SCEJSCEJ SCEJ 87th Annual Meeting Mar. 16 (Wed) - Mar. 18 (Fri), 2022 Kobe University, Tsurukabuto 1st Campus / Online Japanese page
Last Update: 2024-02-24 19:21:45

List of received applications (By topics code)


9) Energy engineering

9-e. New energies & energy systems

Most recent update: 2022-06-14 16:59:01

The keywords that frequently used
in this topics code.
KeywordsNumber
Hydrogen storage3*
polymer electrolyte fuel cell3*
Carbon nanotubes2
Ammonia2
Water splitting2
Solar cell2
electrocatalysts2
Simulation2
Modeling2
Carbon nanotube2
oxygen reduction reaction2
Passivation1

ACKN
No.
Title/Author(s)KeywordsStyle
16Impact Analysis of Through-plane Separator Shape on Temperature Distribution in Single Cell of PEFC Operated at Higher Temperature
(Mie U.) *(Reg)Nishimura Akira, (Stu)Kono Nozomu, Toyoda Kyohei, Mishima Daiki
PEFC
Heat Transfer Analysis
Separator Thickness
O
25Transport of active materials in porous carbon electrode for redox flow batteries
(Gunma U.) *(Reg)Ishitobi Hirokazu, Shiraishi Soshi, (AION) Tsukada Hidehiko, Tomita Natsumi, (Toyo Engineering) (Reg)Nakao Takato, (Gunma U.) (Stu)Ide Tomoki, (Reg)Nakagawa Nobuyoshi
Redox flow battery
Carbon porous electrode
Active materials transport
O
70Amorphous/Crystalline Heterostructure Zinc-Vanadium Oxide-Cobalt Nanosheets for Efficient Electrocatalytic Hydrogen Evolution
(Hirosaki U.) *(Stu)Chen Meng, (Stu)Kitiphatpiboon Nutthaphak, (Reg)Abudula Abuliti, (Reg)Guan Guoqing
hydrogen evolution reaction
Water splitting
electrocatalysts
P
71Hierarchical NiFe-LDH@MnCo2O4 electrocatalyst for oxygen evolution reaction in electrolysis of imitate seawater
(Hirosaki U.) *(Stu)Kitiphatpiboon Nutthaphak, (Stu)Chen Meng, (Reg)Abudula Abuliti, (Reg)Guan Guoqing
Oxygen evolution reaction
Water splitting
electrocatalysts
P
73Silicon monoxide negative electrode with self-supporting paper of carbon nanotubes for stable and high capacity secondary batteries
(Waseda U.) *(Stu)Mae Tomotaro, (Stu·PCEF)Kaneko Kentaro, (Reg)Li Mochen, (Reg)Noda Suguru
SiO anode
Carbon nanotubes
Three-dimensional electrode
O
99High energy density Li-S battery with active materials and salts held by carbon nanotube paper
(Waseda U.) *(Stu)Nakamae Kaito, Yoshie Yuichi, (Stu)Mae Tomotaro, (Stu)Kaneko Kentaro, (Reg·PCEF)Li Mochen, (Reg)Noda Suguru
lithium-sulfur battery
high energy density
carbon nanotube
P
204Development of Ru supported carbon nanotube film electrodes for hydrogen production by liquid ammonia electrolysis
(Waseda U.) *(Stu)Miyakoshi Sumire, (Reg)Noda Suguru, (Reg)Hanada Nobuko
Carbon nanotube
Ammonia electrolysis
Ru nanoparticles
P
273Design of highly efficient cells and evaluation of power generation for protonic ceramic fuel cells
(U. Tokyo) *(Stu)Nakane Kenta, (Tokyo gas/Kyushu U.) (Reg)Matsuzaki Yoshio, (Tokyo Tech) (Reg)Otomo Junichiro
Solid oxicide fuel cell
bilayer electrolyte
ionic transport property
P
276Experimental study of heat supply and hydrogen desorption by hydrogen flow process to porous MgH2 sheet
(Waseda U.) *(Stu)Yoshida Keisuke, (Reg)Noda Suguru, (Reg)Hanada Nobuko
Hydrogen storage
Magnesium hydride
Hydrogen flow process
P
306Regulating the amount of oxygen vacancy in P/Ag/Ag2O/Ag3PO4/TiO2 composite for improved hydrogen evolution under solar light
(U. Tsukuba) *(Stu)Sun Xiang, Ming Jie, Zhang Cheng, (Reg)Yang Yingnan
Oxygen vacancy modified P/Ag/Ag2O/Ag3PO4/TiO2
Hydrogen evolution
Solar light
O
327Improvement of H2 absorption and desorption cycle stability of MgH2 with catalyst by carbon materials
(Waseda U.) *(Stu)Hamasawa Tomoki, (Reg)Noda Suguru, (Reg)Hanada Nobuko
MgH2
Hydrogen storage
Carbon materials
P
347Study of perovskite-type proton conductor search by applying machine learning to valence bond method
(Tokyo Tech) *(Stu)Ariga Takaaki, (Stu)Kameda Keisuke, (Stu)Sasaki Eita, (Reg)Hasegawa Kei, (Reg)Manzhos Sergei, (Reg)Ihara Manabu
solid oxide fuel cell
valence bond method
machine learning
P
355Reaction selectivity control on seawater electrolysis for hydrogen generation using thin flow channel electrolysis cell.
(Yamaguchi U.) *(Reg)Endo Nobutaka, Tanaka Toshimitu, Masada Kazunari
Seawater electrolysis
Chlorine
Oxygen selectivity
O
417Ammonia-Methanation of Carbon Dioxide
(Hiroshima U.) *(Reg)Saima Hitoshi, Notsu Akira, Sunamoto Reiji, (Reg)Miyaoka Hiroki, (Reg)Ichikawa Takayuki
Ammonia
Methanation
O
454Ammonia synthesis from N2-H2 using proton conductors under ambient pressure condition
(U. Tokyo) *(Reg)Kikuchi Ryuji, Yuan Yao, (Reg)Fujiwara Naoya, (Reg)Tada Shohei
Ammonia
Electrolysis Cell
O
529Mechanism Elucidation of Capacity Loss and Development of Valence-Selective Membranes for VRFB
(TUAT) *(Stu·PCEF)Sugiura Naruya, (Gunma U.) (Stu)Obata Ryusuke, (Reg)Ishitobi Hirokazu, (TUAT) (Reg)Ohashi Hidenori
vanadium redox flow battery
valence selective membrane
capacity loss
P
554Synthesis of Ni and hetero atoms doped hydrogen generation electrode catalyst using ion exchange technique
(Shizuoka U.) *(Stu)Moroto Koki, (Osaka U.) (Reg)Miyake Koji, (Shizuoka U.) (Reg)Kong Chang Yi
HER
ion exchange resin
non-precious metal catalyst
P
565Structural control of Cu catalysts and electrodes for high-efficiency ethylene production from CO2 electroreduction
(Tokyo Tech) *(Stu)Matsuyama Naoki, (Reg)Tamaki Takanori, (Reg)Yamaguchi Takeo
CO2 electroreduction
Cu catalyst
structural control
P
599Enlargement of Perovskite Grain by High-speed Heat Treatment with Low Thermal Decomposition for Perovskite Solar Cell Application
(Tokyo Tech) *(Stu)Yasumoto Jiei, Suzuki Kazuma, Budiutama Gekko, (Reg)Hasegawa Kei, (Reg)Manzhos Sergei, (Reg)Ihara Manabu
Solar Cell
Perovskite
Grain Size
P
602Modeling of the Effects of Porosity and Passivation on Porous Silicon
(Tokyo Tech) *(Stu)Sundarapura P., (Reg)Manzhos S., (Reg)Ihara M.
Porous Silicon
Passivation
Modeling
O
627Study on Activity of Citric Acid-decorated Carbon Nanotubes for Oxygen Reduction Reaction
(Tokyo Tech) *(Stu)Chen Kexin, (Reg)Hasegawa Kei, (Reg)Manzhos Sergei, (Reg)Ihara Manabu, (Reg)Waki Keiko
Oxygen reduction reaction
Nitrogen doping
Carbon nanotubes
O
629Study of Machine Learning Using Irradiation Estimation Model and Measured Values for Predicting PV Power Generation Including Shadows
(Tokyo Tech) *(Stu)Otoshi Natsuki, (Stu)Okubo Tatsuya, (Reg)Hasegawa Kei, (Reg)Manzhos Sergei, (Reg)Ihara Manabu
Energy system
Solar cell
Simulation
P
630Creation and evaluation of LaNi5-polymer resin structure for fast hydrogen-sorption
(Waseda U.) *(Stu)Kozaka Takao, (Stu)Yokoi Kento, (Reg)Noda Suguru, (Reg)Hanada Nobuko
Hydrogen storage
Metal hydride
Pulverization
P
635Investigating the Structural Change of PbI2-rich Perovskite Solar Cells After Storage
(Tokyo Tech) *(Stu)Li Ruicheng, (Reg)Hasegawa Kei, (Reg)Manzhos Sergei, (Reg)Ihara Manabu, (Reg)Waki Keiko
hole transportation material (HTM)-free perovskite solar cell
perovskite self-recrystallization
interface reconstruction
O
636Evaluation of the impact of introduction of photovoltaic power due to the system constraints in the distribution network substation using an economic optimization model
(Tokyo Tech) *(Stu)Oya Masashi, (Reg)Hasegawa Kei, (Deloitte Tohmatsu Consulting) (Reg)Hamasaki Hiroshi, (Tokyo Tech) (Reg)Manzhos Sergei, (Reg)Ihara Manabu
economic optimization model
distribution network substation
photovoltaic power
O
648Transport Properties of Proton-Conducting Inorganic Solid Electrolyte Multilayer Membranes
(U. Tokyo) *(Stu)Tajima Seiya, (Tokyo Tech) (Reg)Otomo Junichiro
Solid oxide fuel cells
Proton-Conducting inorganic solid electrolyte
Hydrogen permeable membranes
O
654Development of Physical Model Based Fuel Cell System Simulator
(Kyoto U.) *(Reg)Hasegawa Shigeki, (TUAT) (Reg)Kim Sanghong, (Kyoto U.) (Reg)Kageyama Miho, (Reg)Kawase Motoaki
Fuel cell
Simulation
Modeling
O
655Gas and water permeability of PEFC membrane
(Kyoto U.) *(Reg)Kageyama Miho, (Int)Balci Beste, (Int)Liku Kai, (Stu)Danjo Shotaro, Nakamichi Kimiyo, (Reg)Kawase Motoaki
polymer electrolyte fuel cell
membrane
MEA
O
656Formulation of Gas Macromixing in Flow Channels and Gas Diffusion Layers in Polymer Electrolyte Fuel Cell
(Kyoto U.) *(Stu)Ma Yulei, (Reg)Kageyama Miho, Gyoten Hisaaki, (Reg)Kawase Motoaki
polymer electrolyte fuel cell
flow channel
macromixing
P
658Analysis of oxygen reduction reaction rate considering the effect of mass transfer resistance in the cathode catalyst layer in PEFC
(Kyoto U.) *(Stu·PCEF)Ogawa H., (Reg)Hasegawa S., (Reg)Kageyama M., Gyoten H., (Reg)Kawase M.
polymer electrolyte fuel cell
oxygen reduction reaction
mass transfer resistance
P
703Development of data platform for acceleration of matching and implementation of technologies to regions
(UTokyo) *(Reg)Kanematsu Yuichiro, (Reg)Fujii Shoma, (Reg·APCE)Kikuchi Yasunori
open data
life cycle assessment
emerging technologies
O

List of received applications (By topics code)

List of received applications
SCEJ 87th Annual Meeting (Kobe, 2022)
IChES 2022

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