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SCEJ 82nd Annual Meeting (Tokyo, 2017)

Last modified: 2017-02-20 10:00:00

Hall and day program : Hall G

The abstracts can be viewed by clicking the Paper IDs.
The ID/PW printed on the PROGRAM book are required.

Hall G(Kyoshitsu-to 4F 406)

Hall G, Day 1 | Hall G, Day 2 | Hall G, Day 3
5 | 8 | 5

TimePaper
ID
Title / AuthorsKeywordsTopic codeAck.
number
Hall G(Kyoshitsu-to 4F 406), Day 1(Mar. 6)
5. Chemical reaction engineering
(13:00–15:00) (Chair: Kawanami Hajime, Muranaka Yosuke)
13:0013:20G113Mixing behavior affected by flow rate ratio and viscosity difference of target fluids
(Kyoto U.) *(Stu·PCEF)Asano Shusaku, (Stu·PCEF)Yamada Satoshi, (Ful)Maki Taisuke, (Ful)Mae Kazuhiro
Flow rate ratio
Mixing
Microreactor
5-f163
13:2013:40G114Development of a reduction column of nitrate ion for on-site water quality testing equipments
(Hitachi) *(Ful)Asano Y., (U. Tokyo) Sugano O., Endo Y., (Hitachi) (Ful)Togashi S., (U. Tokyo) Miyake R.
microreactor system for reduction
copper reductant
nitrate ion
5-f186
13:4014:00G115The application of etched aluminum wires as catalyst supports for methanol steam-reforming
(TUAT) *(Stu)Hiramatsu Hiromi, Matui Kaoru, (Ful)Sakurai Makoto, (Ful)Kameyama Hideo
microreactor
etching
methanol steam-reforming
5-f265
14:0014:20G116Buffer-free particles separation using inertial force and micro pillar arrays
(Tokyo Tech) *(Stu)Tottori Naotomo, (Ful)Nisisako Takasi
Deterministic Lateral Displacement
inertial focusing
buffer-free particles separation
5-f363
14:2014:40G117Design and Operation of Gas-Liquid Slug Generation System in Micro Chemical Processes
(Kyoto U.) *(Ful)Tonomura O., (Stu·PCEF)Onabe Y., Miyabayashi K., (Ful)Taniguchi S., (Ful)Hasebe S.
Gas-liquid Microreactor
Process Design
Process Monitoring
5-f666
14:4015:00G118Study on methane reforming reaction using new designed plate reactors III: Application to steam reforming
(AIST) *(Ful·APCE)Fukuda Takashi, (Ful)Kawanami Hajime, Miyazawa Akira
plate-type reactor
methane reforming
high throughput
5-f837
(15:00–17:00) (Chair: Asano Yukako, Tonomura Osamu)
15:0015:20G119Effective HMF production from saccharides by liquid-liquid extraction using a microreactor
(Kyoto U.) *(Ful)Muranaka Yosuke, (Stu·PCEF)Masaki Rie, (Ful)Maki Taisuke, (Ful)Mae Kazuhiro
HMF
Segmented flow
Extraction
5-g167
15:2015:40G120(withdrawn)

100188
15:4016:00G121An efficient hydrogenation of biomass derived 5-hydroxymethylfurfural (HMF) in aqueous medium
(AIST Tohoku) *(Ful)Chatterjee M., (Ful)Ishizaka T., (Ful)Nagao I., (Ful)Kawanami H.
Hydrogenation
biomass
Pt/MCM-41
5-g253
16:0016:20G122Study of the synthesis of bis(aminomethyl)furan from 5-hydroxymethyl furan derived from glucose etc.
(AIST) *(Ful)Kawanami Hajime, Ogawa Kayoko, (Unitika) Ito Takuma, Kobayashi Ryosuke, Akizuki Takamasa, (AIST) (Ful)Chatterjee Maya, (Ful)Nagao Ikuhiro, (Ful)Ishizaka Takayuki
5-hydroxymethylfurufural
bismethylaminofuran
glucose
5-g729
16:2016:40G123Solvolysis and catalytic cracking of lignocellulosic biomass for hydrocarbon production
(Shinshu U.) *(Ful)Shimada I., Kobayashi Y., (euglena) Ohta H., Suzuki K., (Chiyoda) (Ful)Takatsuka T.
solvolysis
catalytic cracking
lignocellulose
5-g738
16:4017:00G124Production of a valuable chemical by pyrolysis of waste paper
(Kyushu U.) *(Ful)Kudo Shinji, Goto Nozomi, (Ful)Norinaga Koyo, (Ful)Hayashi Jun-ichiro
Pyrolysis
Cellulose
Paper
5-g849
Hall G(Kyoshitsu-to 4F 406), Day 2(Mar. 7)
8. Supercritical fluid
(9:00–10:00) (Chair: Okajima Idzumi, Kawasaki Shin-ichiro)
9:009:20G201Stable carbon isotope ratio measurement of polished rice using supercritical water oxidation
(U. Tokyo) *(Ful)Matsumoto Yuta, (Nagoya U.) (Ful)Hayashi Rumiko, (U. Tokyo) Tonokura Kenichi
supercritical water oxidation
stable carbon isotope ratio
provenance estimation
8-d422
9:209:40G202Kinetic study on ammonia decomposition acceleration by methanol multi-injection in supercritical water oxidation
(U. Tokyo) *(Stu)Shimoda Eriko, (Ful)Oshima Yoshito
Supercritical water oxidation(SCWO)
Kinetics
Reaction engineering
8-d665
9:4010:00G203Kinetics on α-pinene isomerization with solid acid catalysts in hot compressed water
(U. Tokyo) *(Ful)Akizuki M., (Ful)Oshima Y.
Hot compressed water
Solid acid catalysts
Pinene isomerization
8-d315
(10:00–11:00) (Chair: Suzuki Shogo)
10:0010:20G204Synthesis of organic modified high-aspect ratio boehmite in hot-compressed water and its application for functional materials
(AIST) *(Ful)Fujii Tatsuya, (Ful)Kawasaki Shin-ichiro
hot-compressed water
crystal growth
organic-inorganic hybrid material
8-e121
10:2010:40G2053-demontional capacitor fabrication using supercritical fluid deposition
(U. Tokyo) *(Stu)Zhao Yu, (Ful)Shimoyama Yusuke, (Ful)Momose Takeshi, (Ful)Shimogaki Yukihiro
supercritical fluid deposition
3-demontional
capacitor
8-e151
10:4011:00G206Development of a new manufacturing process for porous materials using carbon dioxide
(AIST) (Ful)Aizawa Takafumi
carbon dioxide
porous material
bonding
8-e301
(11:00–12:00) (Chair: Shimoyama Yusuke, Kawajiri Satoshi)
11:0011:20G207Acidic ammonothermal Crystal Growth of GaN in supercritical ammonia
(JSW) *(Ful)Bao Quanxi, (Mitsubishi Chemical) (Cor)Saito Makoto, (JSW) Kurimoto Kouhei, (Tohoku U.) Kojima Kazunobu, (Ful)Tomida Daisuke, (Mitsubishi Chemical) (Cor)Kagamitani Yuji, (JSW) Kayano Rinzo, (Tohoku U.) Ishiguro Tohru, (Ful)Yokoyama Chiaki, Chichibu F. Shigefusa
gallium nitride
crystal growth
supercritical ammonia
8-e305
11:2011:40G208Development of Polymer Composites containing High Concentrated Carbon Nanomaterials
(Hiroshima U.) *(Ful)Kihara Shin-ichi, Tsukuda Yusuke, Asada Masao, (Ful)Takishima Shigeki, (Mazda) Yonemori Kei, Miyoshi Seiji
Carbon Nanomaterials
Supercritical Fluids
Mixing
8-e746
11:4012:00G209The study on the atomization phenomena in spray coating of organic paint mixed with high-pressure carbon dioxide as a diluting solvent
(AIST) *(Ful)Kawasaki Shin-ichiro, Sakurai Yuko, (Ful)Fujii Tatsuya, (Ful)Suzuki Akira
high pressure CO2
atomization
spray
8-f123
5. Chemical reaction engineering
(13:00–14:40) (Chair: Mitsudome Takato, Watanabe Ryo)
13:0013:20G213Mechanistic Study on Liquid Phase Benzene Hydroxylation with Molecular Oxygen Catalysed by Vanadium Complexes
(Kobe U.) *(Stu)Okemoto Atsushi, (Stu)Utsunomiya Arisa, Inoue Yoshiki, (Ful)Taniya Keita, (Ful)Ichihashi Yuichi, (Ful)Nishiyama Satoru
Reaction Mechanism
Oxygen Oxidation
Benzene to Phenol
5-a32
13:2013:40G214Advantage property of structured catalyst for CO2 methanation under extremely fast rate of feeding
(AIT) *(Int)Ratchahat Sakhon, (Ful)Sudoh Masao, (Shizuoka U.) (Stu)Suzuki Yuji, (Ful)Watanabe Ryo, (Ful)Fukuhara Choji
CO2 methanation
Structured catalyst
Extremely fast rate of feeding
5-a114
13:4014:00G215Cascade of C-C bond formation reactions for bioethanol upgrading over hydroxyapatite
(U. Tokyo/U. Illinois) *(Ful)Moteki Takahiko, (U. Illinois) Flaherty D. W.
Guerbet reaction
1-butanol
hydroxyapatite catalyst
5-a255
14:0014:20G216Numerical simulation of photocatalytic reaction in a fluidized bed reactor -Study on High Efficiency Fluidized Bed Photocatalytic Reactor-
(AIST) *(Ful)Kiyono Fumio, Negishi Nobuaki, Torimura Masaki, Ogata Atsushi, (Panasonic) (Ful)Hashimoto Yasuhiro, Fujita Hirofumi, (Ful)Maruo Yuko, Ino Daisuke
Photocatalyst
Reactor
Numerical simulation
5-a334
14:2014:40G217Experimental Evaluation of Persistent Substance Decomposition in Fluidized Bed Reactor -Study on High Efficiency Fluidized Bed Photocatalytic Reactor-
(Panasonic) *(Ful)Hashimoto Yasuhiro, (Ful)Hara Kohei, (Ful)Kori Shunsuke, Ino Daisuke, (AIST) (Ful)Kiyono Fumio, Negishi Nobuaki, Torimura Masaki, Ogata Atsushi
photocatalyst
water purification
electrical energy per order
5-a287
(15:00–16:40) (Chair: Moteki Takahiko)
15:0015:20G219Selective Hydrogeneration of Chloronitrobenzene of AuPd/TiO2 Catalysts
(Nat. Central U.) Chen Yu-Wen

5-a873
15:2015:40G220Oxidation of arsenious acid over supported-platinum catalysts in aqueous solution (2)
(Kyushu U.) Zhao Jinxian, (Ful)Matsune Hideki, (Doshisha U.) (Ful)Takenaka Sakae, (Kyushu U.) *(Ful)Kishida Masahiro
Arsenious acid
Oxidation in aqueous solution
Platinum catalyst
5-a318
15:4016:00G221Selective CO methanation over Sponge Ni-TiO2 prepared by physical mixing
(Seikei U./JSPS) *(Ful)Tada Shohei, (Seikei U.) Yanagita Akihide, Shoji Daiki, Shimoda Naohiro, (Ful)Satokawa Shigeo
Selective CO methanation
nickel
titania
5-a393
16:0016:20G222Development of Core-shell Gold Nanoparticle Catalyst for Highly Efficient Molecular Transformations
(Osaka U.) *(Ful)Mitsudome Takato, Urayama Teppei, (Ful)Maeno Zen, (Ful)Mizugaki Tomoo, (Ful)Jitsukawa Koichiro, Kaneda Kiyotomi
Heterogeneous catalyst
Gold nanoparticles
Green chemistry
5-a429
16:2016:40G223Effect of alkaline metal addition on water gas shift property of nickel-iron oxide structured catalyst
(Shizuoka U.) *(Ful)Watanabe Ryo, Tajima Kengo, Hirata Nozomu, Kohno Yoshiumi, (Ful)Fukuhara Choji
Iron oxide
Water gas shift
Alkaline metal
5-a770
Hall G(Kyoshitsu-to 4F 406), Day 3(Mar. 8)
(9:00–10:20) (Chair: Fukushima Yasuyuki, Yoshihara Naoki)
9:009:20G301Study on the mechanism of the radical formation for the microbubble-induced ultrasonic cavitations
(NIT Nagaoka) *(Ful)Murakami Yoshinori, Kobayashi Yuma, Maruyama Aya
microbubble
ultrasound
radical
5-b179
9:209:40G302Investigation on Fe Loading Condition and Reductants for CO2 Reduction Performance Improvement of Fe/TiO2 photocatalyst
(Mie U.) *(Ful)Nishimura Akira, (Stu)Ishida Noriaki, Tatematsu Daichi, Hirota Masafumi, Koshio Akira, Kokai Fumio
Photocatalyst
CO2 Reduction Performance
Reductants
5-c104
9:4010:00G303Vapor phase dehydration of ethanol with a packed-bed zeolite membrane reactor
(Utsunomiya U.) *(Ful)Itoh Naotsugu, (Stu)Kikuchi Shuhei, Hirose Takuya, (Ful)Sato Takafumi
zeolite
ethanol dehydration
membrane reactor
5-d774
10:0010:20G304Low temperature decomposition of ammonia using a wall-tube type of membrane reactor
(Utsunomiya U.) *(Ful)Itoh Naotsugu, (Stu)Kato Takahumi, (Ful)Sato Takafumi
wall-tube reactor
palladium membrane
ammonia
5-d776
(10:20–12:00) (Chair: Murakami Yoshinori, Itoh Naotsugu)
10:2010:40G305Impacts of fuel type on carbon nanotube synthesis in a diesel engine and consideration of its growth mechanism
(Tokyo Tech) *(Stu)Suzuki Shunsuke, (Ful)Mori Shinsuke
Carbon nanotube
Diesel engine
Growth mechanism
5-h86
10:4011:00G306Fabrication of Ag-TiO2 nanocomposite films via one-step gas-phase deposition and their characterizations after heat treatment processes
(Hiroshima U./ITS Surabaya) *(Ful)Kusdianto K., (Hiroshima U.) Jiang Dianping, (Ful)Kubo Masaru, (Ful)Shimada Manabu
PECVD
PVD
photocatalytic activity
5-h243
11:0011:20G307Investigation of chemical etching condition for large-area graphene synthesis on copper foils
(Fukuoka U.) *(Ful)Yoshihara Naoki, (Ful)Noda Masaru
Graphene
CVD
Chemical etching
5-h476
11:2011:40G308Ultra conformal infiltration achieved by optimal design of SiC-CVI process and the effect on composite material properties
(U. Tokyo) *(Stu)Shima Kohei, (Stu)Sato Noboru, (Stu)Funato Yuichi, (Stu)Naka Tomoaki, (IHI) (Ful)Fukushima Yasuyuki, (U. Tokyo) (Ful)Momose Takeshi, (Ful)Shimogaki Yukihiro
CVD
SiC
CMC
5-h552
11:4012:00G309Construction of the overall reaction model for optimizing SiC-CVD using Methyltrichlorosilane(4)
(U. Tokyo) *(Stu)Funato Yuichi, (Stu)Shima Kohei, (Stu)Sato Noboru, (Stu)Naka Tomoaki, (Ful)Fukushima Yasuyuki, (Ful)Momose Takeshi, (Ful)Shimogaki Yukihiro
SiC
Reaction model
CVD
5-h664

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SCEJ 82nd Annual Meeting (Tokyo, 2017)


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