Computation of a Shrinking Interface in a Hele-Shaw Cell

Abstract: The flow in a Hele-Shaw cell with a time-increasing gap poses a unique shrinking interface problem. When the upper plate of the cell is lifted perpendicularly at a prescribed speed, the exterior less viscous fluid penetrates the interior more viscous fluid, which generates complex, time-dependent interfacial patterns through the Saffman-Taylor instability. The pattern formation process sensitively depends on the lifting speed and is still not fully understood. For some lifting speeds, such as linear or exponen… Show more

“…Indeed, in Zhao et al. (2018), it was shown that linear theory underpredicts the amplitudes of growing modes in the lifting plate problem.…”

“…(1997) and Zhao et al. (2018). We consider the interface to be a slightly perturbed circle, where , the perturbation mode is an integer, is the polar angle and is the amplitude of the perturbation.…”

“…To overcome these numerical issues, we have developed a rescaled boundary integral scheme (Zhao et al. 2018); the method is briefly described here. The idea is to map the original time and space into new coordinates such that the interface can evolve at an arbitrary speed in the new rescaled frame (see also Li et al.…”

“…Further details of the numerical method, including convergence studies, can be found in Zhao et al. (2018).…”

“…Here, we use a recently developed spectrally accurate boundary integral method with space–time rescaling (Zhao et al. 2018) that enables the accurate simulation of nonlinear interface dynamics in the fast shrinking regime for the first time. In particular, the interface is mapped back to its initial size, and time is rescaled such that the speed of the interface in the new frame is prescribed and is slower than the dynamics in the original frame.…”

Nonlinear limiting dynamics of a shrinking interface in a Hele-Shaw cell

“…Indeed, in Zhao et al. (2018), it was shown that linear theory underpredicts the amplitudes of growing modes in the lifting plate problem.…”

“…(1997) and Zhao et al. (2018). We consider the interface to be a slightly perturbed circle, where , the perturbation mode is an integer, is the polar angle and is the amplitude of the perturbation.…”

“…To overcome these numerical issues, we have developed a rescaled boundary integral scheme (Zhao et al. 2018); the method is briefly described here. The idea is to map the original time and space into new coordinates such that the interface can evolve at an arbitrary speed in the new rescaled frame (see also Li et al.…”

“…Further details of the numerical method, including convergence studies, can be found in Zhao et al. (2018).…”

“…Here, we use a recently developed spectrally accurate boundary integral method with space–time rescaling (Zhao et al. 2018) that enables the accurate simulation of nonlinear interface dynamics in the fast shrinking regime for the first time. In particular, the interface is mapped back to its initial size, and time is rescaled such that the speed of the interface in the new frame is prescribed and is slower than the dynamics in the original frame.…”

Nonlinear limiting dynamics of a shrinking interface in a Hele-Shaw cell

Classical Solution to an Interfacial Flow with Kinetic Undercooling in a Time-Dependent Gap Hele-Shaw Cell

Nonlinear simulation of shape-preserving delta growth