Study on Bubble Dynamics in Photoelectrochemical Water Splitting with Low-Rate Flow Fields

Ye, Xingmiao; Xu, Qiang; Nie, Tengfei; Luo, Xinyi; Jiang, Shuaizhi; Guo, Liejin

doi:10.1021/acs.jpcc.3c06177

J. Phys. Chem. C

2023

DOI: 10.1021/acs.jpcc.3c06177

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Study on Bubble Dynamics in Photoelectrochemical Water Splitting with Low-Rate Flow Fields

Xingmiao Ye,

Qiang Xu,

Tengfei Nie

et al.

Abstract: In this study, we explored the effect of the flow rate on bubble dynamics in photoelectrochemical water splitting using a low-rate rotating flow field. With the flow rate increasing from 0 to 8.4 mm s −1 , the bubble life cycle and the bubble detachment diameter both decrease. However, the mass flow rate of the gas entering the bubble through the "direct injection" mode is not affected by the variation in the flow rate. Different from static conditions, increasing laser power in the flow field will cause the b… Show more

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Cited by 3 publications

References 43 publications

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Solutal Marangoni effect influencing bubble dynamics with varied electrolyte compositions

Wang,

Xu,

et al. 2025

Electrochimica Acta

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Solutal Marangoni effect influencing bubble dynamics with varied electrolyte compositions

Wang,

Xu,

et al. 2025

Electrochimica Acta

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Effect of the shear flow field on the bubble behaviors during photoelectrochemical water splitting

Liu,

Wang,

Zhen

et al. 2025

Electrochimica Acta

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Effect of electrolyte concentration on bubble evolution and mass transfer characteristics on surface of photoelectrode

Wang,

Xu,

Nie

et al. 2024

Acta Phys. Sin.

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In the photoelectrochemical water splitting reaction system, the bubble will cover the reaction area on the photoelectrode surface, affecting the reaction impedance and gas-liquid mass transfer. A laser irradiation system was built and coupled with an electrochemical workstation and high-speed microscopic imaging system. The evolution behavior and mass transfer characteristics of single O2 bubble on the TiO2 photoelectrode were studied at different electrolyte concentrations (Na2SO4, 0.1-2.0 mol/L). With the increase of electrolyte concentration from 0.1 mol/L to 2.0 mol/L, the solution resistance and bubble additional resistance decrease, and the overpotential in the stable growth stage of bubble decreases from 0.113 V to -0.089 V. The bubble will cause the fluctuation of overpotential in the nucleation, growth and detachment stages, which is consistent with the impedance change caused by the change of dissolved oxygen concentration in the liquid phase. By analyzing the correlation between gas evolution efficiency and bubble coverage, it is found that the increase of electrolyte concentration would lead to the simultaneous decrease of bubble coverage and gas evolution efficiency. By calculating the Sherwood dimensionless number, the results show that the total convective mass transfer coefficient increases with the electrolyte concentration. Single-phase natural convection plays a dominant role in the process of gas product transfer, and its mass transfer coefficient is one order of magnitude larger than that of bubble-induced convection. In summary, by adjusting the electrolyte concentration, the bubble on the gas evolution photoelectrode surface can be effectively removed and the mass transfer of the system can be optimized, which is of great significance for improving the efficiency of photoelectrochemical water splitting.

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Study on Bubble Dynamics in Photoelectrochemical Water Splitting with Low-Rate Flow Fields

Cited by 3 publications

References 43 publications

Solutal Marangoni effect influencing bubble dynamics with varied electrolyte compositions

Solutal Marangoni effect influencing bubble dynamics with varied electrolyte compositions

Effect of the shear flow field on the bubble behaviors during photoelectrochemical water splitting

Effect of electrolyte concentration on bubble evolution and mass transfer characteristics on surface of photoelectrode

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