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SCEJ 81st Annual Meeting (2016)

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Chemical reaction engineering

D113-D123, D213-D224, D301-D324

Most recent update: 2016-02-26 18:17:04
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TimePaper
ID
Title / AuthorsKeywordsTopic codeAck.
number
Hall D, Day 1
(13:00–14:20) (Chair: Sasaki Mitsuru, Uemura Yoshimitsu)
13:0013:20D113Nanocellulose 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-g229
13:2013:40D114Reaction 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-g232
13:4014:00D115Deoxygenation 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-g531
14:0014:20D116Effect 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-g674

(15:00–16:40) (Chair: Shimada Iori, Fukudome Kenta)
15:0015:20D119Enhancement 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-g810
15:2015:40D120Characterization 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-g814
15:4016:00D121Effect 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-c796
16:0016:20D122Impact 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-c18
16:2016:40D123Ni-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-a849
Hall D, Day 2
(13:00–14:20) (Chair: Makino Soichiro)
13:0013:20D213Gas-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-h883
13:2013:40D214On-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-h886
13:4014:00D215Fluidized-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-h894
14:0014:20D216Roles of pre-anneal treatment for graphene CVD growth
(Fukuoka U.) Ueno M., *Yoshihara N., Noda M.
graphene
pre-anneal
chemical vapor deposition
5-h402
(14:20–16:00) (Chair: Watanabe Ryo, Momose Takeshi)
14:2014:40D217Development 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-g133
14:4015:00D218A 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-h628
15:0015:20D219Structure 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-h762
15:2015:40D220Rapid 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-h905
15:4016:00D221Catalyst 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-h906
(16:00–17:00) (Chair: Hasegawa Kei, Yoshihara Naoki)
16:0016:20D222Process 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-h800
16:2016:40D223Effect 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-h812
16:4017:00D224Construction 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-h910
Hall D, Day 3
(9:00–10:40) (Chair: Taniya Keita, Nakazato Tsutomu)
9:009:20D301Liquid-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-f183
9:209:40D302Wettability 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-f50
9:4010:00D303Study on methane reforming reaction using new designed plate reactors
(AIST) *Fukuda Takashi, Kawanami Hajime, Miyazawa Akira
plate reactor
methane reforming
low pressure
5-f578
10:0010:20D304Effect 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-f971
10:2010:40D305Development 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-f54

(11:00–12:00) (Chair: Muto Akinori, Fukuda Takashi)
11:0011:20D307Catalyst 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-a20
11:2011:40D308Catalytic 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-a970
11:4012:00D309Single 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-a844

(13:00–14:20) (Chair: Sugiyama Shigeru, Taguchi Minori)
13:0013:20D313Development of Fuel Processor for residential PEFC System
(Tokyo Gas) *Miyazaki K., Baba Y., Fujiki H., Inagaki S.
PEFC
reformer
CO convert reaction
5-e15
13:2013:40D314Effect 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-a318
13:4014:00D315Cu 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-a1
14:0014:20D316Promotion 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-a712

(14:40–16:00) (Chair: Miyazaki Kanako, Tada Shohei)
14:4015:00D318Interparticle 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-a591
15:0015:20D319Dimensionless 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-a688
15:2015:40D320Development 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-a551
15:4016:00D321Synthesis 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-a331
(16:00–17:00) (Chair: Nishiyama Satoru, Kato Satoru)
16:0016:20D322Application 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-a243
16:2016:40D323Chemical 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-a332
16:4017:00D324Reaction 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-i744

Technical program
SCEJ 81st Annual Meeting (2016)

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