SCEJ 81st Annual Meeting (2016): Session programs

`SCEJ 81st Annual Meeting (2016)`

Session programs

Chemical reaction engineering

D113-D123, D213-D224, D301-D324

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

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Time	Paper ID	Title / Authors	Keywords	Topic code	Ack. number
Hall D, Day 1
(13:00–14:20) (Chair: Sasaki Mitsuru, Uemura Yoshimitsu)
13:00– 13:20	D113	Nanocellulose extraction by combination of ionic liquid and ball milling method (Hirosaki U.) *Patchiya Phanthong, (Hirosaki U. NJRISE) Guoqing Guan, Abuliti Abudula	Nanocellulose Ion liquid Ball-milling	5-g	229
13:20– 13:40	D114	Reaction mechanism of upgrading bio-oil over magnesium loaded zeolite (Hirosaki U.) *Jenny Rizkiana, (Hirosaki U. NJRISE) Jingxuan Yang, Guoqing Guan, Abuliti Abudula	Magnesium loaded USY zeolite Oil upgrading Stability	5-g	232
13:40– 14:00	D115	Deoxygenation reaction mechanism in catalytic cracking of vegetable oil (Shinshu U.) *Shimada I., Kato S., Osada M., Fukunaga H., Takahashi N., (Euglena) Ohta H., Suzuki K., (Chiyoda) Takatsuka T.	vegetable oil catalytic cracking deoxygenation	5-g	531
14:00– 14:20	D116	Effect of reaction conditions on conversion of furfural produced from biomass to aromatic hydrocarbons over ZSM-5 (Kagoshima U.) *Fukudome Kenta, Goshima Takashi, Mizuta Kei, Nii Susumu, Tsutsui Toshio	Bagasse Furfural Aromatic hydrocarbons	5-g	674

(15:00–16:40) (Chair: Shimada Iori, Fukudome Kenta)
15:00– 15:20	D119	Enhancement effect of O₂ and CO₂ towards torrefaction of empty fruit bunches (UTP) Sulaiman Mohammad Hisham, *Uemura Yoshimitsu, Azizan Mohammad Tazli, (Yamaguchi U.) Tanoue Ken-ichiro	torrefaction empty fruit bunches oxidative atmosphere	5-g	810
15:20– 15:40	D120	Characterization of empty fruit bunches torrefied under O₂ and CO₂ atmospheres (UTP) Sulaiman Mohammad Hisham, *Uemura Yoshimitsu, Azizan Mohammad Tazli, (Yamaguchi U.) Tanoue Ken-ichiro	torrefaction oxidative atmosphere characterization	5-g	814
15:40– 16:00	D121	Effect of nanosecond pulsed arc discharges on the synthesis of poly-N-isopropylacrylamide (Kumamoto U. IPPS) *Sasaki Mitsuru, (Kumamoto U.) Hirano Yusuke, Miyanomae Ryota, Quitain Armando, Kida Tetsuya, (Kyoto Inst. Tech.) Okubayashi Satoko, (NIT Hachinohe) Honma Tetsuo	Pulsed arc discharge PNIPAM Reaction mechanism	5-c	796
16:00– 16:20	D122	Impact of Layout Condition of Metal-loaded TiO₂ Coated on Different Substrates on CO₂ Reforming Performance (Mie U.) *Nishimura Akira, Zhao Xuyan, Ishida Noriaki, Tatematsu Daichi, Hirota Masafumi	Metal-loaded TiO2 CO2 Reforming Different Substrates Combination	5-c	18
16:20– 16:40	D123	Ni-based structured catalyst system for capturing carbon from methane dry reforming gas (Shizuoka U.) *Kawasaki Wataru, Kato Hidenori, Watanabe Ryo, Fukuhara Choji	Methane dry reforming Carbon capture Structured catalyst	5-a	849
Hall D, Day 2
(13:00–14:20) (Chair: Makino Soichiro)
13:00– 13:20	D213	Gas-phase continuous production of carbon nanotubes of smaller diameters at higher yields (Waseda U.) *Noda Suguru, Yamaguchi Mai, Okada Shohei, Oba Ittetsu, Sugino Yusuke, Kuriya Masaaki, Hasegawa Kei, Osawa Toshio	carbon nanotubes chemical vapor deposition aerosol catalysts	5-h	883
13:20– 13:40	D214	On-substrate synthesis of carbon nanotubes for device applications (Waseda U.) *Noda Suguru, (U. Tokyo) Na Nuri, (Waseda U.) Kobayashi Shunji, Takabatake Mami, Yoshihara Yu, Hasegawa Kei, Osawa Toshio	carbon nanotubes chemical vapor deposition self-organization	5-h	886
13:40– 14:00	D215	Fluidized-bed production of long carbon nanotubes and creation of three-dimensional electrodes for electric storage devices (Waseda U.) *Noda Suguru, Chen Zhongming, Kawabata Kosuke, Hachiya Soichiro, Quintero Ricardo, Xu Naiao, Narubayashi Misato, Hori Keisuke, Kowase Takayuki, Hasegawa Kei, Osawa Toshio	carbon nanotubes fluidized bed electric storage devices	5-h	894
14:00– 14:20	D216	Roles of pre-anneal treatment for graphene CVD growth (Fukuoka U.) Ueno M., *Yoshihara N., Noda M.	graphene pre-anneal chemical vapor deposition	5-h	402
(14:20–16:00) (Chair: Watanabe Ryo, Momose Takeshi)
14:20– 14:40	D217	Development of product by biomass (dried gourd) in Tochigi prefecture (NIT Oyama colledge) *Tanaka Takakuni, Kobayashi Ryo, Kobayashi Yasuhiro, Kouya Tomoaki, Kashima Keita, Kawagoe Daisuke	Desiccating tablet Dried gourd Kanpyo	5-g	133
14:40– 15:00	D218	A study of deposition suppression on side-walls in vertical rotating disk reactor (Toyota Central R&D Labs., Inc.) *Makino Soichiro, Nakashima Kenji, Inagaki Masahide, Kozawa Takahiro, Horinouchi Nariaki	CVD CFD deposition	5-h	628
15:00– 15:20	D219	Structure formation of composite thin films by vapor/solid-precursor PECVD (Hiroshima U.) Kubo Masaru, *Shimada Manabu, Taguchi Tomoya	composite material plasma synthesis aerosol nanoparticle deposition	5-h	762
15:20– 15:40	D220	Rapid vapor deposition of active materials and current collectors toward high-capacity, light-weight electric storage devices (Waseda U.) *Noda Suguru, (U. Tokyo) Lee Jungho, (Waseda U.) Aoi Shigeki, Honda Yoichiro, Hasegawa Kei, Osawa Toshio	vacuum vapor deposition thin films lithium secondary batteries	5-h	905
15:40– 16:00	D221	Catalyst Nucleation and Carbon Nanotube Growth from Flame-Synthesized Co-Al-O Nanopowders at 10 Second Time Scale (Waseda U.) *Shirae Hiroyuki, Hasegawa Kei, (U. Michigan) Yi Eongyu, Laine Richard, (Waseda U.) Noda Suguru	carbon nanotubes cobalt nanoparticles chemical vapor deposition	5-h	906
(16:00–17:00) (Chair: Hasegawa Kei, Yoshihara Naoki)
16:00– 16:20	D222	Process development for highly conformal filling of SiC-CVI using a sacrificial layer (U. Tokyo) *Shima K., Sato N., Funato Y., (IHI) Fukushima Y., (U. Tokyo) Momose T., Shimogaki Y.	CVD SiC methyltrichlorosilane	5-h	800
16:20– 16:40	D223	Effect of temperature and pressure on SiC-CVI using ultra high aspect ratio features (U. Tokyo) *Shima K., Sato N., Funato Y., (IHI) Fukushima Y., (U. Tokyo) Momose T., Shimogaki Y.	CVD SiC methyltrichlorosilane	5-h	812
16:40– 17:00	D224	Construction of the overall reaction model for opitmizing SiC-CVD using Methyltrichlorosilane (U. Tokyo) *Funato Y., Sato N., Shima K., (IHI) Fukushima Y., (U. Tokyo) Momose T., Shimogaki Y.	SiC CVD Modelization	5-h	910
Hall D, Day 3
(9:00–10:40) (Chair: Taniya Keita, Nakazato Tsutomu)
9:00– 9:20	D301	Liquid-liquid extraction of lithium and cobalt ions using a slug flow microreactor (Osaka Pref. U.) *Muto Akinori, Hirayama Yuki, (Kobe Steel) Matsuoka Akira, Noishiki Koji	Micro channel Slug flow Selective separation	5-f	183
9:20– 9:40	D302	Wettability treatment of microchannels for forming multiple emulsions (AIST) Hirama Hirotada, (U. Tokyo) Wada Satoshi, Shimamura Jiro, Komazaki Yusuke, (AIST) *Inoue Tomoya, (U. Tokyo) Torii Toru	droplet microfluidics surface	5-f	50
9:40– 10:00	D303	Study on methane reforming reaction using new designed plate reactors (AIST) *Fukuda Takashi, Kawanami Hajime, Miyazawa Akira	plate reactor methane reforming low pressure	5-f	578
10:00– 10:20	D304	Effect of channel and operation conditions on interface mass transfer in microchannel (Kobe Steel) *Matsuoka Akira, Hangai Hiroo, Noishiki Koji	microchannel mass transfer slug flow	5-f	971
10:20– 10:40	D305	Development of a reduction system of nitrate ion for on-site water quality testing equipments (Hitachi) *Asano Y., (U. Tokyo) Sugano O., Endo Y., (Hitachi) Togashi S., (U. Tokyo) Miyake R.	microreactor system for reduction copper reductant nitrate ion	5-f	54

(11:00–12:00) (Chair: Muto Akinori, Fukuda Takashi)
11:00– 11:20	D307	Catalyst degradation in the oxidative dehydrogenation of 1-butene on Bi-Mo Oxide (Tokushima U.) *Sugiyama S., Nagai K.	catalyst degradation oxidative dehydrogenation 1-butene	5-a	20
11:20– 11:40	D308	Catalytic performance of metal-containing hydroxyapatites in oxidative dehydrogenation of propane (Kagoshima U.) *Nakazato T., Yoshinaga H., Kai T., (NIT Toyama) Tafu M., Takamatsu S.	propane oxidative dehydrogenation hydroxyapatite	5-a	970
11:40– 12:00	D309	Single TG Curve Method for the Calculation of Activation Energy of Ag/CeO₂-Catalyzed PM Combustion (NIT Tokyo) Kobayashi Yasukazu	Kinetics Analysis Activation Energy Calculation Catalytic PM Combustion	5-a	844

(13:00–14:20) (Chair: Sugiyama Shigeru, Taguchi Minori)
13:00– 13:20	D313	Development of Fuel Processor for residential PEFC System (Tokyo Gas) *Miyazaki K., Baba Y., Fujiki H., Inagaki S.	PEFC reformer CO convert reaction	5-e	15
13:20– 13:40	D314	Effect of promoter added in iron oxide-based structured catalyst on water gas shift reaction (Shizuoka U.) *Watanabe Ryo, Watanabe Shuhei, Fukuhara Choji	Water gas shift reaction iron oxide structured catalyst	5-a	318
13:40– 14:00	D315	Cu Particle size and Support Effect on CO₂ Hydrogenation to MeOH over Supported Cu Catalysts (Seikei U./ETH Zurich) *Tada S., (ETH Zurich) Schwarzwalder M., Coperet C.	CO2 hydrogenation methanol Cu catalyst	5-a	1
14:00– 14:20	D316	Promotion Effect of Co-cation Addition on Selective Hydrogenation of Cinnamaldehyde over Pt/SiO₂ Catalysts (Kobe U.) *Taniya Keita, Imai Tomota, Hara Taiki, Okemoto Atsushi, Ichihashi Yuichi, Nishiyama Satoru	Selective hydrogenation Cinnamaldehyde Co-deposited Pt/SiO2 catalysts	5-a	712

(14:40–16:00) (Chair: Miyazaki Kanako, Tada Shohei)
14:40– 15:00	D318	Interparticle porous structure dependence on effective gas diffusivity in washcoat layer (Toyota Central R&D Lab.) *Kato S., Yamaguchi S., (Nagoya U.) Tagawa T., Yamada H.	diffusion catalyst washcoat layer	5-a	591
15:00– 15:20	D319	Dimensionless modulus analysis of cathode catalyst layer of polymer electrolyte fuel cell (Kyoto U.) *Kawase M., Mitsui R., Yamaguchi K., Kageyama M., Inoue G.	Polymer electrolyte fuel cell Modeling Electromotive force	5-a	688
15:20– 15:40	D320	Development of core-shell zeolite catalysts for highly-selective reactions (Osaka U.) Miyake K., Hirota Y., (Osaka U./JST-PRESTO) Uchida Y., (Osaka U.) *Nishiyama N.	zeolite shape-selectivity catalysts	5-a	551
15:40– 16:00	D321	Synthesis of SAPO zeolite catalyst using organosilane compounds as a Si source (Osaka U.) *Hirota Y., Yamada M., (Osaka U./JST-PRESTO) Uchida Y., Sakamoto Y., (Tokyo Tech. Inst.) Yokoi T., (Osaka U.) Nishiyama N.	zeolite catalyst SAPO-18 light olefin synthesis	5-a	331
(16:00–17:00) (Chair: Nishiyama Satoru, Kato Satoru)
16:00– 16:20	D322	Application to the chemical reaction process by development of Artificial Intelligence Integrated Ultra Accelerated Quantum Chemical Molecular Dynamics (Tohoku U.) *Inaba Kenji, Sato Manami, Komuro Rei, Ishizawa Yukie, Obara Yukiko, Bonnaud Patrick, Miura Ryuji, Suzuki Ai, Miyamoto Naoto, Hatakeyama Nozomu, Hariyama Masanori, Miyamoto Akira	quantum chemical molecular dynamics Artificial Intelligence computational chemistry	5-a	243
16:20– 16:40	D323	Chemical recycling of plastics using a CeO₂ nanocatalyst (Chuo U.) *Taguchi Minori, Ishikawa Yuki, Kataoka Shiho, (NIMS) Naka Takashi, (Chuo U.) Funazukuri Toshitaka	CeO2 nanoparticles catalysts plastics	5-a	332
16:40– 17:00	D324	Reaction process by discharge plasma at gas liquid interface under atmospheric to pressurized condition (Nagoya U.) *Goto M., Hayashi Y., Mano K., Takahashi S., Takada N., Wahyudiono, Kanda H.	Discharge plasma Chemical reaction Gas liquid interface	5-i	744

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

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