Tetsuhiko Maeda scite author profile

Experimental study on proton exchange membrane (PEM) electrolyzer was carried out focusing on the effect of pore structural properties of current collectors, such as porosity and pore diameter. Various titanium (Ti)-felt substrates with different porosities and 2 pore diameters (measured by capillary flow porometry) were used as the anode current collector. Results show that when the mean pore diameter of the current collector was larger than 10 μm, the electrolysis performance improved with decreasing pore diameter. In contrast, changes in porosity had no significant effect on the cell performance when the porosity exceeded 0.50. The flow pattern of two-phase flow in the flow channel was discussed in terms of its relationship to bubble size and to pore diameter of the current collector. Finally, correlation between the calculated membrane resistance and the measured pore diameter of the current collectors suggest that larger bubbles generated from larger pores tend to become long bubbles in the channel, thus hindering the water supply to the membrane.

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Influence of pore structural properties of current collectors on the performance of proton exchange membrane electrolyzer

Ito

Maeda

Nakano

et al. 2013

Electrochimica Acta

148

107

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Effect of flow regime of circulating water on a proton exchange membrane electrolyzer

Ito

Maeda

Nakano

et al. 2010

International Journal of Hydrogen Energy

148

101

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Variable supply-voltage scheme for low-power high-speed CMOS digital design

Kuroda

Suzuki

Mita

et al. 1998

IEEE J. Solid-State Circuits

222

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This paper describes a variable supply-voltage (VS) scheme. From an external supply, the VS scheme automatically generates minimum internal supply voltages by feedback control of a buck converter, a speed detector, and a timing controller so that they meet the demand on its operation frequency. A 32-b RISC core processor is developed in a 0.4-m CMOS technology which optimally controls the internal supply voltages with the VS scheme and the threshold voltages through substrate bias control. Performance in MIPS/W is improved by a factor of more than two compared with its conventional CMOS design. Index Terms-Buck converter, low power CMOS circuits, low threshold voltage, low voltage.

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Tetsuhiko Maeda

Properties of Nafion membranes under PEM water electrolysis conditions

Experimental study on porous current collectors of PEM electrolyzers

Influence of pore structural properties of current collectors on the performance of proton exchange membrane electrolyzer

Effect of flow regime of circulating water on a proton exchange membrane electrolyzer

Variable supply-voltage scheme for low-power high-speed CMOS digital design

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