SCEJ 81st Annual Meeting (2016): Session programs

Session programs

Poster session 2AM -Chemical reaction engineering, Systems, information, and simulation technologies, Supercritical fluid-

ZAA201-ZAA258, ZBA201-ZBA220, ZCA201-ZCA218

Most recent update: 2016-02-26 18:17:04

Abstract is now open! Click Paper ID.

Time	Paper ID	Title / Authors	Keywords	Topic code	Ack. number
Hall ZA, Day 2
9:20– 11:20	ZAA201	Process modeling for environmental consideration of industrial painting processes (U. Tokyo) *Yamagishi Tatsuya, Kikuchi-Uehara Emi, (TIRI) Onozawa Akiyoshi, Kinoshita Toshio, (U. Tokyo) Hirao Masahiko	volatile organic compounds process modeling life cycle assessment	6-b	407
9:20– 11:20	ZAA202	Design Method for Pharmaceutical Tablet Production Considering Batch & Continuous Technologies (U. Tokyo) *Matsunami K., (Daiichi-Sankyo) Miyano T., Arai H., Nakagawa H., (U. Tokyo) Hirao M., Sugiyama H.	Pharmaceuticals Solid drug manufacturing Continuous manufacturing	6-b	152
9:20– 11:20	ZAA203	Designing solvent recovery processes in drug substance manufacturing (U. Tokyo) *Xu M., Matsuura M., Morikawa Y., Sugiyama H.	Pharmaceuticals Azeotropic mixture Multiobjective design	6-b	328
9:20– 11:20	ZAA204	Slug Length Estimation of Parallelized Microreactors with Gas-Liquid Slug Flows (Kyoto U.) *Onabe Y., Tonomura O., Taniguchi S., Hasebe S.	Gas-liquid Microreactor Slug Length Estimation Process Monitoring	6-d	963
9:20– 11:20	ZAA205	A procedure for the optimal structure synthesis of hybrid distillation-membrane separation processes (Kyoto U.) *Tsuji Takeshi, Ikishima Junya, Takase Hiroshi, Hasebe Shinji	Energy saving Hybrid process Superstructure	6-e	348
9:20– 11:20	ZAA206	Problem of improvement of process completion time in manufacturing systems with stochastic processing time and its solving method (Nagoya U.) *Imaoka Y., Hashizume S., Yajima T., Onogi K.	improvement of process completion time critical path stochastic processing time	6-e	722
9:20– 11:20	ZAA207	Numbering-up and Process Monitoring of Monolithic Microreactors (Kyoto U.) *Nishi K., Taga T., Tonomura O., Taniguchi S., Nagaki A., Hirose K., Yoshida J., (Emaus Kyoto) Ishizuka N., (Kyoto U.) Hasebe S.	Microreactor Numbering-up Flow distributor design	6-g	964
9:20– 11:20	ZAA208	Scenario design support of technology introduction on energy carrier considering the regional characteristics (U. Tokyo) *Tsukushi Y., Okubo T., (UTokyo) Kikuchi Y.	Energy carrier Regional characteristics Design support	6-g	396
9:20– 11:20	ZAA209	Reaction control based on the dynamics of the compartments and the fluctuations of the number of molecules in the compartments in multiphase environment. (Osaka U.) *Ichii Tetsuo, Yoshiyama Tomoaki, Yomo Tetsuya	stochastic simulation fluctuation compartment	6-d	441
9:20– 11:20	ZAA210	First principle parameter determination for the ultra-fast quantum chemical calculations: Application of artificial intelligence techniques (Tohoku U.) *Sato Manami, Komuro Rei, Sato Ryo, Ishizawa Yukie, Obara Yukiko, Inaba Kenji, Bonnaud Alain Patrick, Miura Ryuji, Suzuki Ai, Miyamoto Naoto, Hatakeyama Nozomu, Hariyama Masanori, Miyamoto Akira	Ultra-Accelerated Quantum Chemical Molecular Dynamics Method Artificial Intelligence	6-e	260
9:20– 11:20	ZAA211	Measurement of Solubility of Thiophene Compounds in Supercritical Carbon Dioxide by the Determination of the Saturation States Using UV-Visible Spectroscopy (Shinshu U.) *Sano K., Takahara K., Uchida H.	Solubility Supercritical CO2 Thiophene compounds	8-b	898
9:20– 11:20	ZAA212	Measurement of tetracene solubility in supercritical carbon dioxide using UV-vis spectroscopy (U. Tokyo) *Toyokura Shota, Shimoyama Yusuke, Shimogaki Yukihiro, Momose Takeshi	supercritical co2 tetracene crystallization	8-b	502
9:20– 11:20	ZAA213	Fabrication of tetracene films using temperature gradient in supercritical solution (U. Tokyo) *Toyokura Shota, Shimoyama Yusuke, Shimogaki Yukihiro, Momose Takeshi	supercritical co2 tetracene crystallization	8-c	495
9:20– 11:20	ZAA214	Separation and purification of functional substances from soybean sludge by supercritical carbon dioxide (Nagoya U.) *Kaga Kahori, Uemori Chiho, Wahyudiono, Kanda Hideki, Goto Motonobu	supercritical fluid separation tocopherol	8-c	676
9:20– 11:20	ZAA215	Synthesis of HfO₂ and ZrO₂ nanoparticles modified with π electron molecules for incorporation to plastic scintillators (Tohoku U.) *Hiyama Fumiyuki, (Tohoku U. NICHe) Noguchi Takio, Aida Tsutomu, (Tohoku U.) Takami Seiichi, (Tohoku U. WPI-AIMR) Adschiri Tadafumi, (Tohoku U.) Koshimizu Masanori, Fujimoto Yutaka, (NAIST) Yanagida Takayuki, (NIRS) Nishikido Fumihiko, (KEK) Haruki Rie, Kishimoto Syunji, (Tohoku U.) Asai Keisuke	supercritical nanoparticle scintillator	8-e	705
9:20– 11:20	ZAA216	Kinetics of amide hydrolysis in hot compressed water (U. Tokyo) *Fujioka Nanae, Akizuki Makoto, Oshima Yoshito	Hot compressed water Hydrolysis Amide	8-d	575
9:20– 11:20	ZAA217	Synthesis of Graphene Oxide/Bio-Based Polymer Hybrid Composite Aerogel (DLSU-ChE) *Co C. J. U., (Kumamoto U.) Quitain A. T., (DLSU-ChE) Borja J. Q., Dugos N. P., (Kumamoto U.) Takafuji M., Kida T.	Aerogel Supercritical Carbon Dioxide Graphene Oxide	8-e	818
9:20– 11:20	ZAA218	Production of titania aerogel containing carbon by supercritical solvent sol-gel reaction (Tokyo Tech) *Kinoshita M., Shimoyama Y.	supercritical sol-gel reaction titania aerogel incorporation with carbon	8-d	650
9:20– 11:20	ZAA219	Debromination of tetrabromobisphenol A (TBBPA) in aqueous amine solutions under hydrothermal conditions (Chuo U.) *Kimura Yuta, Taguchi Minori, Funazukuri Toshitaka	Hydrothermal Debromination Tetrabromobisphenol A	8-d	566
9:20– 11:20	ZAA220	Synthesis of succinimide in high temperature and high pressure water (NIT Hachinohe) *Takahashi Yuka, Honma Tetsuo	succinimide supercritical water organic synthesis	8-d	636
9:20– 11:20	ZAA221	Measurement and correlation of diffusion coefficients of metal complexes in liquid and supercritical states (Shizuoka U.) Morishita Yohei, *Kong Chang Yi, (Chuo U.) Funazukuri Toshitaka	diffusion coefficient metal complex supercritical carbon dioxide	8-b	662
9:20– 11:20	ZAA222	Supercritical CO₂ extraction of functional ingredients from Aframomum melegueta (Nagoya U.) *Ono Maiko, Uemori Chiho, Wahyudiono, Kanda Hideki, Goto Motonobu	supercriticalfluid extraction spice	8-c	677
9:20– 11:20	ZAA223	Organocatalytic polymerization of highly pure cyclic polylactide in super critical carbon dioxide (Shizuoka U.) *Nakaya Y., Sato K., Narumi T., Watanabe N., Mase N.	Supercritical carbon dioxide Organocatalyst Cyclic polylactide	8-d	37
9:20– 11:20	ZAA224	Kinetic analysis of solid base catalyzed aldol condensation in hot compressed water (U. Tokyo) *Nakai Yusuke, Akizuki Makoto, Oshima Yoshito	Hot compressed water Solid base catalyst Aldol condensation	8-d	606
9:20– 11:20	ZAA225	Kinetics of methanol hydrothermal oxidation on PdO catalyst (Shizuoka U.) *Oishi K., Okajima I., Sako T., (RICOH) Torii S., Suzuki S.	hydrothermal oxidation methanol kinetics	8-d	786
9:20– 11:20	ZAA226	Cascade fractionation of functional components from dairy by-product (Tohoku U.) *Oda Erika, Ota Masaki, Sato Yoshiyuki, Inomata Hiroshi, (SHALOM) Kon Tatsuhiko, Sekiya Eiji	supercritical extraction fraction	8-c	659
9:20– 11:20	ZAA227	Photocatalytic reduction of CO₂ with water as a reductant by platinum-loaded titanium oxide under high-temperature and high-pressure (Osaka City U.) *Hirata S., Kometani N.	Photocatalysis CO2 reduction Supercritical fluid	8-d	130
9:20– 11:20	ZAA228	Synthesis of Molybdenum oxide nanoparticles for liquid scintillators for detection of neutrinoless double beta decay (Tohoku U.) *Takigawa Susumu, (Tohoku U. NICHe) Noguchi Takio, Aida Tsutomu, (Tohoku U.) Takami Seiichi, (Tohoku U. WPI) Adschiri Tadafumi, (Tohoku U.) Koshimizu Masanori, Fujimoto Yutaka, Asai Keisuke	Molybdenum liquid scintillators neutrinoless double beta decay	8-e	317
9:20– 11:20	ZAA229	Study for the direct methanol synthesis from methane (Nagoya U.) *Orita Yasuhiko, Machida Hiroshi, Horizoe Hirotoshi	hydrothermal oxidation methane methanol	8-d	730
9:20– 11:20	ZAA230	Real-time measurement of size distribution of fine particles generated by rapid expansion of supercritical solution (Kanazawa U.) *Muramoto S., Higashi H., Kumita M., Seto T., Otani Y.	size distribution fine particle RESS	8-e	919
9:20– 11:20	ZAA231	Development of Production Technique of Fine Powder of Theophylline by the Particles from Gas Saturated Solutions with Spray-Drying (PGSS-SD) Using Supercritical CO₂ (Shinshu U.) *Watanabe K., Uchida H.	PGSS-SD Supercritical carbon dioxide Theophylline fine powder	8-e	907
9:20– 11:20	ZAA232	Development of metal thin film coating technique of nanoparticle using supercritical carbon dioxide (Shizuoka U.) *Oyama K., Okajima I., Sako T.	supercritical carbon dioxide nanoparticle coating	8-e	760
9:20– 11:20	ZAA233	Continuous hydrothermal synthesis of LiMn_1/3Ni_1/3Co_1/3O₂ in supercritical water (Kanazawa U.) *Ogawa Kohei, Tamura Kazuhiro, Tada Kaoru	Lithium-ion battery supercritical water cathode nano-size particle	8-e	311
9:20– 11:20	ZAA234	Kinetic Analysis to Establish a Design Method of Hydrothermal Nanoparticle Synthesis with Flow-type Reactor (Tohoku U.) *Sato A., Aoki N., Seong G., Aida T., Hojo D., Takami S., Adschiri T.	nanoparticles hydrothermal synthesis kinetics	8-e	773
9:20– 11:20	ZAA235	Fabrication and Characterization of Titanium Oxide Aerogel Dispersed Square Rod Titanium Oxide (NIT Hachinohe) *Nara Mitsunobu, Hasegawa Akira, Honma Tetsuo	Titanium Oxide Aerogel Supercritical CO2 Drying Sol-Gel Method	8-e	371
9:20– 11:20	ZAA236	Functionalization of Graphene Oxide Using the Synergy of Supercritical Carbon Dioxide and Subcritical Water (DLSU-ChE) *Yu J. M., (Kumamoto U.) Quitain A. T., (DLSU-ChE) Dugos N., Borja J., (Kumamoto U.) Kida T.	Graphene Oxide Supercritical Carbon Dioxide Subcritical Water	8-e	808
9:20– 11:20	ZAA237	Crystallization of glycine by liquefied dimethyl ether as anti-solvent (Nagoya U.) *Katsube Tsubasa, Ogawa Masaki, Hoshino Rintarou, Wahyudiono, (Ajinomoto) Kishino Mitsuhiro, (Nagoya U./JST-PRESTO) Kanda Hideki, (Nagoya U.) Goto Motonobu	anti-solvent Dimethyl ether crystallization	8-c	678
9:20– 11:20	ZAA238	One step synthesis of ammonia at interfacial reaction (Kyutech) *Namise Takamitsu, Shimoshimizu Naoya, Uemura Shintaro, Haruyama Tetsuya	Interfacial reaction Non catalytic Ammonia	8-f	45
9:20– 11:20	ZAA239	Decomposition of phosphate ester using subcritical water (Shizuoka U.) *Nakamoto Y., Okajima I., Sako T.	subcritical water phosphate ester analysis of reaction kinetics	8-f	778
9:20– 11:20	ZAA240	Photocatalytic Decomposition of Water over Picene Thin-Film (Kobe U.) *Kishishita K., Maeda S., Okemoto A., Taniya K., Ichihashi Y., Nishiyama S.	picene thin-film photocatalysis water decomposition	5-a	214
9:20– 11:20	ZAA241	Metal modified nanosheet-like molybdenum carbide catalysts for formic acid decomposition (Hirosaki U. NJRISE) *Ji Cao, (Hirosaki U.) Xiumin Li, (Hirosaki U. NJRISE) Guoqing Guan, Abuliti Abudula	molybdenum carbide catalyst Hydrogen Production Formic acid	5-a	257
9:20– 11:20	ZAA242	Effective cyclic operation for liquid-liquid-liquid phase-transfer catalytic reaction (Tokyo Tech.) *Hayashi M., (AIST) Matsumoto H., (Tokyo Tech.) Fujitsuka H., Tago T.	cyclic operation phase transfer catalysis liquid-liquid-liquid phase system	5-a	276
9:20– 11:20	ZAA243	Modeling of degradation of anode catalyst against CO in fuel cell by the novel materials informatics (Kogakuin U.) *Saito Shuhei, Md,Khorshed Alam, Takaba Hiromitsu	Polymer Electrolyte Fuel Cell Materials Informatics Pt2Ru3 alloy catalyst	5-a	467
9:20– 11:20	ZAA244	Reaction analysis of methane dry reforming on a nickel catalyst using a pulse method (Nagoya U.) *Yang Zhao, Yamada Hiroshi, Tagawa Tomohiko	a pulse method nickel catalyst dry reforming	5-a	501
9:20– 11:20	ZAA245	Preparation of CeO₂ nanorods covered with CuO layers and improvement of PM combustion activity (Tokushima U.) *Tezuka Y., Katayama M., Ohshima T., Nakagawa K., Katoh M., Sugiyama S.	CeO2 nanorods PM combustion	5-a	568
9:20– 11:20	ZAA246	Methylcyclohexane dehydrogenation property of Pt-based honeycomb-structured catalyst (Shizuoka U.) *Hisamatsu Yoshikazu, Bandai Yuya, Funakubo Keisuke, Watanabe Ryo, Fukuhara Choji	Organic chemical hydride Methylcyclohexane Pt-based catalyst	5-a	679
9:20– 11:20	ZAA247	Controlled formation of graphene using epitaxial Cu film catalyst rapidly deposited on sapphire substrates (Waseda U.) *Minamide Taisuke, Aoi Shigeki, Okawa Asahi, Hasegawa Kei, Noda Suguru	graphene chemical vapor deposition epitaxial growth	5-h	334
9:20– 11:20	ZAA248	Synthesis of graphene on Cu foils from CH₄ and CO and mechanism analysis based on rate process and equilibrium (Waseda U.) *Nagai Yukuya, Okawa Asahi, Hasegawa Kei, Noda Suguru	graphene chemical vapor deposition disproportionation reaction	5-h	349
9:20– 11:20	ZAA249	Development of metal foil catalyst preparation techniques using arc-plasma deposition (Kumamoto U./Kyoto U. ESICB) *Yoshida Hiroshi, (Kumamoto U.) Misumi Satoshi, (Kumamoto U./Kyoto U. ESICB/JST-PRESTO) Hinokuma Satoshi, (Kumamoto U./Kyoto U. ESICB) Machida Masato	arc-plasma rhodium catalyst preparation	5-a	614
9:20– 11:20	ZAA250	The development of automobile exhaust purification catalyst using carbonization materials (TUAT) *Nakagawa Ayumi, Sakurai Makoto, Kameyama Hideo	Three-Way Catalyst carbon alloys off-gas cleanup	5-a	696
9:20– 11:20	ZAA251	Influence of Si/Al ratio of β-zeolites on activity for Baeyer-Villiger oxidation (Kobe U.) *Mori R., Okemoto A., Taniya K., Ichihashi Y., Nishiyama S.	Baeyer-Villiger oxidation H-type β-zeolite Si/Al ratio	5-a	763
9:20– 11:20	ZAA252	Reaction analysis of alcohol selective oxidation in PEFC reactor (Nagoya U.) *Funahashi K., (NMIRI) Miyata Y., (Nagoya U.) Yamada H., Tagawa T.	PEFC reactor cyclic voltammetry analysis alcohol selective oxidation	5-a	787
9:20– 11:20	ZAA253	Effect of mass- and heat-transfer promotion on CO₂ methanation property of Ni/CeO₂ structured catalyst (Shizuoka U.) *Hayakawa Kotaro, (CATALER) Murabayashi Katsunori, (Shizuoka U.) Watanabe Ryo, Fukuhara Choji	CO2 methanation Structured catalyst CO2 utilization	5-a	655
9:20– 11:20	ZAA254	Effects of dual-frequency ultrasonic irradiation and its application to synthesis of NiPAM particles. (Tokyo Tech.) *Furuya T., (AIST) Matsumoto H., (Tokyo Tech.) Fujitsuka H., Tago T.	Sonochemistry KI dosimetry Calorimetry	5-b	281
9:20– 11:20	ZAA255	Process construction of lignin degradation under ultrasonic irradiation (Kobe U.) *Toba Yurina, Tanaka Kohki, Fukunaga Saki, Masuda Hayato, Horie Takafumi, Ohmura Naoto	ultrasonic irradiation lignin degradation frequency	5-b	536
9:20– 11:20	ZAA256	Synthesis of chlorine dioxide using atmospheric plasma reaction field (Chiba Inst. Tech.) *Nishiyama H., Onoe K.	Atmospheric plasma Chlorine dioxide Plasma field	5-c	360
9:20– 11:20	ZAA257	Continuous gas-phase production of hybrid carbon nanoparticles with nanotubes (Waseda U.) *Kuriya Masaaki, Hasegawa Kei, Osawa Toshio, Noda Suguru	carbon nanotubes carbon nanoparticles continuous production	5-h	123
9:20– 11:20	ZAA258	Direct synthesis of graphene on SiO₂ by dissolving carbon to and Cl₂ etching of Co films (Waseda U.) *Kishida Yuri, Hasegawa Kei, Noda Suguru	graphene crystal growth dry-etching	5-h	180
Hall ZB, Day 2
9:20– 11:20	ZBA201	Development of Artificial Intelligence Integrated Multiscale Multiphysics Computational Chemistry Method and its Application to Automobile Catalyst Process (Tohoku U.) *Sato Masashi, Inaba Kenji, Ishizawa Yukie, Obara Yukiko, Sato Ryo, Okushi Kotaro, Komuro Rei, Sato Manami, Bonnaud Patrick, Miura Ryuji, Miyamoto Naoto, Hatakeyama Nozomu, Miyamoto Akira	Artificial Intelligence Automobile Catalyst Computational Chemistry	5-a	165
9:20– 11:20	ZBA202	Development and application of artificial intelligence integrated catalytic deterioration simulation (Tohoku U.) *Sato Ryo, Sato Manami, Komuro Rei, Ishizawa Yukie, Obara Yukiko, Inaba Kenji, Sase Mai, Bonnaud Patrick, Miura Ryuji, Suzuki Ai, Miyamoto Naoto, Hatakeyama Nozomu, Miyamoto Akira	artificial intelligence catalytic dererioration interaction	5-a	190
9:20– 11:20	ZBA203	The development and application of artificial intelligence integrated adsorption simulation (Tohoku U.) *Obara Yukiko, Miyano Masayuki, Sato Emi, Sato Manami, Komuro Rei, Ishizawa Yukie, Inaba Kenji, Bonnaud Alain Patrick, Miura Ryuji, Suzuki Ai, Miyamoto Naoto, Hatakeyama Nozomu, Miyamoto Akira	Computational chemistry Artificial intelligence Adsorption simulation	5-a	411
9:20– 11:20	ZBA204	Application to the catalytic reaction process by development of Artificial Intelligence Integrated Ultra Accelerated Quantum Chemical Molecular Dynamics (Tohoku U.) *Ishizawa Yukie, Inaba Kenji, Obara Yukiko, Sato Ryo, Sase Mai, Sato Manami, Komuro Rei, Bonnaud Patrick, Miura Ryuji, Suzuki Ai, Miyamoto Naoto, Hatakeyama Nozomu, Miyamoto Akira	artificial intelligence Automobile catalyst Ultra-Accelerated Quantum Chemical Molecular Dynamics Method	5-a	460
9:20– 11:20	ZBA205	Photorecovery of Noble Metals Using Polyoxometalate Hybrid Catalysts Combined With a Ru Complex as a Light-Harvesting Antenna (Kumamoto U.) *Tsuchibashi Kenta, Sadowara Kouki, (Kyusyu U.) Kumamoto Kouta, (Kumamoto U.) Quitain Armando, (Kumamoto U. IPPS) Sasaki Mitsuru, (Kumamoto U.) Kida Tetsuya	Polyoxometalate Recovery of metals Dye-sensitizer	5-a	667
9:20– 11:20	ZBA206	DFT study on mechanism of benzene oxidation over vanadium complex catalysts (Kobe U.) *Utsunomiya A., Okemoto A., Taniya K., Ichihashi Y., Nishiyama S.	benzene oxidation reaction mechanism complex catalysts	5-a	132
9:20– 11:20	ZBA207	A novel method for gas-phase removal of catalyst metals from carbon nanotube (Waseda U.) *Hamada Koki, Hasegawa Kei, Noda Suguru	carbon nanotubes purification metal nanoparticles	5-d	335
9:20– 11:20	ZBA208	Vapor phase esterification with a packed-bed zeolite membrane reactor (Utsunomiya U.) *Kikuchi Shuhei, Kikuchi Yuhei, Sato Takafumi, Ito Naotsugu	zeolite esterification membrane reactor	5-d	944
9:20– 11:20	ZBA209	Effect of mass transfer on catalytic reaction in slug flow reactor (Kobe U.) *Hirai Kenta, Iwamura Yuuki, Masuda Hayato, Kumagai Norihisa, Horie Takafumi, Ohmura Naoto	slug flow catalyst mass transfer	5-e	697
9:20– 11:20	ZBA210	Non-catalytic oxidation at Reactive Oxygen Species generated locus (Kyutech) *Miyori Nobuhiro, Kitamura Mitsuru, Haruyama Tetsuya	Reactive Oxygen Species Oxidation interfacial reaction	5-e	48
9:20– 11:20	ZBA211	The effect of precursor valence on the formation mechanism of octanoic acid modified CeO₂ nanoparticles (Tohoku U.) *Mori Tadaaki, Aoki Nobuaki, Hojo Daisuke, Aida Tsutomu, Seong Gimyeong, Takami Seiichi, Adschiri Tadafumi	supercritical water ceria nanoparticle synthesis flow type reactor	5-e	220
9:20– 11:20	ZBA212	Flame synthesis of single-wall carbon nanotubes and reaction field control for their quality improvement (Waseda U.) *Okada Shohei, Hasegawa Kei, Osawa Toshio, Noda Suguru	single-wall carbon nanotubes flame synthesis reaction field control	5-h	273
9:20– 11:20	ZBA213	Development of water-gas shift membrane reactor(WGSMR) for flue gas of coal gasifier by using process simulator (TUAT) *Yonamine W., Fushimi C.	IGCC WGSMR ceramic membrane	5-e	584
9:20– 11:20	ZBA214	Decomposition behavior of perfluorocarbon (PFC) using Al₂O₃ supported Nickel/CaO mixed reactants (Kansai U.) *Takai K., Araki S., Yamamoto H.	Perfluorocarbon Al2O3 supported Nickel Calcium oxide	5-d	193
9:20– 11:20	ZBA215	Factors affecting fiber preparation using microfluidic wet-spinning (Okayama U.) *Kondo Yuya, Ono Tsutomu	microfluidic device wet-spinning jet stream	5-f	560
9:20– 11:20	ZBA216	Synthesis of 1,3,5-Triacetylbenzene in Hot-Compressed Water Using Flow Reactor (Nihon U.) *Inaba Ryoichiro, Sato Toshiyuki, Okada Masaki, Hiaki Toshihiko, (U. Tokyo) Iwamura Hiizu	Hot-Compressed Water Flow system Cyclotrimerization	5-f	173
9:20– 11:20	ZBA217	Conversion of glucose into 5-hydroxymethylfurfural and levulinic acid using solid-acid catalyst (Kyoto U.) *Sasakura Keisuke, Tanino Shohei, Muranaka Yosuke, (Kansai U.) Hasegawa Isao, (Kyoto U.) Maki Taisuke, Mae Kazuhiro	5-hydroxymethylfurfural solid-acid catalyst glucose	5-g	427
9:20– 11:20	ZBA218	Fluidized bed production of carbon nanotubes using gas-phase supported catalyst on ceramic powders (Waseda U.) *Kawabata Kosuke, Hasegawa Kei, Osawa Toshio, Noda Suguru	carbon nanotubes fluidized bed chemical vapor deposition	5-h	468
9:20– 11:20	ZBA219	Fluidized bed production of single-wall carbon nanotubes using carefully sputtered catalyst on beads (Waseda U.) *Hachiya Soichiro, Chen Zhongming, Kawabata Kosuke, Hasegawa Kei, Osawa Toshio, Noda Suguru	single-wall carbon nanotubes fluidized bed chemical vapor deposition	5-h	477
9:20– 11:20	ZBA220	(withdrawn)		100	858
Hall ZC, Day 2
9:20– 11:20	ZCA201	Production of fatty acid ethyl ester from hydrous ethanol and waste acid oil (Tohoku U.) *Suzue M., Fukushima Y., Shibasaki-Kitakawa N.	fatty acid ethyl ester hydrous ethanol ion-exchange resin catalyst	5-g	879
9:20– 11:20	ZCA202	Development of Microwave-Assisted Biodiesel Production Using Functionalized Carbon-Based Catalyst (Kumamoto U.) *Sumigawa Yoshifumi, Quitain Armando, Uchikado Shinnosuke, (Kumamoto U. IPPS) Sasaki Mitsuru, (Kumamoto U.) Kida Tetsuya	biodiesel carbon-based catalyst microwave	5-g	434
9:20– 11:20	ZCA203	Reaction Mechanism and Kinetics of Lactic Acid Synthesis from Carbohydrates using SnCl₂ Catalyst in ChCl Aqueous Solution (Hirosaki U.) *Asep Bayu, Surachai Karnjanakom, (Hirosaki U. NJRISE) Guoqing Guan, Abuliti Abudula, (Sojo U.) Katsuki Kusakabe	lactic acid glucose choline chloride	5-g	230
9:20– 11:20	ZCA204	Conversion of glucose into 5-hydroxymethylfurfural by heterogeneous catalysis of ion-exchange resins. (TCU) *Namba Hiroki, Fuyukawa Takuro, Ishikawa Sara, Kouzu Masato	HMF Ion-exchange resin Acid-base catalysis	5-g	487
9:20– 11:20	ZCA205	Effect of unsaturated fatty acid side chain on catalytic cracking of vegetable oil (Shinshu U.) *Nakamura Y., Osada M., Fukunaga H., Takahashi N., (Euglena) Ohta H., Suzuki K., (Chiyoda) Takatsuka T., (Shinshu U.) Shimada I.	catalytic cracking vegetable oil unsaturated fatty acid	5-g	540
9:20– 11:20	ZCA206	Rapid vapor deposition and mechanical separation of large-grain crystalline Si thin films on/from graphitic substrates (Waseda U.) *Yamasaki Yuhei, Hasegawa Kei, Osawa Toshio, Noda Suguru	crystalline silicon thin films lift-off process crystal growth	5-h	216
9:20– 11:20	ZCA207	Direct growth and structural control of graphene films on dielectric substrates by "etching-precipitation" method (Waseda U.) *Akiba Sachie, (U. Tokyo) Kosaka Masaki, (Waseda U.) Hasegawa Kei, Noda Suguru	graphene crystal growth dry-etching	5-h	338
9:20– 11:20	ZCA208	Quantitative evaluation of mass transfer promotion in gas-liquid segmented flow for designing high-performance microreactor (Kyoto U.) *Masaki Rie, (AIST) Fukuda Takashi, (Kyoto U.) Maki Taisuke, Mae Kazuhiro	gas-liquid segmented flow mass transfer microreactor	5-f	364
9:20– 11:20	ZCA209	Fabrication of Au/magnetite nanoparticles-dispersed polyimide fine particles using a multi-step microreactor (AIST) *Ishizaka T., Chatterjee M., Nagao I., Kawanami H.	microreactor polyimide particles multi-functionalization	5-f	631
9:20– 11:20	ZCA210	Consideration of various factors in the emulsion polymerization process in which the W / O slug flow and reaction field (Okayama U.) *Tawara Kouki, Ono Tsutomu	slug flow soap-free emulsion polymerization nanoparticle	5-f	548
9:20– 11:20	ZCA211	Reaction behavior of Ala-Ala and Alanine anhydride under pulsed arc discharge on argon-water interface (Kumamoto U.) *Miyanomae Ryota, Hirano Yusuke, (Kumamoto U. IPPS) Sasaki Mitsuru, (Kumamoto U.) Quitain Armando, Kida Tetsuya, (Hiroshima Shudo U.) Kawamura Kunio, (NIT Hachinohe) Honma Tetsuo	Pulsed discharge amino acid peptide	5-g	799
9:20– 11:20	ZCA212	Continuous production of carbon nanotubes by feeding supported catalysts to the gas flow (Waseda U.) *Oba Ittetsu, Hasegawa Kei, Osawa Toshio, (Hodogaya chemical) Tsukada Takayuki, (Waseda U.) Noda Suguru	carbon nanotubes aerosol catalysts chemical vapor deposition	5-h	739
9:20– 11:20	ZCA213	The deposition rate of the zinc oxide thin film growth by using a cold wall type CVD reactor. (Tokai U.) *Kuroda Shingo, Yokoyama Yuki, Watanabe Masatoshi, Okubo Tatsuo, Akiyama Yasunobu	CVD Zinc oxide transparent conductive film	5-h	895
9:20– 11:20	ZCA214	Fabrication and electrical properties of the PZT capacitors on Pt bottom electrodes with different orientation (Osaka Pref. U.) *Amano T., Takada Y., Okamoto N., Saito T., Kondo K., Yoshimura T., Fujimura N., (Osaka.U.) Higuchi K., Kitajima A.	Ferroelectricity Orientation PZT capacitors	5-h	976
9:20– 11:20	ZCA215	Tailor made fabrication of carbon nanotube structures on three-dimensional aluminum substrates (Waseda U.) *Yoshihara Yu, Hasegawa Kei, (DENSO CORP. Res. Labs.) Ooshima Hisayoshi, (Waseda U.) Noda Suguru	carbon nanotubes aluminum substrates three-dimensional structure	5-h	358
9:20– 11:20	ZCA216	Flame synthesis of carbon nanotube (CNT) through diesel engine using floating catalysts (Tokyo Tech) *Suzuki S., Mori S.	Carbon nanotube flame synthesis diesel	5-h	817
9:20– 11:20	ZCA217	The formation control of polystyrene particle layer in the pulling method. (Tokai U.) *Koike Mikita, Inaba Yuki, Kanke Sinya, Yoshizawa Yuya, Akiyama Yasunobu	pulling method polystyrene particle formation control	5-i	877
9:20– 11:20	ZCA218	Theoretical Analysis of Gas Absorption Reaction with Chemical Kinetics Simulations (TS Tech.) *Yamaguchi Toru, (RITE) Yamada Hidetaka, (TS Tech.) Fujiwara Takayuki, (Yamaguchi U.) Hori Kenzi	Chemical Kinetics Simulations Quantum Mechanics Reaction Rate Constant	5-i	383

Time

Paper
ID

Title / Authors

Keywords

Topic code

Ack.
number

Hall ZA, Day 2

9:20– 11:20

ZAA201

Process modeling for environmental consideration of industrial painting processes

(U. Tokyo) *Yamagishi Tatsuya, Kikuchi-Uehara Emi, (TIRI) Onozawa Akiyoshi, Kinoshita Toshio, (U. Tokyo) Hirao Masahiko

volatile organic compounds
process modeling
life cycle assessment

6-b

407

9:20– 11:20

ZAA202

Design Method for Pharmaceutical Tablet Production Considering Batch & Continuous Technologies

(U. Tokyo) *Matsunami K., (Daiichi-Sankyo) Miyano T., Arai H., Nakagawa H., (U. Tokyo) Hirao M., Sugiyama H.

Pharmaceuticals
Solid drug manufacturing
Continuous manufacturing

6-b

152

9:20– 11:20

ZAA203

Designing solvent recovery processes in drug substance manufacturing

(U. Tokyo) *Xu M., Matsuura M., Morikawa Y., Sugiyama H.

Pharmaceuticals
Azeotropic mixture
Multiobjective design

6-b

328

9:20– 11:20

ZAA204

Slug Length Estimation of Parallelized Microreactors with Gas-Liquid Slug Flows

(Kyoto U.) *Onabe Y., Tonomura O., Taniguchi S., Hasebe S.

Gas-liquid Microreactor
Slug Length Estimation
Process Monitoring

6-d

963

9:20– 11:20

ZAA205

A procedure for the optimal structure synthesis of hybrid distillation-membrane separation processes

(Kyoto U.) *Tsuji Takeshi, Ikishima Junya, Takase Hiroshi, Hasebe Shinji

Energy saving
Hybrid process
Superstructure

6-e

348

9:20– 11:20

ZAA206

Problem of improvement of process completion time in manufacturing systems with stochastic processing time and its solving method

(Nagoya U.) *Imaoka Y., Hashizume S., Yajima T., Onogi K.

improvement of process completion time
critical path
stochastic processing time

6-e

722

9:20– 11:20

ZAA207

Numbering-up and Process Monitoring of Monolithic Microreactors

(Kyoto U.) *Nishi K., Taga T., Tonomura O., Taniguchi S., Nagaki A., Hirose K., Yoshida J., (Emaus Kyoto) Ishizuka N., (Kyoto U.) Hasebe S.

Microreactor
Numbering-up
Flow distributor design

6-g

964

9:20– 11:20

ZAA208

Scenario design support of technology introduction on energy carrier considering the regional characteristics

(U. Tokyo) *Tsukushi Y., Okubo T., (UTokyo) Kikuchi Y.

Energy carrier
Regional characteristics
Design support

6-g

396

9:20– 11:20

ZAA209

Reaction control based on the dynamics of the compartments and the fluctuations of the number of molecules in the compartments in multiphase environment.

(Osaka U.) *Ichii Tetsuo, Yoshiyama Tomoaki, Yomo Tetsuya

stochastic simulation
fluctuation
compartment

6-d

441

9:20– 11:20

ZAA210

First principle parameter determination for the ultra-fast quantum chemical calculations: Application of artificial intelligence techniques

(Tohoku U.) *Sato Manami, Komuro Rei, Sato Ryo, Ishizawa Yukie, Obara Yukiko, Inaba Kenji, Bonnaud Alain Patrick, Miura Ryuji, Suzuki Ai, Miyamoto Naoto, Hatakeyama Nozomu, Hariyama Masanori, Miyamoto Akira

Ultra-Accelerated Quantum Chemical Molecular Dynamics Method
Artificial Intelligence

6-e

260

9:20– 11:20

ZAA211

Measurement of Solubility of Thiophene Compounds in Supercritical Carbon Dioxide by the Determination of the Saturation States Using UV-Visible Spectroscopy

(Shinshu U.) *Sano K., Takahara K., Uchida H.

Solubility
Supercritical CO2
Thiophene compounds

8-b

898

9:20– 11:20

ZAA212

Measurement of tetracene solubility in supercritical carbon dioxide using UV-vis spectroscopy

(U. Tokyo) *Toyokura Shota, Shimoyama Yusuke, Shimogaki Yukihiro, Momose Takeshi

supercritical co2
tetracene
crystallization

8-b

502

9:20– 11:20

ZAA213

Fabrication of tetracene films using temperature gradient in supercritical solution

(U. Tokyo) *Toyokura Shota, Shimoyama Yusuke, Shimogaki Yukihiro, Momose Takeshi

supercritical co2
tetracene
crystallization

8-c

495

9:20– 11:20

ZAA214

Separation and purification of functional substances from soybean sludge by supercritical carbon dioxide

(Nagoya U.) *Kaga Kahori, Uemori Chiho, Wahyudiono, Kanda Hideki, Goto Motonobu

supercritical fluid
separation
tocopherol

8-c

676

9:20– 11:20

ZAA215

Synthesis of HfO₂ and ZrO₂ nanoparticles modified with π electron molecules for incorporation to plastic scintillators

(Tohoku U.) *Hiyama Fumiyuki, (Tohoku U. NICHe) Noguchi Takio, Aida Tsutomu, (Tohoku U.) Takami Seiichi, (Tohoku U. WPI-AIMR) Adschiri Tadafumi, (Tohoku U.) Koshimizu Masanori, Fujimoto Yutaka, (NAIST) Yanagida Takayuki, (NIRS) Nishikido Fumihiko, (KEK) Haruki Rie, Kishimoto Syunji, (Tohoku U.) Asai Keisuke

supercritical
nanoparticle
scintillator

8-e

705

9:20– 11:20

ZAA216

Kinetics of amide hydrolysis in hot compressed water

(U. Tokyo) *Fujioka Nanae, Akizuki Makoto, Oshima Yoshito

Hot compressed water
Hydrolysis
Amide

8-d

575

9:20– 11:20

ZAA217

Synthesis of Graphene Oxide/Bio-Based Polymer Hybrid Composite Aerogel

(DLSU-ChE) *Co C. J. U., (Kumamoto U.) Quitain A. T., (DLSU-ChE) Borja J. Q., Dugos N. P., (Kumamoto U.) Takafuji M., Kida T.

Aerogel
Supercritical Carbon Dioxide
Graphene Oxide

8-e

818

9:20– 11:20

ZAA218

Production of titania aerogel containing carbon by supercritical solvent sol-gel reaction

(Tokyo Tech) *Kinoshita M., Shimoyama Y.

supercritical sol-gel reaction
titania aerogel
incorporation with carbon

8-d

650

9:20– 11:20

ZAA219

Debromination of tetrabromobisphenol A (TBBPA) in aqueous amine solutions under hydrothermal conditions

(Chuo U.) *Kimura Yuta, Taguchi Minori, Funazukuri Toshitaka

Hydrothermal
Debromination
Tetrabromobisphenol A

8-d

566

9:20– 11:20

ZAA220

Synthesis of succinimide in high temperature and high pressure water

(NIT Hachinohe) *Takahashi Yuka, Honma Tetsuo

succinimide
supercritical water
organic synthesis

8-d

636

9:20– 11:20

ZAA221

Measurement and correlation of diffusion coefficients of metal complexes in liquid and supercritical states

(Shizuoka U.) Morishita Yohei, *Kong Chang Yi, (Chuo U.) Funazukuri Toshitaka

diffusion coefficient
metal complex
supercritical carbon dioxide

8-b

662

9:20– 11:20

ZAA222

Supercritical CO₂ extraction of functional ingredients from Aframomum melegueta

(Nagoya U.) *Ono Maiko, Uemori Chiho, Wahyudiono, Kanda Hideki, Goto Motonobu

supercriticalfluid
extraction
spice

8-c

677

9:20– 11:20

ZAA223

Organocatalytic polymerization of highly pure cyclic polylactide in super critical carbon dioxide

(Shizuoka U.) *Nakaya Y., Sato K., Narumi T., Watanabe N., Mase N.

Supercritical carbon dioxide
Organocatalyst
Cyclic polylactide

8-d

9:20– 11:20

ZAA224

Kinetic analysis of solid base catalyzed aldol condensation in hot compressed water

(U. Tokyo) *Nakai Yusuke, Akizuki Makoto, Oshima Yoshito

Hot compressed water
Solid base catalyst
Aldol condensation

8-d

606

9:20– 11:20

ZAA225

Kinetics of methanol hydrothermal oxidation on PdO catalyst

(Shizuoka U.) *Oishi K., Okajima I., Sako T., (RICOH) Torii S., Suzuki S.

hydrothermal oxidation
methanol
kinetics

8-d

786

9:20– 11:20

ZAA226

Cascade fractionation of functional components from dairy by-product

(Tohoku U.) *Oda Erika, Ota Masaki, Sato Yoshiyuki, Inomata Hiroshi, (SHALOM) Kon Tatsuhiko, Sekiya Eiji

supercritical
extraction
fraction

8-c

659

9:20– 11:20

ZAA227

Photocatalytic reduction of CO₂ with water as a reductant by platinum-loaded titanium oxide under high-temperature and high-pressure

(Osaka City U.) *Hirata S., Kometani N.

Photocatalysis
CO2 reduction
Supercritical fluid

8-d

130

9:20– 11:20

ZAA228

Synthesis of Molybdenum oxide nanoparticles for liquid scintillators for detection of neutrinoless double beta decay

(Tohoku U.) *Takigawa Susumu, (Tohoku U. NICHe) Noguchi Takio, Aida Tsutomu, (Tohoku U.) Takami Seiichi, (Tohoku U. WPI) Adschiri Tadafumi, (Tohoku U.) Koshimizu Masanori, Fujimoto Yutaka, Asai Keisuke

Molybdenum
liquid scintillators
neutrinoless double beta decay

8-e

317

9:20– 11:20

ZAA229

Study for the direct methanol synthesis from methane

(Nagoya U.) *Orita Yasuhiko, Machida Hiroshi, Horizoe Hirotoshi

hydrothermal oxidation
methane
methanol

8-d

730

9:20– 11:20

ZAA230

Real-time measurement of size distribution of fine particles generated by rapid expansion of supercritical solution

(Kanazawa U.) *Muramoto S., Higashi H., Kumita M., Seto T., Otani Y.

size distribution
fine particle
RESS

8-e

919

9:20– 11:20

ZAA231

Development of Production Technique of Fine Powder of Theophylline by the Particles from Gas Saturated Solutions with Spray-Drying (PGSS-SD) Using Supercritical CO₂

(Shinshu U.) *Watanabe K., Uchida H.

PGSS-SD
Supercritical carbon dioxide
Theophylline fine powder

8-e

907

9:20– 11:20

ZAA232

Development of metal thin film coating technique of nanoparticle using supercritical carbon dioxide

(Shizuoka U.) *Oyama K., Okajima I., Sako T.

supercritical carbon dioxide
nanoparticle
coating

8-e

760

9:20– 11:20

ZAA233

Continuous hydrothermal synthesis of LiMn_1/3Ni_1/3Co_1/3O₂ in supercritical water

(Kanazawa U.) *Ogawa Kohei, Tamura Kazuhiro, Tada Kaoru

Lithium-ion battery
supercritical water
cathode nano-size particle

8-e

311

9:20– 11:20

ZAA234

Kinetic Analysis to Establish a Design Method of Hydrothermal Nanoparticle Synthesis with Flow-type Reactor

(Tohoku U.) *Sato A., Aoki N., Seong G., Aida T., Hojo D., Takami S., Adschiri T.

nanoparticles
hydrothermal synthesis
kinetics

8-e

773

9:20– 11:20

ZAA235

Fabrication and Characterization of Titanium Oxide Aerogel Dispersed Square Rod Titanium Oxide

(NIT Hachinohe) *Nara Mitsunobu, Hasegawa Akira, Honma Tetsuo

Titanium Oxide Aerogel
Supercritical CO2 Drying
Sol-Gel Method

8-e

371

9:20– 11:20

ZAA236

Functionalization of Graphene Oxide Using the Synergy of Supercritical Carbon Dioxide and Subcritical Water

(DLSU-ChE) *Yu J. M., (Kumamoto U.) Quitain A. T., (DLSU-ChE) Dugos N., Borja J., (Kumamoto U.) Kida T.

Graphene Oxide
Supercritical Carbon Dioxide
Subcritical Water

8-e

808

9:20– 11:20

ZAA237

Crystallization of glycine by liquefied dimethyl ether as anti-solvent

(Nagoya U.) *Katsube Tsubasa, Ogawa Masaki, Hoshino Rintarou, Wahyudiono, (Ajinomoto) Kishino Mitsuhiro, (Nagoya U./JST-PRESTO) Kanda Hideki, (Nagoya U.) Goto Motonobu

anti-solvent
Dimethyl ether
crystallization

8-c

678

9:20– 11:20

ZAA238

One step synthesis of ammonia at interfacial reaction

(Kyutech) *Namise Takamitsu, Shimoshimizu Naoya, Uemura Shintaro, Haruyama Tetsuya

Interfacial reaction
Non catalytic
Ammonia

8-f

9:20– 11:20

ZAA239

Decomposition of phosphate ester using subcritical water

(Shizuoka U.) *Nakamoto Y., Okajima I., Sako T.

subcritical water
phosphate ester
analysis of reaction kinetics

8-f

778

9:20– 11:20

ZAA240

Photocatalytic Decomposition of Water over Picene Thin-Film

(Kobe U.) *Kishishita K., Maeda S., Okemoto A., Taniya K., Ichihashi Y., Nishiyama S.

picene thin-film
photocatalysis
water decomposition

5-a

214

9:20– 11:20

ZAA241

Metal modified nanosheet-like molybdenum carbide catalysts for formic acid decomposition

(Hirosaki U. NJRISE) *Ji Cao, (Hirosaki U.) Xiumin Li, (Hirosaki U. NJRISE) Guoqing Guan, Abuliti Abudula

molybdenum carbide catalyst
Hydrogen Production
Formic acid

5-a

257

9:20– 11:20

ZAA242

Effective cyclic operation for liquid-liquid-liquid phase-transfer catalytic reaction

(Tokyo Tech.) *Hayashi M., (AIST) Matsumoto H., (Tokyo Tech.) Fujitsuka H., Tago T.

cyclic operation
phase transfer catalysis
liquid-liquid-liquid phase system

5-a

276

9:20– 11:20

ZAA243

Modeling of degradation of anode catalyst against CO in fuel cell by the novel materials informatics

(Kogakuin U.) *Saito Shuhei, Md,Khorshed Alam, Takaba Hiromitsu

Polymer Electrolyte Fuel Cell
Materials Informatics
Pt2Ru3 alloy catalyst

5-a

467

9:20– 11:20

ZAA244

Reaction analysis of methane dry reforming on a nickel catalyst using a pulse method

(Nagoya U.) *Yang Zhao, Yamada Hiroshi, Tagawa Tomohiko

a pulse method
nickel catalyst
dry reforming

5-a

501

9:20– 11:20

ZAA245

Preparation of CeO₂ nanorods covered with CuO layers and improvement of PM combustion activity

(Tokushima U.) *Tezuka Y., Katayama M., Ohshima T., Nakagawa K., Katoh M., Sugiyama S.

CeO2
nanorods
PM combustion

5-a

568

9:20– 11:20

ZAA246

Methylcyclohexane dehydrogenation property of Pt-based honeycomb-structured catalyst

(Shizuoka U.) *Hisamatsu Yoshikazu, Bandai Yuya, Funakubo Keisuke, Watanabe Ryo, Fukuhara Choji

Organic chemical hydride
Methylcyclohexane
Pt-based catalyst

5-a

679

9:20– 11:20

ZAA247

Controlled formation of graphene using epitaxial Cu film catalyst rapidly deposited on sapphire substrates

(Waseda U.) *Minamide Taisuke, Aoi Shigeki, Okawa Asahi, Hasegawa Kei, Noda Suguru

graphene
chemical vapor deposition
epitaxial growth

5-h

334

9:20– 11:20

ZAA248

Synthesis of graphene on Cu foils from CH₄ and CO and mechanism analysis based on rate process and equilibrium

(Waseda U.) *Nagai Yukuya, Okawa Asahi, Hasegawa Kei, Noda Suguru

graphene
chemical vapor deposition
disproportionation reaction

5-h

349

9:20– 11:20

ZAA249

Development of metal foil catalyst preparation techniques using arc-plasma deposition

(Kumamoto U./Kyoto U. ESICB) *Yoshida Hiroshi, (Kumamoto U.) Misumi Satoshi, (Kumamoto U./Kyoto U. ESICB/JST-PRESTO) Hinokuma Satoshi, (Kumamoto U./Kyoto U. ESICB) Machida Masato

arc-plasma
rhodium
catalyst preparation

5-a

614

9:20– 11:20

ZAA250

The development of automobile exhaust purification catalyst using carbonization materials

(TUAT) *Nakagawa Ayumi, Sakurai Makoto, Kameyama Hideo

Three-Way Catalyst
carbon alloys
off-gas cleanup

5-a

696

9:20– 11:20

ZAA251

Influence of Si/Al ratio of β-zeolites on activity for Baeyer-Villiger oxidation

(Kobe U.) *Mori R., Okemoto A., Taniya K., Ichihashi Y., Nishiyama S.

Baeyer-Villiger oxidation
H-type β-zeolite
Si/Al ratio

5-a

763

9:20– 11:20

ZAA252

Reaction analysis of alcohol selective oxidation in PEFC reactor

(Nagoya U.) *Funahashi K., (NMIRI) Miyata Y., (Nagoya U.) Yamada H., Tagawa T.

PEFC reactor
cyclic voltammetry analysis
alcohol selective oxidation

5-a

787

9:20– 11:20

ZAA253

Effect of mass- and heat-transfer promotion on CO₂ methanation property of Ni/CeO₂ structured catalyst

(Shizuoka U.) *Hayakawa Kotaro, (CATALER) Murabayashi Katsunori, (Shizuoka U.) Watanabe Ryo, Fukuhara Choji

CO2 methanation
Structured catalyst
CO2 utilization

5-a

655

9:20– 11:20

ZAA254

Effects of dual-frequency ultrasonic irradiation and its application to synthesis of NiPAM particles.

(Tokyo Tech.) *Furuya T., (AIST) Matsumoto H., (Tokyo Tech.) Fujitsuka H., Tago T.

Sonochemistry
KI dosimetry
Calorimetry

5-b

281

9:20– 11:20

ZAA255

Process construction of lignin degradation under ultrasonic irradiation

(Kobe U.) *Toba Yurina, Tanaka Kohki, Fukunaga Saki, Masuda Hayato, Horie Takafumi, Ohmura Naoto

ultrasonic irradiation
lignin degradation
frequency

5-b

536

9:20– 11:20

ZAA256

Synthesis of chlorine dioxide using atmospheric plasma reaction field

(Chiba Inst. Tech.) *Nishiyama H., Onoe K.

Atmospheric plasma
Chlorine dioxide
Plasma field

5-c

360

9:20– 11:20

ZAA257

Continuous gas-phase production of hybrid carbon nanoparticles with nanotubes

(Waseda U.) *Kuriya Masaaki, Hasegawa Kei, Osawa Toshio, Noda Suguru

carbon nanotubes
carbon nanoparticles
continuous production

5-h

123

9:20– 11:20

ZAA258

Direct synthesis of graphene on SiO₂ by dissolving carbon to and Cl₂ etching of Co films

(Waseda U.) *Kishida Yuri, Hasegawa Kei, Noda Suguru

graphene
crystal growth
dry-etching

5-h

180

Hall ZB, Day 2

9:20– 11:20

ZBA201

Development of Artificial Intelligence Integrated Multiscale Multiphysics Computational Chemistry Method and its Application to Automobile Catalyst Process

(Tohoku U.) *Sato Masashi, Inaba Kenji, Ishizawa Yukie, Obara Yukiko, Sato Ryo, Okushi Kotaro, Komuro Rei, Sato Manami, Bonnaud Patrick, Miura Ryuji, Miyamoto Naoto, Hatakeyama Nozomu, Miyamoto Akira

Artificial Intelligence
Automobile Catalyst
Computational Chemistry

5-a

165

9:20– 11:20

ZBA202

Development and application of artificial intelligence integrated catalytic deterioration simulation

(Tohoku U.) *Sato Ryo, Sato Manami, Komuro Rei, Ishizawa Yukie, Obara Yukiko, Inaba Kenji, Sase Mai, Bonnaud Patrick, Miura Ryuji, Suzuki Ai, Miyamoto Naoto, Hatakeyama Nozomu, Miyamoto Akira

artificial intelligence
catalytic dererioration
interaction

5-a

190

9:20– 11:20

ZBA203

The development and application of artificial intelligence integrated adsorption simulation

(Tohoku U.) *Obara Yukiko, Miyano Masayuki, Sato Emi, Sato Manami, Komuro Rei, Ishizawa Yukie, Inaba Kenji, Bonnaud Alain Patrick, Miura Ryuji, Suzuki Ai, Miyamoto Naoto, Hatakeyama Nozomu, Miyamoto Akira

Computational chemistry
Artificial intelligence
Adsorption simulation

5-a

411

9:20– 11:20

ZBA204

Application to the catalytic reaction process by development of Artificial Intelligence Integrated Ultra Accelerated Quantum Chemical Molecular Dynamics

(Tohoku U.) *Ishizawa Yukie, Inaba Kenji, Obara Yukiko, Sato Ryo, Sase Mai, Sato Manami, Komuro Rei, Bonnaud Patrick, Miura Ryuji, Suzuki Ai, Miyamoto Naoto, Hatakeyama Nozomu, Miyamoto Akira

artificial intelligence
Automobile catalyst
Ultra-Accelerated Quantum Chemical Molecular Dynamics Method

5-a

460

9:20– 11:20

ZBA205

Photorecovery of Noble Metals Using Polyoxometalate Hybrid Catalysts Combined With a Ru Complex as a Light-Harvesting Antenna

(Kumamoto U.) *Tsuchibashi Kenta, Sadowara Kouki, (Kyusyu U.) Kumamoto Kouta, (Kumamoto U.) Quitain Armando, (Kumamoto U. IPPS) Sasaki Mitsuru, (Kumamoto U.) Kida Tetsuya

Polyoxometalate
Recovery of metals
Dye-sensitizer

5-a

667

9:20– 11:20

ZBA206

DFT study on mechanism of benzene oxidation over vanadium complex catalysts

(Kobe U.) *Utsunomiya A., Okemoto A., Taniya K., Ichihashi Y., Nishiyama S.

benzene oxidation
reaction mechanism
complex catalysts

5-a

132

9:20– 11:20

ZBA207

A novel method for gas-phase removal of catalyst metals from carbon nanotube

(Waseda U.) *Hamada Koki, Hasegawa Kei, Noda Suguru

carbon nanotubes
purification
metal nanoparticles

5-d

335

9:20– 11:20

ZBA208

Vapor phase esterification with a packed-bed zeolite membrane reactor

(Utsunomiya U.) *Kikuchi Shuhei, Kikuchi Yuhei, Sato Takafumi, Ito Naotsugu

zeolite
esterification
membrane reactor

5-d

944

9:20– 11:20

ZBA209

Effect of mass transfer on catalytic reaction in slug flow reactor

(Kobe U.) *Hirai Kenta, Iwamura Yuuki, Masuda Hayato, Kumagai Norihisa, Horie Takafumi, Ohmura Naoto

slug flow
catalyst
mass transfer

5-e

697

9:20– 11:20

ZBA210

Non-catalytic oxidation at Reactive Oxygen Species generated locus

(Kyutech) *Miyori Nobuhiro, Kitamura Mitsuru, Haruyama Tetsuya

Reactive Oxygen Species
Oxidation
interfacial reaction

5-e

9:20– 11:20

ZBA211

The effect of precursor valence on the formation mechanism of octanoic acid modified CeO₂ nanoparticles

(Tohoku U.) *Mori Tadaaki, Aoki Nobuaki, Hojo Daisuke, Aida Tsutomu, Seong Gimyeong, Takami Seiichi, Adschiri Tadafumi

supercritical water
ceria nanoparticle synthesis
flow type reactor

5-e

220

9:20– 11:20

ZBA212

Flame synthesis of single-wall carbon nanotubes and reaction field control for their quality improvement

(Waseda U.) *Okada Shohei, Hasegawa Kei, Osawa Toshio, Noda Suguru

single-wall carbon nanotubes
flame synthesis
reaction field control

5-h

273

9:20– 11:20

ZBA213

Development of water-gas shift membrane reactor(WGSMR) for flue gas of coal gasifier by using process simulator

(TUAT) *Yonamine W., Fushimi C.

IGCC
WGSMR
ceramic membrane

5-e

584

9:20– 11:20

ZBA214

Decomposition behavior of perfluorocarbon (PFC) using Al₂O₃ supported Nickel/CaO mixed reactants

(Kansai U.) *Takai K., Araki S., Yamamoto H.

Perfluorocarbon
Al2O3 supported Nickel
Calcium oxide

5-d

193

9:20– 11:20

ZBA215

Factors affecting fiber preparation using microfluidic wet-spinning

(Okayama U.) *Kondo Yuya, Ono Tsutomu

microfluidic device
wet-spinning
jet stream

5-f

560

9:20– 11:20

ZBA216

Synthesis of 1,3,5-Triacetylbenzene in Hot-Compressed Water Using Flow Reactor

(Nihon U.) *Inaba Ryoichiro, Sato Toshiyuki, Okada Masaki, Hiaki Toshihiko, (U. Tokyo) Iwamura Hiizu

Hot-Compressed Water
Flow system
Cyclotrimerization

5-f

173

9:20– 11:20

ZBA217

Conversion of glucose into 5-hydroxymethylfurfural and levulinic acid using solid-acid catalyst

(Kyoto U.) *Sasakura Keisuke, Tanino Shohei, Muranaka Yosuke, (Kansai U.) Hasegawa Isao, (Kyoto U.) Maki Taisuke, Mae Kazuhiro

5-hydroxymethylfurfural
solid-acid catalyst
glucose

5-g

427

9:20– 11:20

ZBA218

Fluidized bed production of carbon nanotubes using gas-phase supported catalyst on ceramic powders

(Waseda U.) *Kawabata Kosuke, Hasegawa Kei, Osawa Toshio, Noda Suguru

carbon nanotubes
fluidized bed
chemical vapor deposition

5-h

468

9:20– 11:20

ZBA219

Fluidized bed production of single-wall carbon nanotubes using carefully sputtered catalyst on beads

(Waseda U.) *Hachiya Soichiro, Chen Zhongming, Kawabata Kosuke, Hasegawa Kei, Osawa Toshio, Noda Suguru

single-wall carbon nanotubes
fluidized bed
chemical vapor deposition

5-h

477

9:20– 11:20

ZBA220

(withdrawn)

100

858

Hall ZC, Day 2

9:20– 11:20

ZCA201

Production of fatty acid ethyl ester from hydrous ethanol and waste acid oil

(Tohoku U.) *Suzue M., Fukushima Y., Shibasaki-Kitakawa N.

fatty acid ethyl ester
hydrous ethanol
ion-exchange resin catalyst

5-g

879

9:20– 11:20

ZCA202

Development of Microwave-Assisted Biodiesel Production Using Functionalized Carbon-Based Catalyst

(Kumamoto U.) *Sumigawa Yoshifumi, Quitain Armando, Uchikado Shinnosuke, (Kumamoto U. IPPS) Sasaki Mitsuru, (Kumamoto U.) Kida Tetsuya

biodiesel
carbon-based catalyst
microwave

5-g

434

9:20– 11:20

ZCA203

Reaction Mechanism and Kinetics of Lactic Acid Synthesis from Carbohydrates using SnCl₂ Catalyst in ChCl Aqueous Solution

(Hirosaki U.) *Asep Bayu, Surachai Karnjanakom, (Hirosaki U. NJRISE) Guoqing Guan, Abuliti Abudula, (Sojo U.) Katsuki Kusakabe

lactic acid
glucose
choline chloride

5-g

230

9:20– 11:20

ZCA204

Conversion of glucose into 5-hydroxymethylfurfural by heterogeneous catalysis of ion-exchange resins.

(TCU) *Namba Hiroki, Fuyukawa Takuro, Ishikawa Sara, Kouzu Masato

HMF
Ion-exchange resin
Acid-base catalysis

5-g

487

9:20– 11:20

ZCA205

Effect of unsaturated fatty acid side chain on catalytic cracking of vegetable oil

(Shinshu U.) *Nakamura Y., Osada M., Fukunaga H., Takahashi N., (Euglena) Ohta H., Suzuki K., (Chiyoda) Takatsuka T., (Shinshu U.) Shimada I.

catalytic cracking
vegetable oil
unsaturated fatty acid

5-g

540

9:20– 11:20

ZCA206

Rapid vapor deposition and mechanical separation of large-grain crystalline Si thin films on/from graphitic substrates

(Waseda U.) *Yamasaki Yuhei, Hasegawa Kei, Osawa Toshio, Noda Suguru

crystalline silicon thin films
lift-off process
crystal growth

5-h

216

9:20– 11:20

ZCA207

Direct growth and structural control of graphene films on dielectric substrates by "etching-precipitation" method

(Waseda U.) *Akiba Sachie, (U. Tokyo) Kosaka Masaki, (Waseda U.) Hasegawa Kei, Noda Suguru

graphene
crystal growth
dry-etching

5-h

338

9:20– 11:20

ZCA208

Quantitative evaluation of mass transfer promotion in gas-liquid segmented flow for designing high-performance microreactor

(Kyoto U.) *Masaki Rie, (AIST) Fukuda Takashi, (Kyoto U.) Maki Taisuke, Mae Kazuhiro

gas-liquid segmented flow
mass transfer
microreactor

5-f

364

9:20– 11:20

ZCA209

Fabrication of Au/magnetite nanoparticles-dispersed polyimide fine particles using a multi-step microreactor

(AIST) *Ishizaka T., Chatterjee M., Nagao I., Kawanami H.

microreactor
polyimide particles
multi-functionalization

5-f

631

9:20– 11:20

ZCA210

Consideration of various factors in the emulsion polymerization process in which the W / O slug flow and reaction field

(Okayama U.) *Tawara Kouki, Ono Tsutomu

slug flow
soap-free emulsion polymerization
nanoparticle

5-f

548

9:20– 11:20

ZCA211

Reaction behavior of Ala-Ala and Alanine anhydride under pulsed arc discharge on argon-water interface

(Kumamoto U.) *Miyanomae Ryota, Hirano Yusuke, (Kumamoto U. IPPS) Sasaki Mitsuru, (Kumamoto U.) Quitain Armando, Kida Tetsuya, (Hiroshima Shudo U.) Kawamura Kunio, (NIT Hachinohe) Honma Tetsuo

Pulsed discharge
amino acid
peptide

5-g

799

9:20– 11:20

ZCA212

Continuous production of carbon nanotubes by feeding supported catalysts to the gas flow

(Waseda U.) *Oba Ittetsu, Hasegawa Kei, Osawa Toshio, (Hodogaya chemical) Tsukada Takayuki, (Waseda U.) Noda Suguru

carbon nanotubes
aerosol catalysts
chemical vapor deposition

5-h

739

9:20– 11:20

ZCA213

The deposition rate of the zinc oxide thin film growth by using a cold wall type CVD reactor.

(Tokai U.) *Kuroda Shingo, Yokoyama Yuki, Watanabe Masatoshi, Okubo Tatsuo, Akiyama Yasunobu

CVD
Zinc oxide
transparent conductive film

5-h

895

9:20– 11:20

ZCA214

Fabrication and electrical properties of the PZT capacitors on Pt bottom electrodes with different orientation

(Osaka Pref. U.) *Amano T., Takada Y., Okamoto N., Saito T., Kondo K., Yoshimura T., Fujimura N., (Osaka.U.) Higuchi K., Kitajima A.

Ferroelectricity
Orientation
PZT capacitors

5-h

976

9:20– 11:20

ZCA215

Tailor made fabrication of carbon nanotube structures on three-dimensional aluminum substrates

(Waseda U.) *Yoshihara Yu, Hasegawa Kei, (DENSO CORP. Res. Labs.) Ooshima Hisayoshi, (Waseda U.) Noda Suguru

carbon nanotubes
aluminum substrates
three-dimensional structure

5-h

358

9:20– 11:20

ZCA216

Flame synthesis of carbon nanotube (CNT) through diesel engine using floating catalysts

(Tokyo Tech) *Suzuki S., Mori S.

Carbon nanotube
flame synthesis
diesel

5-h

817

9:20– 11:20

ZCA217

The formation control of polystyrene particle layer in the pulling method.

(Tokai U.) *Koike Mikita, Inaba Yuki, Kanke Sinya, Yoshizawa Yuya, Akiyama Yasunobu

pulling method
polystyrene particle
formation control

5-i

877

9:20– 11:20

ZCA218

Theoretical Analysis of Gas Absorption Reaction with Chemical Kinetics Simulations

(TS Tech.) *Yamaguchi Toru, (RITE) Yamada Hidetaka, (TS Tech.) Fujiwara Takayuki, (Yamaguchi U.) Hori Kenzi

Chemical Kinetics Simulations
Quantum Mechanics
Reaction Rate Constant

5-i

383

Technical program

SCEJ 81st Annual Meeting (2016)

© 2016 The Society of Chemical Engineers, Japan. All rights reserved.
Most recent update: 2016-02-26 18:17:04
For more information contact Organizing Committee, SCEJ 81st Annual Meeting (2016)
E-mail: inquiry-81a

www3.scej.org

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