Characterization and modeling of supercritical CO2 pulse pressures: Effects of activator mass and discharge plate thickness

Autor: Erdi Abi, Qifu Zeng, Lin Fu, Mingjing Jiang, Jie Zhang, Fayou Wu, Mingwei Liu, Yafeng Han
Jazyk: angličtina
Rok vydání: 2024
Předmět:
Zdroj: Rock Mechanics Bulletin, Vol 3, Iss 3, Pp 100126- (2024)
Druh dokumentu: article
ISSN: 2773-2304
DOI: 10.1016/j.rockmb.2024.100126
Popis: Utilizing a bespoke CO2 phase transition pulse pressure experimental system, we conducted pulse pressure characterization tests across various activator masses, CO2 filling pressures, and energy discharge plate thicknesses. This approach enabled us to ascertain the pulse pressure's response characteristics and variation patterns under diverse conditions. The formula for calculating the peak supercritical CO2 pulse pressure was deduced by modeling the ultimate load calculation of the clamped circular plate, and then the time-course expression of the supercritical CO2 phase transition pulse pressure and energy was carried out by introducing the time factor and taking into account the parameters of the activator mass and the thickness of the energy discharging plate. Our findings reveal a four-stage pressure evolution in the cracking tube during initiation: a gradual increase, a rapid spike, swift attenuation, and eventual negative pressure formation. The activator mass and discharge plate thickness critically influence the peak pressure's timing and magnitude. Specifically, increased activator mass hastens peak pressure onset, while a thicker discharge plate amplifies it. The errors between calculated and experimental values for peak supercritical CO2 phase transition pressure fall within −5%–5%. Furthermore, the pressure peak and arrival time model demonstrates less than 10% error compared to experimental data, affirming its strong applicability. These insights offer theoretical guidance for controlling phase transition pressure and optimizing energy in supercritical CO2 systems.
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