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SCEJ 82nd Annual Meeting (Tokyo, 2017)

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

Session programs : 5. Chemical reaction engineering

The abstracts can be viewed by clicking the Paper IDs.
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5. Chemical reaction engineering

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

TimePaper
ID
Title / AuthorsKeywordsTopic codeAck.
number
Hall G(Kyoshitsu-to 4F 406), Day 1(Mar. 6)
(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15:2015:40G120(withdrawn)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)
(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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