Advanced polymer‐based surfactant for improved heat and salinity stability in enhanced oil recovery processes

Abstract: Enhancing oil recovery through surfactants has proven to be a successful strategy in recent times. However, traditional surfactants have their limitations, particularly in terms of stability under high temperatures and salinity levels. This study delved into a groundbreaking macromolecular polymeric surfactant, S‐AV, which holds the unique ability to transform rock surface characteristics, effectively stripping away residual oil while maintaining resilience against elevated temperatures and salinity. S‐AV was … Show more

“…The FTIR spectra for both polyoxazoline polymer and POZ-ACs are shown in Figure 2. In the FTIR spectra of POZ polymer, the absorption band at 2938 cm −1 corresponds to the bending vibration of the C−H bond [40,41]. The absorption band at 3280 cm −1 corresponds to the bending vibration of the N−H [42,43].…”

Innovative Solutions for Water Treatment: Unveiling the Potential of Polyoxazoline Polymer Activated Carbon Composite for Efficient Elimination of Lead Ions

“…The FTIR spectra for both polyoxazoline polymer and POZ-ACs are shown in Figure 2. In the FTIR spectra of POZ polymer, the absorption band at 2938 cm −1 corresponds to the bending vibration of the C−H bond [40,41]. The absorption band at 3280 cm −1 corresponds to the bending vibration of the N−H [42,43].…”

Innovative Solutions for Water Treatment: Unveiling the Potential of Polyoxazoline Polymer Activated Carbon Composite for Efficient Elimination of Lead Ions