Li-Hsing Fang scite author profile

Li-Hsing Fang

5Publications

10Citation Statements Received

15Citation Statements Given

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Yuan Ze University

Publications

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Effects of Pretreatment Methods on Electrodes and SOFC Performance

et al. 2014

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Commercially available tapes (anode, electrolyte) and paste (cathode) were choosen to prepare anode-supported cells for solid oxide fuel cell applications. For both anode-supported cells or electrolyte-supported cells, the anode needs pretreatment to reduce NiO/YSZ to Ni/YSZ to increase its conductivity as well as its catalytic characteristics. In this study, the effects of different pretreatments (open-circuit, closed-circuit) on cathode and anodes as well as SOFC performance are investigated. To investigate the influence of closed-circuit pretreatment on the NiO/YSZ anode alone, a Pt cathode is utilized as reference for comparison with the LSM cathode. The characterization of the electrical resistance, AC impedance, and SOFC performance of the resulting electrodes and/or anode-supported cell were carried out. It's found that the influence of open-circuit pretreatment on the LSM cathode is limited. However, the influence of closed-circuit pretreatment on both the LSM cathode and NiO/YSZ anode and the resulting SOFC performance is profound. The effect of closed-circuit pretreatment on the NiO/YSZ anode is attributed to its change of electronic/pore structure as well as catalytic characteristics. With closed-circuit pretreatment, the SOFC performance improved greatly from the change of LSM cathode (and Pt reference) compared to the Ni/YSZ anode. OPEN ACCESSEnergies 2014, 7 3923

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Fouling with aerobic granule membrane bioreactor

Juang

Fang

et al. 2011

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Aerobic granulation (AG) and membrane bioreactor (MBR) are two promising, novel environmental biotechnological processes that draw interest of researchers working in the area of biological wastewater treatment. Membrane fouling in the combined aerobic granular membrane bioreactor (AGMBR) process and the conventional MBR process was investigated in this work. The irreversible fouling on hollow-fibre membranes in both reactors were observed with the multiple staining and confocal laser scanning microscope technique. Following physical and chemical washing, the external fouling layers were mostly removed. However, the biofilms built up in the interior surface of membrane remained and contributed to the irreversible fouling resistance. AGMBR retained most cells with granules, thereby reducing their penetration through membrane and thus the chance to form internal fouling layer. The internal biofilm layer was principally composed of live cells embedded in a matrix of proteins and polysaccharides, with that on AGMBR denser and thicker than that on MBR. Prevention of development of internal biofilm is essential to reduce irreversible fouling of AGMBR and MBR membranes.

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Porous Sr2MgMo1−xVxO6−d ceramics as anode materials for SOFCs using biogas fuel

Wang

Guobin

Luo

et al. 2015

Catalysis Communications

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Real time interior water and thermal monitoring of fuel cell with micro 3-in-1 sensor

Lee

Fang

et al. 2015

Renewable Energy

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Huge giant-magnetoresistance of Co/Ru/L11-CoPt multi-layer pseudo-spin valve

Lan

Jane

Ding

et al. 2023

Journal of Alloys and Compounds

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Li-Hsing Fang

Effects of Pretreatment Methods on Electrodes and SOFC Performance

Fouling with aerobic granule membrane bioreactor

Porous Sr2MgMo1−xVxO6−d ceramics as anode materials for SOFCs using biogas fuel

Real time interior water and thermal monitoring of fuel cell with micro 3-in-1 sensor

Huge giant-magnetoresistance of Co/Ru/L11-CoPt multi-layer pseudo-spin valve

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