Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
OME |
2023-12-26 16:10 |
Okinawa |
OKINAWAKEN SEINENKAIKAN |
Operando monitoring inside polymer electrolyte fuel cell
-- Relationship between power generation, oxygen, and water -- Junji Inukai (U. Yamanashi) OME2023-71 |
Polymer electrolyte fuel cells generate electricity by introducing hydrogen and oxygen from outside the system. Water is... [more] |
OME2023-71 pp.19-22 |
OME |
2023-11-01 16:05 |
Hyogo |
JIBASAN Bidg. (Himeji) |
Output characteristics of fuel cells using biomaterials Shion Shimizu, Sadahito Uto, Keiichi Kaneto (OIT) OME2023-49 |
Thin films for separators were prepared using nanofiber dispersions of chitin or chitosan. These were used asseparators ... [more] |
OME2023-49 pp.33-35 |
EE |
2023-03-06 09:00 |
Okinawa |
(Primary: On-site, Secondary: Online) |
Volumetric Energy Density of A Polymer Electrolyte Fuel Cell System using NaBH4 and H2O as Hydrogen Source Considering The Amount of Recovered Water Generated during Power Generation Ryosuke Masuo, Nobukazu Hoshi (TUS) EE2022-55 |
NaBH$_4$ is attracting attention as a hydrogen source for fuel cells because it has a high volumetric energy density, is... [more] |
EE2022-55 pp.1-6 |
OME |
2022-11-11 14:20 |
Osaka |
KINDAI Univ. |
CO2 Generation Based on Multi-Step Oxidation in Glucose Fuel Cells Keiichi Kaneto, Sadahito Uto (OIT) OME2022-27 |
(To be available after the conference date) [more] |
OME2022-27 pp.12-15 |
OME |
2022-11-11 15:00 |
Osaka |
KINDAI Univ. |
Research on output characteristics of fuel cells by hydrolysis of carbohydrates such as sucrose Rikuto Shino, Keiichi Kaneto, Sadahito Uto (OIT) OME2022-28 |
Glucose fuel cells show high output, but the output of fuel cells is low because sucrose is not a reducing sugar. If su... [more] |
OME2022-28 pp.16-19 |
OME |
2022-01-07 15:05 |
Osaka |
CENTRAL ELECTRIC CLUB |
Development of Anode Catalysts for High Power Sugar Fuel Cells
-- Composites of Conducting Polymers, Carbon Nano Tube and PtRu -- Keiichi Kaneto, Sadahito Uto (OIT) OME2021-50 |
Glucose/KOH fuel cells have been fabricated using PEDOT*PSS, SWCNT, PtRu composites for anode catalysts. From the optim... [more] |
OME2021-50 pp.14-19 |
OME |
2022-01-07 15:30 |
Osaka |
CENTRAL ELECTRIC CLUB |
Output Characteristics of Saccharides and Juices Fuel Cells Kairi Hosokoshi, Wei Xumeng, Sadahito Uto, Keiichi Kaneto (OIT) OME2021-51 |
Sugars are excellent bioenergy, and circulating between plants and lives, also release electricity by use of fuel cells.... [more] |
OME2021-51 pp.20-22 |
EE |
2021-01-25 09:05 |
Online |
Online (Zoom) |
Consideration of requirement water amount to the output power of fuel cell power generation system fueled by NaBH4 and water Koki Nakahara, Nobukazu Hoshi (TUS) EE2020-23 |
Recently, from the viewpoint of eliminating the dependence on fossil fuels, hydrogen has been expected and used as a nex... [more] |
EE2020-23 pp.1-6 |
EE |
2021-01-25 15:45 |
Online |
Online (Zoom) |
High-Order Harmonics-involved Frequency Domain Analysis on a Current-fed Snubber-less ZCS Step-Up DC-DC Converter Ryusei Miyazaki, Tomokazu Mishima (Kobe Univ.) EE2020-36 |
Recently, the installation of smart grids has been actively promoted from the viewpoint of stabilizing power supply and ... [more] |
EE2020-36 pp.69-74 |
ICD, CPSY |
2016-12-15 15:30 |
Tokyo |
Tokyo Institute of Technology |
[Poster Presentation]
An Energy-Autonomous Bio-Sensing System Using a Biofuel Cell and 0.19V 53μW 65nm-CMOS Integrated Supply-Sensing Sensor with a Supply-Insensitive Temperature Sensor and Inductive-Coupling Link for Healthcare IoT Atsuki Kobayashi, Kei Ikeda, Kazuo Nakazato, Kiichi Niitsu (Nagoya Univ.) ICD2016-89 CPSY2016-95 |
This work presents an energy-autonomous bio-sensing system with the capability of wireless communication. The proposed b... [more] |
ICD2016-89 CPSY2016-95 pp.111-115 |
EMD |
2016-01-22 14:00 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Sintering experiments on cathode materials in solid oxide fuel cells Kenta Imamura, Shotaro Hara, Hiroshi Suga, Ryo Nagase (CIT) EMD2015-88 |
Sintering is the critical fabrication process deeply related with an initial performance of solid oxide fuel cells. Howe... [more] |
EMD2015-88 pp.7-10 |
EE, IEE-SPC |
2014-07-11 09:30 |
Hiroshima |
Hiroshima Institute of Technology |
Semi-Activate Supplies of Zigzag-type DMFCs with the Channel Paths Mio Iijima, Toshiaki Yachi (TUS) EE2014-10 |
In recent years, the power consumption of portable devices such as smartphones and notebook PCs has been increasing as t... [more] |
EE2014-10 pp.29-34 |
OME |
2013-12-17 14:05 |
Tokyo |
Kikai-Shinko-Kaikan Bldg |
Characterization of ZnO-2P2O5 Glass blended with ZrO2-1.6P2O5 Electrolyte as Inorganic - Inorganic Hybrid Electrolyte for Intermediate Temperature Fuel Cell Keisuke Ando, Hidenobu Shiroishi (Tokyo NCT), Morihiro Saito (Tokyo Univ. of Agriculture and Tech.) OME2013-79 |
Inorganic - inorganic hybrid electrolytes were synthesized by mixing ZnO-2P2O5 glass with high mechanical properties and... [more] |
OME2013-79 pp.13-16 |
OME |
2013-12-17 14:25 |
Tokyo |
Kikai-Shinko-Kaikan Bldg |
Synthesis of Pt nanoparticles by low voltage solution plasma processing Takumi Kato, Taiji Nishikawa, Hidenobu Shiroishi (Tokyo NCT), Tatsurou Nakashima, Naoki Matsuda (AIST) OME2013-80 |
A solution plasma processing method at a low voltage and low frequency, abbreviated as SPP-LVLF, is promising for the sy... [more] |
OME2013-80 pp.17-20 |
OME |
2013-12-17 16:30 |
Tokyo |
Kikai-Shinko-Kaikan Bldg |
High Power Density Enzymatic Biofuel Cells using Glucose as a Fuel Takanori Tamaki, Takeo Yamaguchi (Tokyo Inst. of Tech.) OME2013-83 |
Enzymatic biofuel cells utilize enzymes as catalysts to convert the chemical energy of fuels into electricity. Increases... [more] |
OME2013-83 pp.29-32 |
EE, IEE-HCA |
2013-05-24 14:30 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Effects of SiO2 addition to electrolyte membrane and sulfonated-SiO2 application to ionomer in catalyst layer of electrode for power generation characteristics of polymer electrolyte fuel cells Satoshi Uchiike, Yutaka Hasegawa, Yasutaka Kaneko, Tetuo Take (Tokyo City Univ.) EE2013-4 |
Polymer electrolyte membrane (PEM) and ionomer in catalyst layer (CL) of electrode were researched to operate polymer el... [more] |
EE2013-4 pp.61-66 |
OME, SDM |
2013-04-25 15:20 |
Kagoshima |
Yakusima Environmental Culture Village Center |
Flexible glucose fuel cells with microchannels fabricated using MEMS techniques Syohei Koide, Yudai Hukushi, Ryuta Ikoma (Nihon Univ.), Wataru Akatuka, Seiya Tuzimura (Univ. of Tsukuba), Yasushiro Nishioka (Nihon Univ.) SDM2013-7 OME2013-7 |
Small-sized glucose fuel cells are expected for biomedical applications. In this work, a glucose fuel cell was fabricate... [more] |
SDM2013-7 OME2013-7 pp.31-36 |
CPM, EE |
2012-02-10 16:00 |
Tokyo |
Kikai-Shinko-Kaikan Bldg |
Power Generation with High Fuel Utilization in Intermediate Temperature Operating SOFC Unit Based on Anode-Supported Planar Cell Kotoe Mizuki, Masayuki Yokoo, Himeko Orui, Kimitaka Watanabe, Katsuya Hayashi (NTT) EE2011-59 CPM2011-175 |
平板燃料極支持型SOFC(Solid Oxide Fuel Cell)単セルユニットにおける、高燃料利用率運転時の発電特性、アノード排ガス中の水蒸気分圧、発電後のセルの微細構造について調べた。電流密度0.53 A/cm2、燃料利用率95%の... [more] |
EE2011-59 CPM2011-175 pp.39-43 |
EA, US (Joint) |
2012-01-26 14:45 |
Osaka |
Kansai Univ. |
Development of methanol sensor for direct methanol fuel cells using a shear horizontal surface acoustic wave Jun Kondoh, Saburo Endo (Shizuoka Univ.), Katsuhiko Satoh, Naomi Sawada (Suzuki), Koji Kano, Toshimasa Mori, Hiromi Yatsuda (JRC) US2011-92 EA2011-110 |
Concentration of methanol (MeOH) solution is measured using a shear horizontal surface acoustic wave (SH-SAW) sensor. Th... [more] |
US2011-92 EA2011-110 pp.35-40(US), pp.37-42(EA) |
CPM, EE |
2010-02-01 16:20 |
Kyoto |
|
Study of Air Supply Method in Bellows Type Direct Methanol Fuel Cell using by Three Dimensional Fluid Simulation Tatsunori Imai, Toshiaki Yachi (Tokyo Univ. of Sci.) EE2009-66 CPM2009-158 |
As a power supply for next generation's mobile device, the Direct Methanol Fuel Cell (DMFC) has been paid attention beca... [more] |
EE2009-66 CPM2009-158 pp.63-67 |