会, 14 Sep. 2022, 16 Sep. 2022, Japanese
• 循環流動層熱分解炉におけるプラスチック熱分解挙動, 蔡 万軒 , 野田 玲治 , 井原 貴行 , 藤原 孝 , 渡部 寿基, 化学工学会第53回秋季大会, 14 Sep. 2022, 16 Sep. 2022, English
• 塔内側面にガス吹き込みロをもつ流動層の流動化状態, 日本エネルギー学会, 2009
• Combustion and Gasification Behavior of Coal Particle Trapped on Molten Slag Layer, International Symposium on Advanced Energy Conversion System and Related Technologies, 1995
• 木質バイオマスガス化発電システムから発生する重質タール・灰混合物の水熱反応特性, 辻林 良祐; Ariunaa Baterdene; 小松 貴司; 野田 玲治, 化学工学会第88年会, 15 Mar. 2023, 17 Mar. 2023, Japanese
• H/C control on biomass gasification gas by coking, 富澤達弘; 野田玲治, 第18回バイオマス科学会議, 01 Dec. 2022, 30 Nov. 2022, 02 Dec. 2022, Japanese
• 循環流動層熱分解炉におけるプラスチック熱分解挙動, 蔡 万軒; 野田 玲治; 井原 貴行; 藤原 孝; 渡部 寿基, 化学工学会第53回秋季大会, 14 Sep. 2022, 16 Sep. 2022, Japanese
• アルミドロス灰の乾式流動層安定化処理に及ぼす流動化条件の影響, 冨樫 弘賢; 野田 玲治; 二渡 章生, 化学工学会第53回秋季大会, 14 Sep. 2022, 16 Sep. 2022, Japanese
• バイオマスガス化発電システムにおける重質 タールの再燃料化に及ぼすボトムアッシュ混合の触媒効果, Ariunaa Baterdene; 野田玲治; 小松貴司; 千田武志; 辻林良祐, 第31回日本エネルギー学会大会, 04 Aug. 2022, 05 Aug. 2022, Japanese
• Pyrolysis Behavior of Polyethylene in Circulating Fluidized Bed Pyrolizer, Wanxuan CAI; Reiji Noda; Takayuki Ihara、Takashi; Fujiwara; Toshiki Watanabe, 第31回日本エネルギー学会大会, 04 Aug. 2022, 05 Aug. 2022, Japanese
• 低コスト充填物におけるバイオマスタール除去方法の検討, 清水喬平; 野田玲治; 三機工業; 小松; 貴司; 千田武志; 辻林良祐, 第31回日本エネルギー学会大会, 04 Aug. 2022, 05 Aug. 2022, Japanese
• Particle circulation characteristics of a loop seal operated by vibrated gas flow, Reiji Noda; Hiroki Sato; Reiya Kanai, FBC24, 08 May 2022, 11 May 2022, English
• 3-2-4 Evaluation of clay catalysts for biomass fluid catalytic cracking gasification, SUN Yan; SUDO Yuta; TANAKA Nao; Sholihah Atti; NODA Reiji, Proceedings of the Annual Conference of The Japan Institute of Energy, 2016, 2016, 2016, Japanese
• Study on the Themochemical NH_3 Decomposition for Efficient Hydrogen Production, KURAMOTO Koji; ATSUMI Ryosuke; NODA Reiji; NAKAGAWA Nobuyoshi; TSUJIGUCHI Takuya; TAKAGI Hideyuki, 電気学会研究会資料. FTE, 新エネルギー・環境研究会, 11 Mar. 2010, 11 Mar. 2010, 11 Mar. 2010, Japanese
• 7-4-1 Development of a co-production process of raw material and fuel for a cement process by concurrent processing of PVC and glass wastes, MATSUMOTO Satoru; NODA Reiji, Proceedings of the Annual Conference of The Japan Institute of Energy, 2010, 2010, 2010, Japanese
• 3-90-4 Fluidization Behavior of a Fluidized Bed by Air Injection from a Side Port, NODA Reiji; MASUDA Yumi; HIRANO Soshi; TSUJIGUCHI Takuya; NAKAGAWA Nobuyoshi, Proceedings of the Annual Conference of The Japan Institute of Energy, 2009, 2009, 2009, Japanese
• O403 Steam gasification of woody biomass by a circulating fluidized bed of clay materials, Noda Reiji; Saito Yoshiko, Proceedings of the Conference on Biomass Science, 2009, 2009, 2009, Japanese
• 流動層バイオマスガス化における廃棄物系触媒の好適反応条件, 齊藤 嘉子; 田中 直; 辻口 拓也; 中川 紳好; 野田 玲治, 化学工学会 研究発表講演要旨集, 2009, 2009, 2009, Japanese
• 3-17 Biomass Gasification with Clay Bed Material in a Circulating Fluidized Bed, Nakamura Toru; Horio Masayuki; Noda Reiji; Tanaka Nao, Proceedings of the Annual Conference of The Japan Institute of Energy, 2007, 2007, 2007, Japanese
• P227 Biomass Gasification with Clay Bed Material in a Circulating Fluidized Bed, NAKAMURA Toru; SHIRAIWA Yoshiko; HORIO Masayuki; NODA Reiji; TANAKA Nao, Proceedings of the Conference on Biomass Science, 2007, 2007, 2007, Japanese
• P232 Gasification effects of clay brick particles in fluidized bed steam gasification of wood biomass, NODA Reiji; SHIRAIWA Yoshiko; ROSS Davide; HORIO Masayuki, Proceedings of the Conference on Biomass Science, 2006, 2006, 2006, Japanese
• O208 Steam gasification of wood biomass by a circulating fluidized bed of waste clay brick, NODA Reiji; ADACHI Masamitsu; NAKAMURA Toru; ROSS Davide; HORIO Masayuki; NISHII Kazuo, Proceedings of the Conference on Biomass Science, 2006, 2006, 2006, Japanese
• 3-19. Biomass Gasification with Clay Bed Material in Circulating Eluidized Bed, Nakamura Toru; Adachi Masamitsu; Nishii Kazuo; Noda Reiji; Horio Masayuki; Tanaka Nao, Proceedings of the Annual Conference of The Japan Institute of Energy, 2006, 2006, 2006, Japanese
• 3-64. The Development of Wood Biomass Steam Gasification Process in Circulating Fluidized Bed, Adachi Masamitsu; Noda Reiji; Horio Masayuki; Tanaka Nao, Proceedings of the Annual Conference of The Japan Institute of Energy, 2005, 2005, 2005, Japanese
• 8-4. Energy Recovery and Hydrogen Production from PVC, SUNG Ho-jin; HIROTANI Tomoya; NODA Reiji; HORIO Masayuki, Proceedings of the Annual Conference of The Japan Institute of Energy, 2003, 2003, 2003, Japanese
• 3-23. Alkali metal evolution characteristics of wood biomass during pyrolysis and gasification, Noda Reiji; Matsuhisa Yuko; Ito Tomoyuki; Horio Masayuki, Proceedings of the Annual Conference of The Japan Institute of Energy, 2003, 2003, 2003, Japanese
• 3-22. Effects of alkaline salts on Pyrolysis and Combustion of Biomass, Fujiwara Satoko; Nagao Atsushi; Noda Reiji; Horio Masayuki, Proceedings of the Annual Conference of The Japan Institute of Energy, 2003, 2003, 2003, Japanese
• 8-7. Development of CO_2 adsorption ceramic particles with low adhesion characteristics for high efficiency CO_2 recovery fluidized bed system, KIMURA Satoshi; NAGASHIMA Taro; NISHII Kazuo; NODA Reiji; HORIO Masayuki; NAKAGAWA Kazuaki, Proceedings of the Annual Conference of The Japan Institute of Energy, 2002, 2002, 2002, Japanese
• 8-10. Leaching Characteristic of Heavy Metals in Pelletized Fly Ash after Reburning, SUNG Hojin; KAMIYA Kousuke; NODA Reiji; HORIO Masayuki; ITO Ichiro, Proceedings of the Annual Conference of The Japan Institute of Energy, 2002, 2002, 2002, Japanese
• フィルターにおけるバイオマスタール除去方法の検討, 清水 喬平; 野田 玲治; 辻林 良祐; 千田 武志, 化学工学会第89年会, 10 Mar. 2024, 09 Mar. 2024, 11 Mar. 2024, Japanese
• 振動ガス流動層の流動化特性, 田畑 清志郎; 野田 玲治, 化学工学会第89年会, 09 Mar. 2024, 07 Mar. 2024, 09 Mar. 2024, Japanese
• Particle circulation characteristics of a loop seal operated by vibrated gas flow, Reiji Noda; Hiroki Sato; Reiya Kanai, 08 Mar. 2024, 07 Mar. 2024, 09 Mar. 2024
• Rapid stabilization of Aluminum dross ash by fluidized bed steam treatment, Reiji Noda; Hirotaka Togashi; Akio Futawatar, 08 Mar. 2024, 07 Mar. 2024, 09 Mar. 2024
• 湿式共粉砕によるガラス・PVC中和処理, 野田玲治; 北井春貴, 粉体に関する討論会, 10 Nov. 2023, 09 Nov. 2023, 10 Nov. 2023, Japanese
• 充填物におけるバイオマスタール除去方法の検討, 清水 喬平; 野田 玲治; 辻林 良祐; 千田 武志, 化学工学会第54回秋季大会, 13 Sep. 2023, 11 Sep. 2023, 13 Sep. 2023, Japanese
• 振動ガス流動層の流動化特性, 田畑 清志郎; 野田 玲治, 化学工学会第54回秋季大会, 11 Sep. 2023, 11 Sep. 2023, 13 Sep. 2023, Japanese
• Rapid stabilization of Aluminum dross ash by fluidized bed steam treatment, Reiji Noda; Hirotaka Togashi; Akio Futawatari, Fluidization XVII, 21 May 2023, 25 May 2023
• O-12 H/C control on biomass gasification gas by coking, TOMIZAWA Tatsuhiro; NODA Reiji, Proceedings of the Conference on Biomass Science, 23 Nov. 2022, 23 Nov. 2022, 23 Nov. 2022, Japanese
• 未来創生塾を事例とした感性教育がおよぼす行動変容の研究, 小島由美; 野田玲治, 化学工学会年会研究発表講演要旨集(CD-ROM), 2022, 2022, 2022
• 高純度メタノール合成プロセスの検討, 内藤翔也; 野田玲治, 化学工学会年会研究発表講演要旨集(CD-ROM), 2022, 2022, 2022
• 自己流動化流動層による廃水蒸発プロセスの開発, 青山和樹; 野田玲治, 化学工学会年会研究発表講演要旨集(CD-ROM), 2022, 2022, 2022
• 3-3-3 Catalytic effect of bottom ash mixing on heavy tar fuel recycling in biomass gasification power generation system, ARIUNAA Baterdene; 野田玲治; 小松貴司; 千田武志; 辻林良祐, 日本エネルギー学会大会講演要旨集(Web), 2022, 2022, 2022
• P-3-06 Tar removal by a packed bed of low-cost materials, 清水喬平; 野田玲治; 小松貴司; 千田武志; 辻林良祐, 日本エネルギー学会大会講演要旨集(Web), 2022, 2022, 2022
• ガス化炉出口からガスエンジンに至るタール成分の挙動, 永島拓海; 野田玲治; 小松貴司; 千田武志; 辻林良祐, 化学工学会年会研究発表講演要旨集(CD-ROM), 2021, 2021, 2021
• ガス化発電システムで回収されるタールのガス化原料転換手法の検討, BATERDENE Ariunaa; 野田玲治; 小松貴司; 千田武志; 辻林良祐, 化学工学会年会研究発表講演要旨集(CD-ROM), 2021, 2021, 2021
• 交番流造粒(AFG)によるMAP粒子の造粒, 原島佑輔; 野田玲治, 化学工学会年会研究発表講演要旨集(CD-ROM), 2021, 2021, 2021
• Rapid stabilization of Aluminum dross ash by fluidized bed steam treatment, 冨樫弘賢; 野田玲治; 二渡章生, 流動化・粒子プロセッシングシンポジウム講演論文集, 2021, 2021, 2021
• ガス化発電システムで回収される焼却灰を用いたタールのガス化原料転換手法の検討, BATERDENE Ariunaa; 野田玲治; 小松貴司; 千田武志; 辻林良祐, 化学工学会秋季大会研究発表講演要旨集(CD-ROM), 2021, 2021, 2021
• Neutralization treatment conditions of glass and PVC by wet mill, 奥公亮; 野田玲治, 流動化・粒子プロセッシングシンポジウム講演論文集, 2021, 2021, 2021
• Development of acoustic operation of loop seal to improve particle circulation performance in a circulating fluidized bed, 佐藤弘樹; 野田玲治, 流動化・粒子プロセッシングシンポジウム講演論文集, 2020, 2020, 2020
• P-5 Appropriate catalysts for methanol synthesis from biomass in Indonesia, IGUCHI Shiori; NODA Reiji, Proceedings of the Annual Conference of The Japan Institute of Energy, 2015, 2015, 2015, Japanese
• 金属担持触媒を用いたアンモニア分解による水素製造技術の開発, 熱海良輔; 高木英行; 野田玲治; 中川紳好; 辻口拓也; 倉本浩司, 化学工学会関東支部大会研究発表講演要旨集, 19 Jul. 2010, 19 Jul. 2010, 19 Jul. 2010, Japanese
• バイオマス熱分解ガスを動力とする流動層のためのバイオマス供給方法の検討, 西村慎一朗; 辻口拓也; 中川紳好; 野田玲治, 化学工学会関東支部大会研究発表講演要旨集, 27 Jul. 2009, 27 Jul. 2009, 27 Jul. 2009, Japanese
• バイオマス熱分解ガスを動力とする流動層の流動化条件の把握, 増田有美; 平野荘士; 辻口拓也; 中川紳好; 野田玲治, 化学工学会関東支部大会研究発表講演要旨集, 27 Jul. 2009, 27 Jul. 2009, 27 Jul. 2009, Japanese
• 触媒被覆型粒子の流動層メタン部分酸化活性, 中里 勉; 坂本 匠; 野田 玲治; 中川 紳好; 甲斐 敬美, 化学工学会 研究発表講演要旨集, 2008, 2008, 2008, Japanese
• 太陽熱温水器に関する消費者選好のアンケート調査—第25回エネルギー・資源学会研究発表会 ; セッション2 民生用エネルギー(1), 秋澤 淳; 野田 玲治; 岩岡 正博, エネルギー・資源学会研究発表会講演論文集, Jun. 2006, Jun. 2006, Jun. 2006, Japanese
• 廃ガラスによる中和を利用した廃PVCのエネルギーリサイクル, 野田 玲治; 堀尾 正靭, 第12回流動化・粒子プロセッシングシンポジウム, 2006, 2006, 2006
• 3-29. Outlook for the Biomass Town Plan of Rumoi City and Shiura Village, ABE Shinichirou; NODA Reiji, Proceedings of the Annual Conference of The Japan Institute of Energy, 2005, 2005, 2005, Japanese
• アンモニア含有廃水からのアンモニア分離・濃縮プロセス, 喜来 祐太; 引間 亮一; 石渡 寛之; 野田 玲治, 化学工学会第90年会, 13 Mar. 2025, 12 Mar. 2025, 14 Mar. 2025
• バイオマスを原料とした炭化水素生成条件, 久保悠斗; 野田玲治, 第 20 回バイオマス科学会議, 19 Dec. 2024, 18 Dec. 2024, 20 Dec. 2024
• 流動層によるプラスチック熱分解における温度条件と空塔速度が与える影響, 倉林 史弥 、野田 玲治、筒井 俊雄、南 一郎, 第30回流動化・粒子プロセッシングシンポジウム（FB30）, 12 Dec. 2024, 11 Dec. 2024, 12 Dec. 2024
• 流動層水蒸気処理によるアルミドロス灰の迅速安定化処理, 清水 駿佑; 野田 玲治; 二渡 章生, 第30回流動化・粒子プロセッシングシンポジウム（FB30）, 12 Dec. 2024, 11 Dec. 2024, 12 Dec. 2024
• 振動ガス流動層の流動化特性, 田畑 清志郎; 野田 玲治, 第30回流動化・粒子プロセッシングシンポジウム, 11 Dec. 2024, 11 Dec. 2024, 12 Dec. 2024
• アンモニア含有廃水からのアンモニア回収プロセス, 喜来 祐太; 引間 亮一; 石渡 寛之; 野田 玲治, 化学工学会宇都宮大会2024, 07 Nov. 2024, 07 Nov. 2024, 08 Nov. 2024
• メタノール合成触媒と固体酸触媒の組み合わせによる炭化水素の回収条件, 久保 悠斗; 野田 玲治, 化学工学会宇都宮大会2024, 07 Nov. 2024, 07 Nov. 2024, 08 Nov. 2024
• 振動ガス流動層の流動化特性, 田畑 清志郎; 野田 玲治, 化学工学会宇都宮大会2024, 07 Nov. 2024, 07 Nov. 2024, 08 Nov. 2024
• アンモニア含有廃水からのアンモニア回収プロセス, 喜来 祐太; 引間 亮一; 石渡 寛之; 野田 玲治, 化学工学会第55回秋季大会, 12 Sep. 2024, 11 Sep. 2024, 13 Sep. 2024

Industrial Property Rights

• Patent right, 特願2014-150927, 24 Jul. 2014, ; , 特開2016-023126, 08 Feb. 2016
• Patent right, 特願2004-199987, 07 Jul. 2004, 特開2006-021859, 26 Jan. 2006, 特許第4670036号, 28 Jan. 2011
• Patent right, 特願2004-260073, 07 Sep. 2004, 特開2006-078016, 23 Mar. 2006, 特許第4317942号, 05 Jun. 2009
• Patent right, 特願2006-229642, 25 Aug. 2006, 特開2008-050224, 06 Mar. 2008
• Patent right, 特願2005-296696, 11 Oct. 2005, 特開2007-108874, 26 Apr. 2007
• Patent right, 特願2002-321645, 05 Nov. 2002, 特開2004-155872, 03 Jun. 2004, 特許第3878994号, 17 Nov. 2006
• Patent right, 特願2003-160412, 05 Jun. 2003, ; , 特開2004-361013, 24 Dec. 2004
• Patent right, 特願2002-107831, 10 Apr. 2002, 特開2003-299759, 21 Oct. 2003
• Patent right, 特願2021-190031, 24 Nov. 2021, ; , 特開2023-076974, 05 Jun. 2023
• Patent right, 特願2021-148771, 13 Sep. 2021, 特開2023-041408, 24 Mar. 2023
• Patent right, 特願2017-232765, 04 Dec. 2017, 特開2019-098261, 24 Jun. 2019, 特許第7125080号, 16 Aug. 2022
• Patent right, 特願2017-503665, 01 Mar. 2016, 特許第6646317号, 15 Jan. 2020
• Patent right, JP2016056279, 01 Mar. 2016, WO2016-140227, 09 Sep. 2016
• Patent right, 特願2004-260073, 07 Sep. 2004, 特開2006-078016, 23 Mar. 2006
• Patent right, 特願2004-199987, 07 Jul. 2004, 特開2006-021859, 26 Jan. 2006
• Patent right, 特願2002-321645, 05 Nov. 2002, 特開2004-155872, 03 Jun. 2004

Research Projects

• 2013, 2018, Principal investigator

  対象リソースIRI
• Development of a high-performance fuel cell with a novel electrode structure, NAKAGAWA Nobuyoshi; NODA Reiji; TSUJIGUCHI Takuya, Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research, Grant-in-Aid for Scientific Research (B), Gunma University, 2007, 2009, Gas components and their pressures in the anode gas layer formed in the noble electrode structure of a DMFC was analyzed by using in-situ mass spectroscopy with a capillary probe. Reaction products at the electrode and their production rates as well as their mass transfer rates crossing the membrane were investigated based on the measurements. It was revealed that the vapor pressure of methanol in the gas layer corresponds to the methanol concentration used in a liquid feed DMFC from the equilibrium calculation. Production rate of methyl-formate, as a main component of the intermediate-product, was proportional to the second power to the ratio of methanol vapor pressure/water vapor pressure in the gas layer. However, the formation of the intermediate products could be neglected in the energy conversion efficiency because of the too small production rates comparing with that of CO_2. The power out put was increased by increasing the water flux from the cathode by putting a hydrophobic porous membrane out side the cathode by keeping an optimum distance from the cathode surface., 19360357

  対象リソースIRI
• Technology of energy recovery type waste PVC and glass simultaneous treatment processing that makes alkali-halogen flow proper, HORIO Masayuki; NODA Reiji, Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research, Grant-in-Aid for Scientific Research (A), Tokyo University of Agriculture and Technology, 2005, 2007, Neutralization rate of reaction between hydrogen chloride and sodium including in glass beads was determined under varied conditions of 〜500μ m in particle diameters, 〜0.8 in sodium conversion and 〜0.9 atm in partial pressures of hydrogen chloride by using laboratory scale fixed bed and fluidized bed reactors. The neutralization rate was found to be controlled by diffusion rate of sodium in glass and the diffusivity was 3.3×10^<-16> m^2/s. A two stage neutralizer was proposed to be consisting of a fixed bed reactor for coarse glass particles and a fluidized bed reactor for fine glass particles. The appropriate processes were designed based on the rate data focusing on the overall energy efficiency including power consumption by glass grinding. In the appropriate processes glass cullet is ground into 100μm in the average diameter then classified sieved. Coarse particles (d>150μm) are used in the fixed bed reactor and fine particles (d<150μm) are used in fluidized bed reactor. Lab-scale demonstration of fluidized bed neutralizer for fine particles was carried out. In the demonstration experiments a defluidization problem was observed. Adhesive force between glass particles was increased by deposition of sodium chloride on the glass surface. An addition of fine char particles into the glass bed was found to be effective to prevent the defluidization. The addition of fine char particles more than 10wt% of glass bed was found to prevent the defluidization with no mal-effect for the neutralization rate. Closed flow differential scanning calorimetry (CF-DSC) was developed for direct measurement of neutralization reaction heat of reaction for hydrogen chloride reaction with sodium in glass beads. The neutralization reaction heat was determined as 321 kJ/mol. Based on the neutralization reaction heat the energy efficiency of the appropriate process was 77.7%, 17201017

  対象リソースIRI
• Field study for Agro-Engineering Collaborative Mass-Energy Metabolism Model in South East Asia, HORIO Masayuki; SENGA Yutaro; TOYODA Takashi; SHIBUSAWA Sakae; HOSOMI Hosomi; TANAKA Nao, Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research, Grant-in-Aid for Scientific Research (B), National University Corporation Tokyo University of Agriculture and Technology, 2003, 2004, To develop a scenario for establishment of biomass utilization society in SE Asia region field survey of biomass production and utilization was investigated in Indonesia, China and Malaysia. [Indonesia] Generation of unused biomass resources from each agro-industry and regional material/energy flow in Indonesia were surveyed by collaboration with a NPO : Yayasan Dian Desa(YDD, Manager : Anton Soedjarwo), Agency for the assessment and application of technology(BPPT) and Oil palm research institute(PPKS). Trough a discussion among government, private and academia sectors on a workshop(Executive Workshop : Biomass Energy and Regional Development/Restortion in Asia, 2005.2.18,Yogyakarura), a course of action to establish biomass utilization society was clarified. [China] Water surface cultivation, combination of biomass production and environmental cleanup is one of the material metabolic models based on collaboration between agriculture and engineering. Field study of water surface cultivation in China was carried out and its availability was summarized. [Malaysia] Variability of soil fertility and paddy yield was measured in 4ha paddy field in collaboration with University Putra Malaysia. Long and short term land management for sustained yield was established by using GIS system. Based on the above information and environmental/energy policies for agriculture in EU, development of biomass gasification for developing countries and discussion on development of biomass utilization society in Japan, appropriate biomass utilization model for SE Asia was concluded., 15404023

  対象リソースIRI
• 2002, 2003, 14655282

  対象リソースIRI
• Construction of IT network of non-utilized materials for local community with material circulatory function, NARUSE Ichiro; NODA Reiji; GOTO Naohiro; FUNATSU Kimito; HASHIUDO Kenichi; FUJIE Koichi, Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research, Grant-in-Aid for Scientific Research (B), Toyohashi University of Technology, 2001, 2003, In order to realize asocial system with sustainable development, it is necessary for local communities to construct inter-industries material circulatory network. In this aspect, wastes evolving from the industries are defined as unused materials. This study develops a methodology of constructing circulatory networks among different industries for reusable materials. Two types of databases are made by means of industrial surveys. One of the databases reveals information about raw materials, products and wastes, received from or emitted to each company of industries in a subject community. The second database defines conversion technologies that enable transformation of wastes into reusable materials. Based on these databases, material flows in the community are analyzed by a network simulator program. In this study, the methodology is tested on application to Toyohashi city in Aichi Prefecture. First of all, the databases of the industries, wastes treatment companies and waste conversion technologies were prepared. In order to propose one example of proper material circulatory network, the material flow, was analyzed by the Network Simulator based on following 3 steps. In this analysis, each network was evaluated in terms of amount of materials that were emitted from the region. i)Analyzing material circulatory networks among companies in the same industry. ii)Correcting the best network, and defining the I-O amounts as whole of the industry. iii)Analyzing material circulatory networks among different industries. As a results, an optimum hypothetical material circulatory network among different industries is proposed, which enable" to reduction of the amount of material emission from the region accounting to 10,899 ton of raw material, 8,666 ton of products, and 2,233 ton of wastes. Moreover, upscale method of the database is also predicted and described., 13555206

  対象リソースIRI
• 2001, 2003, 13555205

  対象リソースIRI
• Aug. 2024, Mar. 2027
• Apr. 2012, Mar. 2016
• Apr. 2011, Mar. 2014

Academic Contribution

• 2024, 2024
• 16 Nov. 2023, 17 Nov. 2023
• ISGE2022-2023, Competition etc, 10 Mar. 2023, International academic contribution

Social Contribution

Social Contribution

• 日本粉体工業技術協会乾燥分科会・見学講演会, 29 Aug. 2024, 29 Aug. 2024　(Target:　Researchers, Company)
• 未来創生塾, 2024, 2024　(Target:　Schoolchildren, Junior high school students, Guardians)
• SSH, 2024, 2024, Visiting lecture　(Target:　High school students)
• 日本エネルギー部会座談会, 28 Sep. 2023, 28 Sep. 2023　(Target:　College students, Graduate students, Researchers, Company)
• バイオマス合同交流会, 16 Nov. 2023, 17 Nov. 2023　(Target:　College students, Graduate students, Researchers, Scientific organization, Company, Governmental agency)
• 化学工学会関東支部第二企画委員会・委員　(Target:　Researchers, Company)
• 化学工学会関東支部・幹事　(Target:　Researchers, Company)
• 技術相談　(Target:　Company)
• 化学工学会粒子・流体プロセス部会流動層分科会・幹事　(Target:　Researchers)
• 化学工学会エネルギー部会バイオマス分科会・代表　(Target:　Researchers)
• 日本エネルギー学会・ガス化部会長　(Target:　Researchers)
• 粒子・流体プロセス技術コース・指導員　(Target:　Researchers)
• HiKaLO情報誌・編集委員　(Target:　Researchers)
• 石炭・炭素資源有効利用研究会・理事　(Target:　Researchers)
• フューチャー桐生　(Target:　Researchers, General)
• SSH・講師　(Target:　High school students)
• FT桐生・運営委員　(Target:　Schoolchildren, Junior high school students, Guardians, General)
• 未来創生塾・塾長　(Target:　Schoolchildren, Junior high school students, Guardians)
• 化学工学会第89年会・座長, 20 Mar. 2024, 20 Mar. 2024　(Target:　College students, Graduate students, Researchers)
• 化学工学会粒子流体プロセス部会流動層分科会学生発表会・座長, 05 Dec. 2023, 05 Dec. 2023　(Target:　College students, Graduate students, Researchers)
• 化学工学会54秋季大会・座長, 11 Sep. 2023, 11 Sep. 2023　(Target:　Researchers)
• 出張授業「どうなる？どうする？エネルギー」, 15 Jun. 2023, 15 Jun. 2023　(Target:　High school students)
• ぐんまイノベーション会議, 23 Jun. 2022, 23 Jun. 2022　(Target:　Company, Governmental agency)
• 技術相談　(Target:　Company)
• 未来創生塾・塾長, Seminar　(Target:　Schoolchildren, Junior high school students)
• SSH・講師, Visiting lecture　(Target:　High school students)
• 出張講義, 10 Nov. 2022, 10 Nov. 2022, Visiting lecture　(Target:　High school students)

Academic Contribution

• NEDO事業推進委員②, 2024, 2024
• NEDO事業推進委員①, 2024, 2024
• 第18回バイオマス科学会議・パネラー, Academic society etc, 30 Nov. 2022, 30 Nov. 2022
• 第18回バイオマス科学会議・座長, 20221130
• 化学工学会第53回秋季大会・座長, 16 Sep. 2022, 16 Sep. 2022
• 第31回日本エネルギー学会大会・座長, Academic society etc, 05 Aug. 2022, 05 Aug. 2022
• 日本エネルギー部会ガス化部会・部会長, Academic society etc

Media Coverage

• 県内の未利用資源からあらたな産業創出へ‼ 群馬大が産官学民で研究開発事業をスタート, Nov. 2024
• 廃棄物からエネルギー　群大　脱温暖化へ3分野研究　県の助成金事業に採択　企業と連携、商用化目指す, 25 Sep. 2024
• 未利用資源から新産業を　群大と産官民でキックオフ, 13 Sep. 2024
• 群馬大学が未利用資源活用で新産業創出のための研究に着手へ, 12 Sep. 2024
• 桐生で５日 群大再エネでシンポ　技術開発など語る, 03 Sep. 2024
• 「集めて・運んで」「変換して」「使う」未利用資源から新産業を　群馬大が産官学民で挑む　再エネ・脱炭素化研究補助金活用し再エネ・脱炭素化　５日キックオフシンポ, 02 Sep. 2024
• 群馬県のGXを加速する地域資源活用新産業創出PFの整備・群馬大がキックオフシンポジウム, 27 Sep. 2024
• 織都の建造物めぐり歴史学ぶ『未来創生塾で親子』, 27 Jan. 2025
• ロゲイニングでまちの魅力を参加募集中, 01 Oct. 2024
• 音の世界を体験　未来創生塾で『聴覚講座』, 24 Sep. 2024
• 巨大ガスタンクに潜入　未来創生塾, 17 Sep. 2024
• ひんやり、本を読む　未来創生塾『清流読書』, 29 Jul. 2024
• 間違える勇気もって〜小森谷さんが講座〜　, 29 Jun. 2024
• ごみ拾ってヤマメ放流（未来創生塾と山田製作所協力）, 27 May 2024
• 未来創生塾生らタケノコ堀り, 04 May 2024
• 体験学習の成果を発表, 30 Mar. 2024
• 小森谷さんに学ぶ　プレゼンコミュニケーション講座, 05 Feb. 2024
• 目指せコミュ力アップ　ふるさと大使小森谷さんが伝授, 01 Feb. 2024
• 未来創生塾ジュニアアンバサダー桐生の織物見て学ぶ, 18 Jan. 2024
• 日本遺産の厚生文化財講座, 08 Jan. 2024
• 日本遺産で知る桐生, 11 Oct. 2023
• 梅田にコナラ30本を植樹, 05 Oct. 2023
• 日本遺産ツアーで市の魅力体感, 15 Sep. 2023
• こどもたちが『清流読書』, 11 Aug. 2023
• 未来創生塾が『清流読書』, 31 Jul. 2023
• 『清流読書』で涼　桐生　, 30 Jul. 2023
• 故郷の自然環境維持を山台製作所と協力し実施, 03 Jun. 2023
• 未来創生塾がタケノコ堀り, 01 May 2023
• 未来創生塾で入塾式, 05 Apr. 2023
• 未来創生塾61名に修了証, 22 Mar. 2023, Paper
• 産官学民で取り組む教育プログラム, PR
• レソトの文化に興味津々　未来創生塾, 20 Dec. 2022
• レソト大使館員親子40人と交流, 19 Dec. 2022
• レソト大使館員桐生市民と交流, 19 Dec. 2022
• 留学生ら座禅と茶道体験 未来創生塾生と一緒に, 17 Oct. 2022
• 小中学生が日本遺産ガイド　未来創生塾の院生が挑戦, 13 Oct. 2022
• 未来創生塾へ20万円桐信が今年も寄付, 14 Jul. 2022
• ヤマメ育つ環境願って　未来創生塾, 09 Jun. 2022
• 彦部家住宅でタケノコ堀り, 22 May 2022, Paper
• 未来創生塾共同実施者と顔合わせ, 04 Apr. 2022, Paper
• ぐんま経済・執筆, Myself, Paper