Numerical Study of Steam–CO2 Mixture Condensation over a Flat Plate Based on the Solubility of CO2

Jiang, Bing; Jiang, Yiqiang; Gu, Huaduo; Chen, Yaping; Wu, Jiafeng

doi:10.3390/app13095747

Applied Sciences

2023

DOI: 10.3390/app13095747

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Numerical Study of Steam–CO2 Mixture Condensation over a Flat Plate Based on the Solubility of CO2

Bing Jiang

Yiqiang Jiang

Huaduo Gu

et al.

Abstract: In order to successfully study the condensation and separation of a steam–CO2 mixture, a boundary layer model was applied to the mixture condensation of steam and CO2 on horizontal and vertical plates. The modified condensation boundary layer model of steam and CO2, given the CO2 solubility in the condensate, was established, numerically solved, and verified with existing experimental data. Different condensation data of steam–air and steam–CO2 mixtures were compared, and the effect of CO2 solubility on the mi… Show more

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Study of Condensation during Direct Contact between Steam and Water in Pressure-Relief Tank

Yin,

Wang,

Yuan

et al. 2024

Energies

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Direct contact condensation (DCC) is a phenomenon observed when steam interacts with subcooled water, exhibiting higher heat and mass transfer rates compared to wall condensation. It has garnered significant interest across industries such as nuclear, chemical, and power due to its advantageous characteristics. In the context of pressure-relief tanks, understanding and optimizing the DCC process are critical for safety and efficiency. The efficiency of pressure-relief tanks depends on the amount of steam condensed per unit of time, which directly affects their operational parameters and design. This study focuses on investigating the direct gas–liquid contact condensation process in pressure-relief tanks using computational fluid dynamics (CFD). Through experimental validation and a sensitivity analysis, the study provides insights into the influence of inlet steam parameters and basin temperature on the steam plume characteristics. Furthermore, steady-state and transient calculation models are developed to simulate the behaviour of the pressure-relief tank, providing valuable data for safety analysis and design optimization. There is a relatively high-pressure area in the upper part of the bubble hole of the pressure-relief tube, and the value increases as it is closer to the holes. The steam velocity in the bubbling hole near the 90° elbow position is higher. This study contributes to the understanding of steam condensation dynamics in pressure-relief tanks. When the steam emission and pressure are fixed, the equilibrium temperature increases linearly as the initial temperature increases (where a = 1, b = 20 in y = a x+ b correlation), the equilibrium pressure increases nearly exponentially, and the equilibrium gas volume decreases. When the steam emission and initial temperature are fixed, the equilibrium temperature does not change as the steam discharge pressure increases. The correlations between the predicted equilibrium parameters and the inlet steam parameters and tank temperature provide valuable insights for optimizing a pressure-relief tank design and improving the operational safety in diverse industrial contexts.

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Study of Condensation during Direct Contact between Steam and Water in Pressure-Relief Tank

Yin,

Wang,

Yuan

et al. 2024

Energies

View full text Add to dashboard Cite

show abstract

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Numerical Study of Steam–CO2 Mixture Condensation over a Flat Plate Based on the Solubility of CO2

Cited by 1 publication

References 38 publications

Study of Condensation during Direct Contact between Steam and Water in Pressure-Relief Tank

Study of Condensation during Direct Contact between Steam and Water in Pressure-Relief Tank

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