Japanese page
SCEJ

SCEJ 82nd Annual Meeting (Tokyo, 2017)

Session programs : PS-A

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

PS-A [General Session (Poster)]
 Poster Session A (System, info. & simulation, Supercritical, Energy)

Hall P, Day 1

TimePaper
ID
Title / AuthorsKeywordsTopic codeAck.
number
Hall P(Koryu-to 6F Foyer), Day 1(Mar. 6)
(13:20–15:20)
13:2015:20PA101Design methodology of parenterals manufacturing processes considering the choice between single-use and multi-use technologies
(U. Tokyo) *(Stu)Shirahata H., (Ful)Hirao M., (Ful)Sugiyama H.
Pharmaceuticals
Risk evaluation
Decision-making
6-b199
PA102Design methodology of decontamination processes using hydrogen peroxide in pharmaceutical manufacturing
(U. Tokyo) *(Stu)Yabuta K., (Airex) Futamura H., (Ful)Kawasaki K., (U. Tokyo) (Ful)Hirao M., (Ful)Sugiyama H.
Pharmaceuticals
Process design
Sterile drug product manufacturing
6-b200
PA103Application of computational fluid dynamics for equipment redesign in sterile manufacturing of biopharmaceuticals
(U. Tokyo) *(Stu)Zeberli Anicia, (Stu)Casola Gioele, (Roche) Siegmund Christian, Mattern Markus, (U. Tokyo) (Ful)Sugiyama Hirokazu
Pharmaceuticals
Quality
CFD
6-b308
PA104Method for Material Loss Reduction in Drug Product Manufacturing Processes
(U. Tokyo) *(Stu)Ito M., (Shionogi) (Cor)Akimoto Y., (Cor)Takahashi K., (Cor)Kato Y., (Cor)Kikuchi N., (U. Tokyo) (Ful)Hirao M., (Ful)Sugiyama H.
Pharmaceuticals
Batch manufacturing
Loss reduction
6-b343
PA105The new development of integrated coal gasified and combined cycle with using water gas shift membrane reactor
(TUAT) *(Stu·PCE)Yonamine Wataru, (TUAT/JSPS) Sivasakthivel Thangavel, (TUAT) (Ful)Fushimi Chihiro
IGCC
WGSMR
CCS
6-b610
PA106Development of a Multi-input-multi-output Process Control Method Using Past Operation data
(U. Tokyo) *(Stu)Watanabe T., Tanaka K., (Ful)Kaneko H., (Ful)Funatsu K.
soft sensor
inverse analysis
process control
6-d8
PA107Accurate Computing of Dielectric Constant and Viscosity by a Combination of QM and MD Calculations
(TS Tech.) *(Ful)Yamaguchi Toru, (RITE) (Ful)Yamada Hidetaka, (TS Tech.) Fujiwara Takayuki, (Yamaguchi U.) Hori Kenji
viscosity
dielectric constant
quantum mechanics and molecular dynamics
6-f687
PA108Life cycle design of food packaging by activity model
(U. Tokyo) *(Stu)Yokokawa N., (Ful)Sugiyama H., (Ful)Hirao M.
food packaging
activity model
design for environment
6-g171
PA109Micronization of β-carotene using supercritical antisolvent recrystallization with tube-type precipitator
(Nagoya U.) *(Stu)Kodama Tomohiko, (Stu)Murakami Kazuya, (Stu)Uemori Chiho, (Ful)Wahyudiono , (Ful)Kanda Hideki, (Ful)Goto Motonobu
Mincronization
Supercritical carbon dioxide
carotenoid
8-a202
PA110Study of water effect on solubility in supercritical carbon dioxide using Chrastil equation
(Tokyo Tech) *(Stu)Omata Masataka, (Stu)Yokozaki Yuta, (Ful)Shimoyama Yusuke
carbon dioxide
solubility
Chrastil equation
8-b594
PA111Diffusion coefficients of metal complexes in liquid and supercritical states
(Shizuoka U.) *(Ful)Kong Chang Yi, Murohusi Yuuki, (Chuo U.) (Ful)Funazukuri Toshitaka
diffusion coefficient
metal complex
supercritical carbon dioxide
8-b855
PA112Analysis based on solubility parameter for polymer precipitation behavior in the CO2 painting
(Tohoku U.) *(Stu·PCEF)Abe Kohei, (Ful)Sato Yoshiyuki, (Ful)Inomata Hiroshi
CO2 painting
CO2 solubility
Phase equilibria
8-b237
PA113Measurement of diffusion coefficients of chromium(III) acetylacetonate in supercritical carbon dioxide at high temperatures
(Chuo U.) *(Stu)Yamamoto Minoru, (Ful)Taguchi Minori, (Ful)Funazukuri Toshitaka, (Shizuoka U.) (Ful)Kong Chang Yi
Diffusion coefficient
Cr(acac)3
Supercritical carbon dioxide
8-b627
PA114Fabrication of chitosan/drug colloidal solution by supercritical fluid extraction
(Tokyo Tech) *(Stu)Murakami Yuya, (Ful)Shimoyama Yusuke
carbon dioxide
emulsion extraction
slug flow
8-c533
PA115Adsorption and desorption behaviors of VOCs under supercritical CO2 condition for regeneration of activated carbon
(Tohoku U.) *(Stu·PCEF)Kikuchi Koichi, (Ful)Ushiki Ikuo, (Ful)Sato Yoshiyuki, (Ful)Inomata Hiroshi, (DAI-DAN) (Ful)Ito Yasuyuki
supercritical carbon dioxide
activated carbon
regeneration
8-c288
PA116Transport phenomena on chiral separation by supercritical fluid chromatography
(Chuo U.) *(Stu)Yonezawa Kosei, (Stu)Ono Yuna, (Ful)Taguchi Minori, (Ful)Funazukuri Toshitaka
Parameter estimation
Supercritical fluid chromatography
Chiral separation
8-c579
PA117Supercritical fluid extraction from dairy by-product and analysis of extraction behavior by using an extraction model
(Tohoku U.) *(Stu·PCEF)Oda Erika, (Ful)Ota Masaki, (Ful)Sato Yoshiyuki, (Ful)Inomata Hiroshi, (SHALOM) Kon Tatsuhiko, Sekiya Eiji
supercritical
extraction
solubility
8-c240
PA118Mechanism analysis of hydrothermal acid leaching of lithium cobalt oxide using citric acid.
(Tohoku U.) *(Stu)Aikawa Tatsuya, (Ful)Watanabe Masaru, (Ful)Aida Taku, (Ful)Smith Richard
Recycle
Separations
Metal recovery
8-c434
PA119Extraction of residual organic substances in polyacrylic acid using supercritical CO2
(Shizuoka U.) *(Stu)Tachikawa Daisuke, (Ful)Okajima Idzumi, (Ful)Sako Takeshi
supercritical CO2
extraction
monomer
8-c622
PA120supercritical carbon dioxide extraction and isomer evaluation of lycopene from tomato pulp
(Nagoya U.) *(Stu)Watanabe You, Honda Masaki, (Kagome) Higashiura Takuma, Hukaya Tetsuya, (Surabaya U.) (Ful)Machmudah Siti, (Nagoya U.) (Ful)Wahyudiono , (Ful)Kanda Hideki, (Ful)Goto Motonobu
supercritical
extraction
isomer
8-c772
PA121Extraction of sunflower oil from sunflower seeds using supercritical carbon dioxide and application to Chrastil model
(Nihon U.) *(Stu)Sugiura Hirosuke, (Stu)Ozawa Kousuke, (Ful)Matsuda Hiroyuki, (Ful)Kurihara Kiyofumi, (Ful)Tochigi Katsumi
supercritical extraction
sunflower oil
Chrastil model
8-c719
PA122Subcritical water saccharification of starch by microwave heating
(Shizuoka U.) *(Stu·PCEF)Moroyama K., (Ful)Okajima I., (Ful)Sako T.
Saccharification
Starch
Subcritical water
8-d623
PA123Synthesis of cross-linked polyacrylic acid in supercritical carbon dioxide
(Shizuoka U.) *(Stu·PCEF)Suzuki H., (Ful)Okajima I., (Ful)Sako T.
supercritical carbon dioxide
acrylic acid
synthesis
8-d618
PA124Synthesis of N-substituted succinimide in high temperature and high pressure water
(NIT Hachinohe) *(Stu)Takahashi Yuka, (Ful)Honma Tetsuo, (Kumamoto U.) (Ful)Sasaki Mitsuru
succinimide
high temperature and high pressure water
organic synthesis
8-d634
PA125Depolymerization of polybutylene terephthalate under hydrothermal conditions in the presence of amine
(Chuo U.) *(Stu)Matsuzawa Daiki, (Ful)Taguchi Minori, (Ful)Funazukuri Toshitaka
Poly(butylene terephthalate)
Depolymerization
Amine
8-d669
PA126Synthesis of organically modified CaMoO4 nanoparticles for liquid scintillator to contemplate neutrino-less double-β decay detection
(Tohoku U.) *(Stu)Shirakawa Yuki, (Ful)Noguchi Takio, (Ful)Aida Tsutomu, (Ful)Takami Seiichi, (Ful)Adschiri Tadafumi, (Ful)Koshimizu Masanori, Fujimoto Yutaka, Asai Keisuke
Nanoparticle
Subcritical
Calcium molybdate
8-e314
PA127Fabrication of HfO2 nanoparticles surface-modified with organic molecules using a flow type reactor and application to X-ray detection
(Tohoku U.) *(Stu)Hiyama Fumiyuki, (Tohoku U. NICHe) (Ful)Noguchi Takio, (Ful)Aida Tsutomu, (Tohoku U.) (Ful)Takami Seiichi, (Tohoku U. WPI-AIMR) (Ful)Adschiri Tadafumi, (Tohoku U.) (Ful)Koshimizu Masanori, Fujimoto Yutaka, (NAIST) Yanagida Takayuki, (NIRS) Nishikido Fumihiko, (KEK) Kishimoto Syunji, Haruki Rie, (Tohoku U.) Asai Keisuke
supercritical
nanoparticle
scintillator
8-e673
PA128Analysis of Exfoliation Mechanism in Fabrication of Boron Nitride Nanosheets by Using Supercritical Fluid
(Tohoku U. IMRAM) *(Stu)Fugane Takumi, (Ful)Tomai Takaaki, (Ful)Honma Itaru
Supercritical fluid
Boron Nitride
Two-dimensional material
8-e592
PA129Hydrothermal synthesis of photoluminescent nanocarbon with flow reactors
(Kanazawa U.) *(Stu)Sakai Naoki, (Ful)Hiejima Yusuke, (AIST) (Ful)Hayashi Takumichi, (Ful)Kanakubo Mitsuhiro, (Kanazawa U.) Nitta Koh-hei
hydrothermal synthesis
carbon dots
photoluminescence
8-e236
PA130Creation of magnetic particle in super-critical fluid
(Toyo U.) *(Stu)Ishido Yuma, Maekawa Toru, Nakajima Yoshikata
Super-critical fluids
Magnetic-particle
Ferrocene
8-e298
PA131Kinetics study of continuous hydrothermal synthesis of metal oxide nanoparticles
(Tohoku U.) *(Stu·PCEF)Tanaka Yutaro, (Ful)Aoki Nobuaki, (Ful)Aida Tsutomu, (Ful)Seong Gimyeong, (Ful)Hojo Daisuke, (Ful)Takami Seiichi, (Ful)Adschiri Tadafumi
Hydrothermal synthesis
Nanoparticle
Kinetics
8-e417
PA132Effect of reaction conditions to the structure and oxygenated functional groups under hydrothermal carbonization
(Tohoku U.) *(Stu)Miyajima Atsumi, (Ful)Watanabe Masaru, (Ful)Aida Taku, (Ful)Smith Richard
hydrothermal
carbonization
oxygenated functional groups
8-e438
PA133Supercritical water synthesis of LiMnxNiyCo1-x-yO2 in tubular flow reactor and discharge voltage characteristics of LiMnxNiyCo1-x-yO2 synthesized
(Kanazawa U.) *(Stu·PCEF)Ogawa Kohei, (Ful)Tamura Kazuhiro, (Ful)Tada Kaoru
Lithium-ion battery
supercritical water
cathode nano-size particle
8-e807
PA134Development of decomposition technique of waste solution by hydrothermal process
(Shizuoka U.) *(Stu·PCEF)Kemmochi T., (Ful)Okajima I., (Ful)Sako T.
hydrothermal
dichloromethane
dechlorination
8-f619
PA135Controlled depolymerization of Bovine serum albumin in high temperature water
(Tohoku U.) *(Stu)Oshima Minori, (Ful)Aida Taku, (Stu)Ozawa Kenta, (Ful)Hiraga Yuya, (U. Tsukuba) Fukuda Shinya, Tanabe Yuhiko, Suzuki Ikune, (Tohoku U.) (Ful)Smith R. L.
high temperature water
protein
depolymerization
8-g779
PA136Gasification of plywood chip for biomass power generation
(Gifu U.) *(Stu)Hirako Tomoya, (Ful)Kumabe Kazuhiro, (Ful)Moritomi Hiroshi
Gasification
Plywood chip
Biomass power generation
9-a680
PA137The effect of LiOH addition on dehydration reaction of Mg(OH)2
(Chiba U.) *(Stu)Kurosawa R., (Ful)Ryu J.
Magnesium hydroxide
Chemical heat storage
Dehydration/Hydration reaction
9-b233
PA138Reactivity evaluation of Li-based mixed oxide with CO2 as a chemical heat storage material
(Chiba U.) *(Stu)Hanaoka Y., (Ful)Ryu J.
chemical heat storage
Li-based mixed oxide
carbon dioxide capture
9-b261
PA139Hydration properties of several rare earth compounds as possible chemical heat storage materials
(Kyoto U.) *(Stu)Shizume Kunihiko, (Ful)Hatada Naoyuki, Uda Tetsuya
thermochemical heat storage
rare earth compounds
hydration / dehydration
9-b464
PA140Electricity generation by up-converted low grade waste heat
(U. Tokyo) *(Stu)Mishina Tomohiro, Uehara Kazuki, Okamoto Hiroya, Haruna Youta, Fukuhara Shouhei, (Stu)Fujiwara Naoya, (Ful)Wakihara Toru, (Ful)Yoshie Kenichi
waste heat recovery
Zeolite
Organic Rankine cycle
9-b699
PA141Investigation on the continuous hydrocarbon extraction process from a microalga Botryococcus braunii
(Tohoku U.) *(Stu)Hamano Yuichiro, (Ful)Hiraga Yuya, (Ful)Ota Masaki, (Ful)Sato Yoshiyuki, (Ful)Inomata Hiroshi
Botryococcus braunii
Microalga
Biofuel
9-c375
PA142Hydrothermal reforming of biomass waste using surface-controlled cerium oxide nano-catalysts
(Tohoku U.) *(Stu·PCEF)Inoue Ryohei, (Ful)Seong Gimyeong, (Ful)Aida Tsutomu, (Ful)Aoki Nobuaki, (Ful)Hojo Daisuke, (Ful)Takami Seiichi, (Ful)Adschiri Tadafumi
nano-catalyst
lignin
hydrothermal reforming
9-c303
PA143Chemical conversion of hydrocarbon resource using cubic CeO2 nano-crystals
(Tohoku U.) *(Stu·PCEF)Hirai Haruka, (Ful)Seong Gimyeong, (Tohoku U. NICHe) (Ful)Aida Tsutomu, (Tohoku U.) (Ful)Aoki Nobuaki, (Tohoku U. WPI) (Ful)Hojo Daisuke, (Ful)Takami Seiichi, (Ful)Adschiri Tadafumi
supercritical hydrothermal synthesis
methane
nano-catalyst
9-c653
PA144Reactivity of solid residue from hydrothermal liquefaction of microalgae in oxidizing atmosphere
(TUAT) *(Stu)Tomita R., (Ful)Fushimi C.
Microalgae
Solid residue
Oxidation
9-c432
PA145Measurement of particulate formation in combustion of decayed wood at low temperatures
(TUAT) *(Stu)Ishimoto Atsushi, Niikura Mai, Yoshida Makoto, (TUAT/Tokyo Dylec) Hama Naoya, (TUAT) (Ful)Lenggoro Wuled
Biomass conversion
Wood-decaying
Aerosol
9-c644
PA146Analysis of deposited carbon on heat caring particles during coal pyrolysis process in a downer reactor
(TUAT) *(Stu)Koyama M., (Stu·PCEF)Kobayashi M., Sivasakthivel T., (Ful)Fushimi C., (AIST) (Ful)Matsuoka K.
coal pyrolysis
heat caring particles
deposited carbon
9-c443
PA147Enhancement of oxygen release in perovskite-oxides supported CuO oxygen carriers in chemical looping with oxygen uncoupling for solid fuels combustion
(U. Tokyo) *(Int)Ochieng James Ochieng, (Ful)Kosaka Fumihiko, (Ful)Oshima Yoshito, (Ful)Otomo Junichiro
chemical looping oxygen uncoupling
perovskite oxides
CuO
9-c662
PA148Product tar characterization and arsenic behavior in pyrolysis of arsenic-containing wood pellet
(Gifu U.) *(Stu)Kajikawa Daisuke, (Ful)Kumabe Kazuhiro, (Ful)Moritomi Hiroshi
Wood
Tar
Arsenic
9-c707
PA149Effects of Coexisting Components in Gasification Yield Gas on Adsorption Performance of Sulfides into Activated Coke
(Gifu U.) *(Stu)Ishida Ryota, (Ful)Kobayashi Nobusuke, (Ful)Itaya Yoshinori
Adsorption
Coexisting Gas
Activated Coke
9-c9
PA150Improvement of redox kinetics and morphological evaluation of ilmenite-based oxygen carriers in chemical looping systems
(U. Tokyo) *(Stu)Miya K., (Ful)Otomo J.
chemical looping
oxide ion conductor
morphological change
9-c319
PA151Degradation behavior of iron/alumina oxygen carrier particles in chemical-looping systems
(U. Tokyo) *(Stu)Saito Yuya, (Ful)Kosaka Fumihiko, (Chuo U.) (Ful)Hatano Hiroyuki, (U. Tokyo) (Ful)Otomo Junichiro
chemical looping
degradation of oxygen carrier
coal
9-c390
PA152Modeling of reversible solid oxide fuel cell / water electrolysis (RSOFC/EC) systems for energy storage
(Tokyo Tech) *(Stu)Lee H., (Stu)Yanagawa D., (Stu)Shimamura R., (Ful)Hasegawa K., (Ful)Ihara M.
Power to Gas
Solid oxide fuel cell
Water electrolysis
9-e79
PA153Development of proton conductive solid oxide fuel cell focusing on a chemical and geometric structure of the interface of the electrolyte
(Tokyo Tech) *(Stu)Kameda K., (Stu)Shimamura R., (Stu)Kurahashi Y., (Ful)Hasegawa K., (Ful)Ihara M.
proton conductor
solid oxide fuel cell
electrolyte
9-e88
PA154Energy system using hydrogen energy storage based on the real data on smart energy system "Ene-Swallow" in Tokyo institute of technology
(Tokyo Tech) *(Stu)Yanagawa D., (Ful)Shimizu T., (Stu)Lee H., (Ful)Hasegawa K., (Ful)Ihara M.
Energy system
Hydrogen
Ene-Swallow
9-e130
PA155Relationship between proton conductivity and effects of amounts of oxygen vacancy, structural symmetry of layered perovskite oxide
(Tokyo Tech) *(Stu)Matsuhira T., (Stu)Kurahashi Y., (Ful)Hasegawa K., (Ful)Ihara M.
Solid oxide fuel cell
Electrolyte
perovskite
9-e170
PA156Fabrication of Si-Cu Self-Supporting Films by Rapid Vapor Deposition and Their Application to Lithium Secondary Battery Anodes
(Waseda U.) *(Stu)Hashizume Yuta, (Stu)Aoi Shigeki, (Ful)Sugime Hisashi, (Ful)Osawa Toshio, (Ful)Noda Suguru
lithium secondary batteries
silicon anodes
rapid vapor deposition
9-e246
PA157Fabrication of large grain polycrystalline Si films for solar cells by rapid vapor deposition on and mechanical detachment from heat-resistant substrates
(Waseda U.) *(Stu)Ishijima Naoya, (Stu)Fujita Makoto, (Ful)Osawa Toshio, (Ful)Sugime Hisashi, (Ful)Noda Suguru
poly-crystalline silicon films
crystal growth
solar cells
9-e425
PA158Separation of over voltage and analysis of unsteady anode reaction on pulse jet-rechargeable direct carbon fuel cell
(Tokyo Tech) *(Stu)Iida Yuta, (Stu)Shimamura Ryota, (Ful)Hasegawa Kei, (Ful)Ihara Manabu
SOFC
liquid fuel
anode reaction analysis
9-e517
PA159Evaluation of Nanosurface Control and Ultra High Speed Deposition on Double Porous Si Substrate for Fabricating Monocrystalline Thin Film Si Solar Cell
(Tokyo Tech) *(Stu)Matsuura Akira, (Stu)Takazawa Chiaki, (Waseda U.) (Stu)Fujita Makoto, (Ful)Hasegawa Kei, (Ful)Noda Suguru, (Tokyo Tech) (Ful)Ihara Manabu
Solar cell
Mono crystal
Thin film
9-e630
PA160Application of proton-conductive electrode catalyst to polymer electrolyte fuel cells
(Tokyo City U.) *(Stu)Ichiki Shuma, Oyama Tomoya, (Ful)Take Tetsuo
Proton-conductive electrode catalyst
Polymer electrolyte fuel cells
Proton conductive network
9-e650
PA161Microstructural control and Reaction analysis of Cathodes for Electrochemical Synthesis of Ammonia
(U. Tokyo) *(Stu)Nakamura Takehisa, (Ful)Kosaka Fumihiko, (Ful)Otomo Junichiro
Ammonia electrosynthesis
Proton conductor
Microstructure of cathode
9-e436
PA162Modeling of hydrogen absorption and desorption in Magnesium
(Kyoto U.) *(Stu·PCEF)Kitagawa Yuta, (Ful)Tanabe Katsuaki
hydrogen storage
magnesium
modeling
9-e640
PA163Enhancing rate performance of lithium titanate by hybridizing with carbon nanotubes
(Waseda U.) *(Stu)Honda Yoichiro, (Stu)Yamagata Go, (Ful)Noda Suguru
lithium ion batteries
lithium titanate
carbon nanotubes
9-e370
PA164Design of proton conducting solid oxide fuel cells based on transport properties of lanthanum tungstate
(U. Tokyo) *(Stu)Tsukimura Reina, (Stu)Kojo Gen, (Tokyo Gas) (Ful)Matsuzaki Yoshio, (U. Tokyo) (Ful)Otomo Junichiro
Proton conductor
Solid oxide fuel cell
Lanthanum tungstate
9-e499
PA165Closed Cycle EDR using non aqueous solvent
(OIT) *(Stu)Iseda Takayuki, (Stu)Kaga Daiki, (Stu)Kamikyuu Keisuke, (Ful)Miyamoto Hitoshi
Electro dialysis Reversal
Membrane Potential
Cell Resistance
9-e260
PA166Evaluation of steam electrolysis with solid oxide fuel cells using a coupled analysis.
(U. Tokyo) *(Stu)Okamura Shintarou, (Ful)Otomo Junichiro
SOFC
steam electrolysis
coupled analysis
9-e367
PA167Flow analysis in electrode layer of the redox flow battery
(Gunma U.) *(Stu·PCEF)Saito Jin, (Ful)Ishitobi Hirokazu, (Ful)Nakagawa Nobuyoshi
Redox flow battery
Mass transport analysis
Modeling
9-e447
PA168Investigation of fuel cell catalysts by a chemisorption/desorption method
(Gunma U.) *(Stu·PCEF)Yamaguchi Ryo, (Ful)Nakagawa Nobuyoshi, (Ful)Ishitobi Hirokazu
fuel cell catalyst
chemisorption
methanol oxidation
9-e553
PA169Development of a TiO2 modified composite catalyst for methanol electro-oxidation
(Gunma U.) *(Stu·PCEF)Yagi S., (Ful)Ishitobi H., (Ful)Nakagawa N.
Direct methanol fuel cell
TiO2
Carbon
9-e582
PA170Effect of flow state on the overpotential of the redox flow battery
(Gunma U.) *(Stu·PCEF)Sugawara Satoshi, (Ful)Ishitobi Hirokazu, (Ful)Nakagawa Nobuyoshi
Vanadium redox flow battery
Carbon paper
Electrode structure
9-e651
PA171Enhancement of ethanol electro-oxidation activity by intermetallic PtPb anode catalyst for a DEFC
(Gunma U.) *(Stu·PCEF)Tomaru Hiroyuki, (Ful)Ishitobi Hirokazu, (Ful)Nakagawa Nobuyoshi
direct ethanol fuel cell
intermetallic PtPb
catalytic activity
9-e655
PA172Metal-free solid oxide fuel cell with direct synthesis of carbon nanotube
(Tokyo Tech) *(Stu)Hosoda M., (Stu)Iida Y., (Stu)Shimamura R., (Ful)Hasegawa K., (Ful)Ihara M.
Solid oxide fuel cell
Carbon nanotube
direct synthesis
9-e81
PA173Investigation of the reduction condition for electrochemical reduction of the CO2 using supported Sn catalyst
(Kanazawa U.) *(Stu)Mukae Y., (Kanazawa U./JST-PRESTO) (Ful)Tsujiguchi T., (Kanazawa U.) (Ful)Osaka Y., (Ful)Kodama A.
Electrochemical reduction of CO2
Faradaic efficiency
Energy career
9-e232
PA174Improvement of resistance to toluene of solid oxide fuel cell by promoting internal reforming
(U. Tsukuba) *(Stu)Tanaka Shota, (AIST) (Ful)Kuramoto Koji, (U. Tsukuba) (Ful)Hanada Nobuko, Ishida Masayoshi
Solid Oxide Fuel Cell
Toluene
Catalyst
9-e325
PA175Stabilization and power density improvement of stack-type thermoelectric power generating module by using various flexible materials
(Nagoya U.) *(Stu)Ishihara Yuya, (Stu)Taguchi Hiroya, (Toshima Manufucturing) Sakai Kenzi, Kimoto Kentarou, (LIXIL) (Ful)Isu Norihumi, (Nagoya U.) (Ful)Deguchi Seiichi
thermoelectric generation
low-temperature waste heat
flexible materials
9-e727
PA176Preparation and thermoelectric properties of PEDOT/Bi2Te3 nanoplate thin films by combining method of electropolymerization and printing process
(Tokai U.) *(Stu)Deguchi Toshiaki, Wada Koudai, Hosokawa Yuichi, Takahashi Momoko, Tomita Koji, Takashiri Masayuki
Bi2Te3 nanoplate
PEDOT
thermoelectric
9-e804
PA177Effect of acid solutions on thermoelectric properties of electrodeposited Bi-Te thin films
(Tokai U.) *(Stu)Okuhata Mitsuaki, Takashiri Masayuki
electrodeposition
thermoelectoric
bismuth telluride
9-e805
PA178Study on burning performance of[Cu(CN4H2)]/BCN
(Fukuoka U.) *(Stu)Kai Mariko, (Ful)Masamoto Hiroshi, (Ful)Shigematsu Mikiji, (Ful)Kowhakul Wasana
tetrazole
complex
burning performance
9-e382
PA179Development of piezoelectric energy harvesting technology by using resonance from feeble flow field
(Nagoya U.) *(Stu)Taguchi Hiroya, Takagi Kentaro, Inoue Tsuyoshi, (Fuji Ceramics) Nozoe Takashi, Saito Seigo, Sano Takahiko, (LIXIL) (Ful)Isu Norihumi, (Nagoya U.) (Ful)Deguchi Seiichi
piezoeloctric power generator
energy harvesting technology
resonance
9-e498
PA180Explication of mechanism of amino acid decomposition in subcritical water using carbon
(TUAT) *(Stu)Usami R., (Ful)Fushimi C.
glycine
subcritical water
9-e597
PA181Evaluation of membrane and fuel cell performance using highly cross-linked aromatic anion conducting membranes
(Tokyo Tech) *(Stu)Hattori Kengo, (Tokyo Tech/JST-CREST) (Ful)Miyanishi Shoji, (Ful)Oshiba Yuhei, (Ful)Yamaguchi Takeo
Solid alkaline fuel cell
Anion conducting membrane
Cross-linking
9-e751
PA182Effect of alloying metals on oxygen reduction activity of connected Pt-alloy nanoparticles for PEFCs
(Tokyo Tech) *(Stu)Kubota Daichi, (KAST/Tokyo Tech) (Ful)Kuroki Hidenori, (Tokyo Tech/KAST) (Ful)Tamaki Takanori, (Ful)Yamaguchi Takeo
Polymer electrolyte fuel cell
Connected platinum-alloy nanoparticles
Carbon-free electrocatalyst
9-e762
PA183Analysis of adhesion phenomena at high temperature and its prevention for low-rank coal combustion ash
(TUAT) *(Stu)Kawada Hirotatsu, Matsusita Miki, Horiguchi Genki, (Ful)Tsukada Mayumi, (Ful)Kamiya Hidehiro, (TEPCO) Yamauchi Yusuke, Okabe Harumi
ash
adhesion
high temperature
9-f152

Technical program
Technical sessions (Wide)  (For narrow screen)
Session programs
Search in technical program
SCEJ 82nd Annual Meeting (Tokyo, 2017)


© 2017 The Society of Chemical Engineers, Japan. All rights reserved.
For more information contact Organizing Committee, SCEJ 82nd Annual Meeting (Tokyo, 2017)
E-mail: inquiry-82awww3.scej.org