2023年3月14-17日に開催された。本学科の多数の学生が会場スタッフとして勤めていました。The event held during 14-17 March 2023. A number of students from the department served as venue staff.
The following information is drawn from 化学工学会第88年会 www3.scej.org/meeting/88a/
[学会賞] 微粒子、ナノ粒子の界面構造設計による粒子間相互作用の制御 神谷 秀博
[SCEJ Award] Interaction control of fine and nanoparticles by interface structure design
(TUAT) Kamiya Hidehiro
[招待講演] 誰もが活躍できる協働未来の実現に向けた東京農工大学の取り組み (天竺桂 弘子 副学長)
[Invited] University initiatives to realize a collaborative future in Tokyo University of Agriculture and Technology (TUAT, Vice-President) Tabunoki Hiroko
[Invited] Evaluation of the performances and economics of thermal energy storage fluidized bed reactor integrated with a biomass power plant (TUAT) Fushimi Chihiro
[依頼講演] 副生成物の有効利用による物質・エネルギー循環型バイオマス由来化学品プロセスの開発
(佐藤 龍・伏見 千尋)
[Invited] Design of Biomass-derived Chemicals with Effective Utilization of Byproducts for Material and Energy Circular Process
(TUAT) Ukawa-Sato Ryu, Fushimi Chihiro
[依頼講演] メタンを原料とする有価物生産プロセスの構築を志向した微生物培養条件と晶析法の検討
(農工大) 甘利 俊太朗・ (広大)末永 俊和(本学元教員)
[Invited] Investigation of microbial cultivation and crystallization methods for the production of valuable materials using methane. (TUAT)Amari Shuntaro, (Hiroshima U.) Suenaga Toshikazu (former TUAT)
[部会賞] フロンティア賞2022 [Divisional Award]: Reversal of effects from gel production in a reacting flow dependent on gel strength (Hirano Sae・Nagatsu Yuichiro・Suzuki X. Ryuta)
/jp_prize-88a 優秀学生賞 微好気活性汚泥法を用いた高強度窒素含有排水からのアンモニア回収運転手法の開発
塚本 洋生・ 安田 昌平・ 黒岩 恵・ 利谷 翔平・ 寺田 昭彦
Development of a microaerophilic activated sludge system for ammonia recovery from wastewater containing high strength nitrogen (Tsukamoto Hiroki, Yasuda Shohei, Kuroiwa Megumi, Riya Shohei, Terada Akihiko)
/jp_prize-88a 優秀学生賞 代替敷料と牛ふん尿の混合メタン発酵特性の解明
新田 哲平・ 黒岩 恵・ 安田 昌平・ 寺田 昭彦・ 利谷 翔平
Mixed methane fermentation characteristics of alternative bedding and cattle manure (Nitta T., Kuroiwa M., Yasuda S., Terada A., Riya S.)
優秀学生賞:対象となるポスター発表274件に対して、 最優秀学生賞6件、 優秀学生賞33件、 学生奨励賞16件第 1 日 11:00~ 11:30 Y105 [学会賞] 微粒子、ナノ粒子の界面構造設計による粒子間相互作用の制御 (農工大) (正)神谷 秀博 The SCEJ Award 第 1 日 13:20~ 14:20 PA127 異相界面上に析出する有機結晶粒子群の特性におよぼす鋳型剤の影響 (農工大工) ○(学)矢崎 悠大・ (農工大院工) (正)甘利 俊太朗・ (正)滝山 博志 Template crystallization Crystal morphology Nucleation 優秀学生賞 微好気活性汚泥法を用いた高強度窒素含有排水からのアンモニア回収運転手法の開発 (農工大院工) ○(学·技基)塚本 洋生・ 安田 昌平・ 黒岩 恵・ (正)利谷 翔平・ (正)寺田 昭彦 ammonia recovery from WWTP microaerophilic activated sludge nitrous oxide 優秀学生賞 代替敷料と牛ふん尿の混合メタン発酵特性の解明 (農工大工) ○(学)新田 哲平・ (農工大) 黒岩 恵・ 安田 昌平・ (正)寺田 昭彦・ (正)利谷 翔平 Methane fementation メタン酸化細菌による微生物タンパク質の産生:イネ根圏と土壌からの集積培養と性能評価 (農工大院工) ○(学·技基)徐 天祥・ 安田 昌平・ 黒岩 恵・ (正)利谷 翔平・ (農工大院農) 大川 泰一郎・ (農工大院工) (正)寺田 昭彦 Protein Bioconversion Methane 連続フロー型装置を用いた反応晶析の凝集過程の解析 (農工大工) ○(学)植田 拓実・ (農工大院工) (正)甘利 俊太朗・ (正)滝山 博志 reactive crystallization continuous flow agglomeration 乾式メタン発酵における原生動物の存在と役割の解明 (農工大院工) ○(学·技基)粕谷 大翔・ 黒岩 恵・ 安田 昌平・ (正)寺田 昭彦・ (正)利谷 翔平 protozoa dry methane fermentation 乾式メタン発酵残渣炭化物による栄養塩の吸着特性評価 (農工大工) ○(学)崎原 洸太・ (農工大) 黒岩 恵・ 安田 昌平・ (正)寺田 昭彦・ (正)利谷 翔平 methane fermentation biochar adsorption 糖添加した粒子分散液での蒸発遅延効果 (農工大院) ○(学·技基)田中 優彦・ (正)稲澤 晋 colloidal suspension sugar drying rate 調節弁固着補償法の実プロセスへの適用 (ENEOS) ○(正)大宮司 理晴・ (農工大院工) (正)山下 善之 process control optimization 下水汚泥焼却飛灰の高温付着性の評価と解析 (三機工業) ○(正)刀根 康一郎・ (正)伊東 賢洋・ 小関 多賀美・ (産総研) (正)堀口 元規・ (農工大院) (正)岡田 洋平・ (正)神谷 秀博 sewage sludge combustion fly ash adhesion at high temperatures particle size 燃料電池システムシミュレーターによる動的発電分布解析 (京大工/トヨタ自) ○(正)長谷川 茂樹・ (トヨタ自) 井漕 好博・ (農工大工) (正·修習)金 尚弘・ (京大工) (正)影山 美帆・ (正)河瀬 元明 Fuel cell system simulation distribution 入力変数の適切な規格化によるMSPCの性能向上方法の提案と医薬品連続生産への適用 (パウレック/農工大院工) ○(正)大石 卓弥・ (パウレック) (正)長門 琢也・ (農工大院工) (正)金 尚弘 Multivariate Statistical Process Control Continuous Pharmaceutical Manufacturing Wet Granulation 定性知識と融合したオートエンコーダを用いたプロセスモニタリング (農工大工) ○(正·技士)Xia Junqing・ (正)山下 善之 Process Monitoring Extended Process Attributes Greybox Model 燃料電池システムの排ガス中の水素濃度制御器の開発 (農工大工) ○(学)伊澤 大晟・ (正·修習)金 尚弘・ (正)松本 美由紀・ (京大工) (正)長谷川 茂樹・ (正)河瀬 元明 Fuel cell Hydrogen control Purge gas [招待講演] 誰もが活躍できる協働未来の実現に向けた東京農工大学の取り組み (農工大) 天竺桂 弘子(副学長) 凝縮器におけるファウリングのオンラインモニタリング (農工大院工) ○(学·技基)山﨑 凌・ (正)山下 善之 scale crystallization fouling 多数の制御自由度をもつ晶析装置モデルの作成 (農工大工) ○(学)飯塚 咲・ (農工大院工) (正·修習)金 尚弘 Crystallization Process synthesis Distributed parameter system 斜めの気液界面に対する粒子充填速度論 (農工大院BASE) ○(正·技基)安倍 紘平・ (正)稲澤 晋 colloidal suspensions film formation kinetics air-liquid interface ブロック因子を導入した分散分析とPLSによる混合工程の医薬品有効成分濃度予測 (京大院工) ○(学)福岡 憲彦・ (POWREX/農工大院工) (正)大石 卓弥・ (POWREX) (正)長門 琢也・ (農工大院工) (正·修習)金 尚弘・ (京大院工) (正)外輪 健一郎 NIR Spectrum Block factor API concentration prediction バイオマス由来の溶媒と水素を用いたコハク酸からのガンマブチロラクトン生成 (農工大院工) ○(学)平野 菜奈美・ (農工大院BASE) 佐藤 龍・ (農工大院GIR) (正·技基)鈴木 龍汰・ (リファインHD) (正)Freitag Joerg・ (日本リファイン) (法)堀 博・ (法)河野 雅史・ (農工大院工) (正)伏見 千尋 Biomass Succinic acid Gamma-butyrolactone [依頼講演] 副生成物の有効利用による物質・エネルギー循環型バイオマス由来化学品プロセスの開発 (農工大院BASE) ○佐藤 龍・ (農工大院工) (正)伏見 千尋 Levulinic acid Biorefinery Circular process マクロメソ多孔質炭素触媒を用いたセルロースの水熱糖化 (農工大院BASE) ○(学)Lee Changmin・ Suzuki Yuto・ Luh putu pitrayani sukma・ Kamiya Kenji・ Eika W. Qian Macro-mesoporous Solid acid catalyst saccharification 第 3 日 13:20~ 14:20 PE313 磁場駆動型正浸透濃縮プロセスの提案 (農工大院工) ○(学)佐々野 颯一郎・ (正)大橋 秀伯 Foward osmosis Magnetic nanoparticle Magnetic field 第 3 日 13:40~ 14:00 H315 Korteweg力を伴う相分離に誘起されるViscous fingeringのトポロジカル変化に関する数値解析 (農工大院工) ○(正·技基)鈴木 龍汰・ 瀬谷 昇治・ (正)長津 雄一郎・ (阪大院基工) (正)伴 貴彦・ (IIT Roper) ミシュラ マノランジャン phase separation viscous fingering Korteweg force 第 3 日 15:00~ 15:20 J319 非混和系融液晶析を利用した難水溶性薬物の溶解性改善手法の開発 (農工大院工) ○(学)トゥムールバータル ボロルウヤンガ・ (正)甘利 俊太朗・ (正)滝山 博志 Immiscible system Melt crystallization Dissolution rate 第 3 日 15:05~ 15:55 R312 [依頼講演] メタンを原料とする有価物生産プロセスの構築を志向した微生物培養条件と晶析法の検討 (農工大院工) ○(正)甘利 俊太朗・ (広大院工) (正)末永 俊和 methane microbial cultivation crystallization 第 3 日 15:20~ 15:40 J320 塩析効果を伴う非溶媒添加晶析による球状凝集体の製造条件と母液除去率との関係 (農工大院工) ○(学·技基)宮本 涼太・ (正)甘利 俊太朗・ (正)滝山 博志 Mother Liquor Removal Spherical Agglomerates Salting-Out Effect 第 1 日 14:30~ 15:00 H118 [部会賞] フロンティア賞2022: Reversal of effects from gel production in a reacting flow dependent on gel strength (TUAT) Hirano Sae・ ○(正)Nagatsu Yuichiro・ (TUAT/JST) (正·技基)Suzuki X. Ryuta Mixing 第 2 日 14:20~ 15:20 PC250 バイオマス発電プラントへの統合を想定した化学蓄熱反応器の経済性評価 (TUAT) ○(学)安井 崇人・ (正·技士)内野 貴行・ (正)伏見 千尋 thermochemical heat storage renewable energy fluidized bed Day 3 15:00~ 15:25 C319 [Invited lecture] Evaluation of the performances and economics of thermal energy storage fluidized bed reactor integrated with a biomass power plant (TUAT) (Reg)Fushimi Chihiro
| Day 1 11:00– 11:30 | Y105 | [The SCEJ Award] Interaction control of fine and nanoparticles by interface structure design (TUAT) (Reg)Kamiya Hidehiro | The SCEJ Award | 0-a | 767 |
|---|---|---|---|---|---|
| Day 1 13:20– 14:20 | PA127 | Effect of template on the characteristics of organic crystalline particles precipitated on heterogeneous interface (TUAT) *(Stu)Yazaki Y., (Reg)Amari S., (Reg)Takiyama H. | Template crystallization Crystal morphology Nucleation | 12-g | 244 |
| Day 1 13:20– 14:20 | PA159 | Development of a microaerophilic activated sludge system for ammonia recovery from wastewater containing high strength nitrogen (TUAT) *(Stu·PCEF)Tsukamoto Hiroki, Yasuda Shohei, Kuroiwa Megumi, (Reg)Riya Shohei, (Reg)Terada Akihiko | ammonia recovery from WWTP microaerophilic activated sludge nitrous oxde | 13-b | 132 |
| Day 1 13:20– 14:20 | PA167 | Mixed methane fermentation characteristics of alternative bedding and cattle manure (TUAT) *(Stu)Nitta T., Kuroiwa M., Yasuda S., (Reg)Terada A., (Reg)Riya S. | Methane fementation | 13-e | 574 |
| Day 1 13:20– 14:20 | PA171 | Microbial protein production by methane-oxidizing bacteria: Enrichment and characterization of biomass inoculated from rice plant roots and soils (TUAT) *(Stu·PCEF)Xu Tianxiang, Yasuda Shohei, Kuroiwa Megumi, (Reg)Riya Shohei, Ookawa Taiichiro, (Reg)Terada Akihiko | Protein Bioconversion Methane | 13-b | 16 |
| Day 1 14:20– 15:20 | PA134 | Investigation of the agglomeration process of reactive crystallization using a continuous flow equipment (TUAT) *(Stu)Ueda T., (Reg)Amari S., (Reg)Takiyama H. | reactive crystallization continuous flow agglomeration | 12-g | 243 |
| Day 1 14:20– 15:20 | PA164 | Elucidation of the presence and role of protozoa in dry methane fermentation (TUAT) *(Stu·PCEF)Kasuya Hiroto, Kuroiwa Megumi, Yasuda Shohei, (Reg)Terada Akihiko, (Reg)Riya Shohei | protozoa dry methane fermentation | 13-b | 133 |
| Day 1 14:20– 15:20 | PA176 | Adsorption characteristics of nutrients by biochar derived from dry methane fermentation residue (TUAT) *(Stu)Sakihara K., Kuroiwa M., Yasuda S., (Reg)Terada A., (Reg)Riya S. | methane fermentation biochar adsorption | 13-b | 573 |
| Day 1 16:00– 16:20 | G122 | Retardation effect on water evaporation in drying of sugar-added colloidal suspensions (TUAT) *(Stu·PCEF)Tanaka Masahiko, (Reg)Inasawa Susumu | colloidal suspension sugar drying rate | 4-h | 242 |
| Day 1 16:00– 16:20 | I122 | Application of stiction compensation method for control valves to an actual process (ENEOS) *(Reg)Daiguji Masaharu, (TUAT) (Reg)Yamashita Yoshiyuki | process control optimization | 6-d | 699 |
| Day 2 9:00– 9:20 | D201 | Adhesion behavior characterization and analysis of sewage sludge combustion fly ash at high temperatures (Sanki Eng.) *(Reg)Tone K., (Reg)Ito M., Koseki T., (AIST) (Reg)Horiguchi G., (TUAT) (Reg)Okada Y., (Reg)Kamiya H. | sewage sludge combustion fly ash adhesion at high temperatures particle size | 13-a | 265 |
| Day 2 9:20– 9:40 | F202 | Dynamic analysis method of fuel cell reaction distribution by fuel cell system simulator (Kyoto U./Toyota Motor) *(Reg)Hasegawa Shigeki, (Toyota Motor) Ikogi Yoshihiro, (TUAT) (Reg·APCE)Kim Sanghong, (Kyoto U.) (Reg)Kageyama Miho, (Reg)Kawase Motoaki | Fuel cell system simulation distribution | 5-e | 649 |
| Day 2 10:20– 10:40 | I205 | Proposal of a method to improve the performance of MSPC by appropriate standardization of input variables and its application to continuous pharmaceutical manufacturing (Powrex/TUAT) *(Reg)Oishi Takuya, (Powrex) (Reg)Nagato Takuya, (TUAT) (Reg)Kim Sanghong | Multivariate Statistical Process Control Continuous Pharmaceutical Manufacturing Wet Granulation | 6-d | 68 |
| Day 2 13:20– 14:20 | PC225 | Process Monitoring Using Process Knowledge Enhanced Autoencoder (TUAT) *(Reg·PCE)Xia Junqing, (Reg)Yamashita Yoshiyuki | Process Monitoring Extended Process Attributes Greybox Model | 6-a | 602 |
| Day 2 13:20– 14:20 | PC231 | Development of a controller for hydrogen concentration in exhaust gas from fuel cell systems (TUAT) *(Stu)Izawa Taisei, (Reg·APCE)Kim Sanghong, (Reg)Matumoto Miyuki, (Kyoto U.) (Reg)Hasegawa Shigeki, (Reg)Kawase Motoaki | Fuel cell Hydrogen control Purge gas | 6-d | 697 |
| Day 2 14:00– 14:20 | Y216 | [Invited lecture] University initiatives to realize a collaborative future in Tokyo University of Agriculture and Technology (TUAT) Tabunoki Hiroko | HC-11 | 783 | |
| Day 2 14:20– 15:20 | PC228 | On-line Monitoring of Condenser Fouling (TUAT) *(Stu·PCEF)Yamasaki Ryo, (Reg)Yamashita Yoshiyuki | scale crystallization fouling | 6-a | 550 |
| Day 2 14:20– 15:20 | PC234 | Construction of a crystallizer model with a high degree of freedom (TUAT) *(Stu)Iizuka Saki, (Reg·APCE)Kim Sanghong | Crystallization Process synthesis Distributed parameter system | 6-d | 568 |
| Day 3 9:00– 9:20 | J301 | Kinetics in packing of particles around a tilted air-liquid interface (TUAT) *(Reg·PCEF)Abe Kohei, (Reg)Inasawa Susumu | colloidal suspensions film formation kinetics air-liquid interface | 12-h | 166 |
| Day 3 10:00– 10:20 | H304 | ANOVA with blocking factor and prediction of active pharmaceutical ingredient concentration in mixing process using PLS (Kyoto U.) *(Stu)Fukuoka Norihiko, (POWREX/TUAT) (Reg)Oishi Takuya, (POWREX) (Reg)Nagato Takuya, (TUAT) (Reg·APCE)Kim Sanghong, (Kyoto U.) (Reg)Sotowa Ken-Ichiro | NIR Spectrum Block factor API concentration prediction | 2-b | 146 |
| Day 3 10:20– 11:20 | PD358 | Gamma-butyrolactone production from succinic acid in bio-based solvent (TUAT) *(Stu)Hirano N., Ukawa-Sato R., (Reg·PCEF)Suzuki X. R., (Refine Holdings) (Reg)Freitag J., (Nippon Refine) (Cor)Hori H., (Cor)Kono M., (TUAT) (Reg)Fushimi C. | Biomass Succinic acid Gamma-butyrolactone | 5-g | 638 |
| Day 3 13:05– 13:55 | R303 | [Requested talk] Design of Biomass-derived Chemicals with Effective Utilization of Byproducts for Material and Energy Circular Process (TUAT) *Ukawa-Sato Ryu, (Reg)Fushimi Chihiro | Levulinic acid Biorefinery Circular process | HQ-21 | 747 |
| Day 3 13:20– 13:40 | F314 | Hydrothermal saccharifiction of cellulose by using macromeso porous carbon catalyst (TUAT) *(Stu)Lee Changmin, Suzuki Yuto, Luh putu pitrayani sukma, Kamiya Kenji, Eika W. Qian | Macro-mesoporous Solid acid catalyst saccharification | 5-a | 704 |
| Day 3 13:20– 14:20 | PE313 | Proposal of magnetic field-driven forward osmosis concentration process (TUAT) *(Stu)Sasano Soichiro, (Reg)Ohashi Hidenori | Foward osmosis Magnetic nanoparticle Magnetic field | 4-a | 645 |
| Day 3 13:40– 14:00 | H315 | Numerical study on topological change of viscous fingering induced by a phase separation with Korteweg force (TUAT) *(Reg·PCEF)Suzuki X. Ryuta, Seya Shoji, (Reg)Nagatsu Yuichiro, (Osaka U.) (Reg)Ban Takahiko, (IIT Roper) Mishra Manoranjan | phase separation viscous fingering Korteweg force | 2-a | 318 |
| Day 3 15:00– 15:20 | J319 | Development of Solubility Improvement Method for Poorly Water-Soluble Drugs using Melt Crystallization in Immiscible System (TUAT) *(Stu)Tumurbaatar Bolor-Uyanga, (Reg)Amari Shuntaro, (Reg)Takiyama Hiroshi | Immiscible system Melt crystallization Dissolution rate | 12-g | 300 |
| Day 3 15:05– 15:55 | R312 | [Requested talk] Investigation of microbial cultivation and crystallization methods for the production of valuable materials using methane. (TUAT) *(Reg)Amari Shuntaro, (Hiroshima U.) (Reg)Suenaga Toshikazu | methane microbial cultivation crystallization | HQ-21 | 735 |
| Day 3 15:20– 15:40 | J320 | Relationship between mother liquor removal ratio and the production conditions of spherical agglomerates using drowning-out crystallization with salting-out effect (TUAT) *(Stu·PCEF)Miyamoto Ryota, (Reg)Amari Shuntaro, (Reg)Takiyama Hiroshi | Mother Liquor Removal Spherical Agglomerates Salting-Out Effect | 12-g | 337 |
| Day 1 14:30– 15:00 | H118 | [Divisional Award] Reversal of effects from gel production in a reacting flow dependent on gel strength (TUAT) Hirano Sae, *(Reg)Nagatsu Yuichiro, (TUAT/JST) (Reg·PCEF)Suzuki X. Ryuta | Mixing | X-52 | 795 |
|---|---|---|---|---|---|
| Day 2 14:20– 15:20 | PC250 | Evaluation of the economics of thermochemical storage reactor for integration with a biomass power plant (TUAT) *(Stu)Yasui T., (Reg·PCE)Uchino T., (Reg)Fushimi C. | thermochemical heat storage renewable energy fluidized bed | 9-e | 414 |
| Day 3 15:00– 15:25 | C319 | [Invited lecture] Evaluation of the performances and economics of thermal energy storage fluidized bed reactor integrated with a biomass power plant (TUAT) (Reg)Fushimi Chihiro | K-5 | 762 |
東京農工大学・化学物理工学科