Issue 12, 2023

Rock-on-a-chip: “Seeing” the association/disassociation of an adaptive polymer in solutions flowing through porous media

Abstract

The flow and transport of polymer solutions through porous media are ubiquitous in myriad scientific and engineering applications. With escalating interest in adaptive polymers, understanding the flow dynamics of their solutions is indispensable (yet lacking). Here, the hydrophobic-effect-driven reversible associations in a self-adaptive polymer (SAP) solution and its flow characteristics in a microfluidic-based “rock-on-a-chip” device have been analyzed. The hydrophobic aggregates were fluorescent labeled; this enabled a direct visualization of the in situ association/disassociation of the polymer supramolecular assemblies in pore spaces and throats. Furthermore, the influence of this adaptation on the macroscopic flow behavior of the SAP solution was analyzed by comparing its flow with that of two partially-hydrolyzed polyacrylamide (the molecular weight (MW)-equivalent HPAM-1 and ultrahigh-MW HPAM-2) solutions in the semi-dilute regime with similar initial viscosities. At low flow rates (with shear predominance), the SAP solution showed a low shear viscosity compared to HPAM-1, indicating a higher shear susceptibility for association than chain entanglement. Although the SAP exhibited the same elastic instability as the non-adaptive polymers above a threshold flow rate, the adaptable structure of the former advanced the onset of its viscoelastic-governed flow, providing a stronger flow resistance, possibly through an extension resistance. Furthermore, 3D-media analysis indicated that the reversible association/disassociation of SAP increased the accessible pore space during nonaqueous-liquid displacement, facilitating oil production.

Graphical abstract: Rock-on-a-chip: “Seeing” the association/disassociation of an adaptive polymer in solutions flowing through porous media

Supplementary files

Article information

Article type
Paper
Submitted
23 Jan 2023
Accepted
15 May 2023
First published
15 May 2023

Lab Chip, 2023,23, 2808-2818

Rock-on-a-chip: “Seeing” the association/disassociation of an adaptive polymer in solutions flowing through porous media

Y. Zhang, X. Zhao, P. Han, T. He, H. Yin, L. Zhang, Y. Feng and D. A. Weitz, Lab Chip, 2023, 23, 2808 DOI: 10.1039/D3LC00068K

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