SCEJ

22nd SCEJ Students Meeting in Tokyo (2020)

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Hall A

Most recent update: 2020-02-19 14:23:43

TimePaper
ID
Title / AuthorsKeywordsTopic codeAck.
number
Chemical reaction engineering
(9:30–10:42) (Chair: No data , No data )
9:309:42A01Analysis on mechanism of grain growth of fcc-TiAlN in thermal CVD
(U. Tokyo) *Yamamoto Tetsutaro, Yamaguchi Jun, Hirabaru Tomoko, (Kyocera) Kubo Hayato, (U. Tokyo) Deura Momoko, Momose Takeshi, (Kyocera) Tanibuchi Takahito, (U. Tokyo) Shimogaki Yukihiro
CVD
TiAlN
cutting tool
5-h18
9:429:54A02Development of an electric heating method using etched aluminum wire
(TUAT) *Khalid Mehdy Velayati, Sakurai Makoto
Electric heating
Methanol steam reforming
Etched aluminum wire
5-a131
9:5410:06A03Fabrication of SiCf/SiC by chemical vapor infiltration using tetramethulsilane
(U.Tokyo) *Aji Ryosuke, Otaka Yuhei, Sato Noboru, (IHI) Fukushima Yasuyuki, (U.Tokyo) Deura Momoko, Momose Takeshi, Shimgaki Yukihiro
SiCf/SiC
chemical vapor infiltration
tetramethulsilane
5-h29
10:0610:18A04Effect of Mg loading to Pt supported zeolite catalyst on light iso-paraffin synthesis from long-chain n-paraffin
(Tokyo Tech) *Saika Takashi, Yagita Yusuke, Fujitsuka Hiroyasu, Tago Teruki
Pt-Mg loaded zeolite
Hydroisomerization
Cracking
5-a90
10:1810:30A05Production of propylene by using a hydrogen permselective membrane reactor
(Shibaura Inst. Tech.) *Nagataki Yuhei, Sugimoto Chihiro, Yoshiura Junko, Ota Fumiya, Saitou Yuta, Nagataki Takaya, Ishii Katsunori, Nomura Mikihiro
membrane reactor
hydrogen permselective membrane
propane dehydrogenation reaction
4-a4
10:3010:42A06Elucidation of the function of lactic acid bactieria yeast(protease)
(Sakushin Gakuen H.S.) *Nagashima Yume, (Sakushin Gakuin H.S.) *Yoshizawa Aya, (Sacshin Gakuin H.S.) *Tezuka Kazuhito, (Sakushin Gakuin H.S.) *Gouma Seiya
Protease
Curd activity
Enzyme activity
7-h39
10:4210:50Break
Chemical reaction engineering, Wide area
(10:50–12:02) (Chair: No data , No data )
10:5011:02A08Effects of reaction conditions on hydrolysis of Whitewood in dilute aqueous organic acid solution under hydrothermal conditions
(Chuo U.) *Shindo N., Osone R., Tanaka R., Sakabe J., Funazukuri T.
Whitewood
dilute organic acid solution
hydrothermal
5-g75
11:0211:14A09Development of Ni based catalyst for the autothermal dry reforming of methane
(Utsunomiya U.) *Ogura Rei, Mizusima Hitomi, Furusawa Takesi
Ni catalyst
autothermal dry reforming
methane
5-a26
11:1411:26A10Effects of radicals on photocatalysis in organicsolutions
(Mito first H.S.) Tsutsui Y.
photocatalysis
radicals
organic solutions
5-a50
11:2611:38A11Improvement of stability by changing the substrates of hydrogen permaselective membranes
(Shibaura Inst. Tech.) *Saito Y., Sugimoto C., Yoshiura J., Ota F., Nagataki T., Nagataki Y., Ishii K., Nomura M.
Silica membrane
Hydrothermal stability
Hydrogen permeance
4-a2
11:3811:50A12Oxidative ammonia decomposition triggered at room temperature with Ru/MOR catalyst prepared by solid state reaction
(Utsunomiya U.) *Kimura Koji, Matsumoto Rina, Furusawa Takeshi
Ru/MOR catalyst
oxidative ammonia decomposition
room temperature
5-a25
11:5012:02A13Survey on Young Student¡Çs Awareness of Exotic Plants ­¶
(Yamanashi Eiwa H.S.) *Sakajiri Hana, *Kato Kaoruko
Exotic plants
Environmental education
Invasive species
14-c68
12:0213:00Lunch break
Fundamental properties, Chemical reaction engineering
(13:00–14:12) (Chair: No data , No data )
13:0013:12A19Dependence of the crystal structurs of the effects of H2O2 addition to the TiO2 photocatalytic activities.
(NIT Nagaoka) *Asano Wataru, Murakami Yoshinori
Photocatalyst
TiO2
H2O2
5-c9
13:1213:24A20Fabrication of phase-separated gel for carbon dioxide absorption and analysis of absorption by gray-scale method
(Tokyo Tech) *Kataoka T, Murakami H, Shimoyama Y
CO2
phase-separated gel
absorption analysis
1-b33
13:2413:36A21The applicaition and evaluations of differences of Avogadro constant by the oxidation of metal
(Mito first H.S.) *Yanagida Y., Tsutsui Y.
Avogadro
oxidation
evaluations
1-b51
13:3613:48A22Effects of Reaction Conditions and Acid Catalysts on Lignin Depolymerization Behavior with Solvolysis
(U.Niigata) *Hashizume M., Komatsu H., Mikame K., Tajima H., Yamagiwa K.
lignin
solvolysis
acid catalyst
5-g151
13:4814:00A23One-step synthesis of phenol using palladium catalyst
(Takezono H.) *Hatogai S., Masuda S.
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5-a155
14:0014:12A24Preparation of polyimido fine particle by triple tube microreactor with equalling-up
(Yamagata U.) *Yokoyama M., (Hitachi Chemical) Yamazaki S., Ohkoshi M., Izawa H., (Yamagata U.) Kimata M.
polyimido
polyamide acid
spherical particle
5-f98
14:1214:20Break
Chemical reaction engineering, Wide area
(14:20–15:20) (Chair: No data , No data )
14:2014:32A26The relationship between the amount of sulfuric acid and the reaction rate in the redox reaction.
(Yamanashi Eiwa H.S.) *Usui Miyu, Nakamura Nanase
Oxalic acid
Potassium permanganata
Sulfuric acid
14-e153
14:3214:44A27Investigation of the reactivity of char and deposited carbon in a bubbling fluidized bed gasifier in the presence of Heat Carrying Particles
(TUAT) *Hasegawa K., Ismail S. N. B., Uchino T., Murakoshi R., Koyama M., Sakai Y., Fushimi C.
char gasification
tar reduction
fluidized bed
5-a82
14:4414:56A28Experimental conditions for sustainable methan fermentation of chicken droppings
(NIT Ichinoseki) *Akazawa S., Sato K.
methan fermentation
chicken droppings
biomass
5-g54
14:5615:08A29Proposal of the name of H3O+ used in high school chemistry.
(Hitachi daiichi H.S.) *Terunuma Keiichiro, *Murakami Towa, Yamaguchi Satoru
Oxonium ion
Hydronium ion
14-c37
15:0815:20A30Design of Furfural Production Process from Xylose using Carbon-based Catalyst
(TUAT) *Nur Indah Setyorini Putri, Sato Ryu, Fushimi Chihiro
Furfural
Xylose
Carbon-based catalyst
5-g142
15:2015:32Break

Technical program
22nd SCEJ Students Meeting in Tokyo (2020)

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Most recent update: 2020-02-19 14:23:43
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