Flow visualization of the transient effect of the internal two-phase flow on the external iso-pentane flashing spray under different injection pressure

Flashing spray occurs when the saturated liquid is discharged into a gaseous environment at an ambient pressure lower than its saturation pressure. Internal flow is a primary determinant on the behavior of external flashing spray, so its transient effect was investigated with iso-pentane as working medium. The coupled effect of superheat level and injection pressure was comprehensively explored with initial temperature from 30 degrees C to 70 degrees C and injection pressure from 1.2 MPa to 2.4 MPa. Under different injection pressure, the stable spray patterns can still be categorized as non-shattering, partially shattering, completely shattering and flare flashing separated by the shattering index X center dot(P-inj/P-a)(0.5) of 0.21, 0.39 and 0.76, which represents the product of homogeneous nucleation rate and the ratio of injection pressure over ambient pressure. A strong correlation between the spray cone angle and the shattering index is proposed as a piecewise function separated by X center dot(P-inj/P-a)(0.5) = 0.39. High-void -fraction internal two-phase flow is easier to be formed in partially shattering or completely shattering pattern, which would lead to a hysteretic flashing spray with a significant increase of spray cone angle and droplets concentration. Low X center dot(P-inj/P-a)(0.5) yields slower response of external morphological changes but larger enhance-ment of radial expansion.

Automated summary

Flashing spray occurs when a saturated liquid is discharged into a gaseous environment at a lower pressure, and the internal flow plays a crucial role in determining the behavior of the external flashing spray. In this study, the transient effect of iso-pentane working medium was investigated, specifically focusing on the combined effect of superheat level and injection pressure. Different stable spray patterns were observed under different injection pressures, ranging from non-shattering to completely shattering, and a correlation between the spray cone angle and the shattering index was proposed. In addition, the formation of high-void-fraction internal two-phase flow in partially shattering or completely shattering patterns led to a hysteretic flashing spray with significant changes in spray cone angle and droplet concentration.