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Rheological Properties of a New Microbial Exopolysaccharide Produced by <i>Sphingomonas sp</i>. HS and Its Potential in Enhanced Oil Recovery

Si‐Jia Miao, Jing Zhou, Gui-Na Qi, Jin‐Feng Liu, Shi‐Zhong Yang, Hong‐Ze Gang, Bo‐Zhong Mu

2022Energy & Fuels10 citationsDOI

Abstract

The alkali-free surfactant–polymer flooding system with ultralow interfacial tensions is still a challenge to enhance oil recovery at present. In this study, a new thermally stable and salt tolerant biopolymer (HS-EPS) was obtained from thje broth of Sphingomonas sp. HS, a newly isolated strain (CGMCC No. 22954). Compared to HPAM, the elasticity of HS-EPS was dominant which is conducive to enhancing oil recovery. The HS-EPS showed good viscosity stability at salinities up to 360 g/L of NaCl, 60 g/L of Ca2+, and 60 g/L of Mg2+, temperatures up to 90 °C, and pH 4–10. Meanwhile, a new alkali-free surfactant–polymer binary system was developed using HS-EPS and a biobased surfactant newly synthesized in our laboratory. The interfacial tension between this binary flooding system and Daqing crude oil was below 10–2 mN/m with 100 g/L of NaCl, 400 mg/L of Ca2+, or at a temperature of 80 °C. In addition, this binary system possesses a good oil sand adsorption resistance, dilution resistance, and aging stability. These results demonstrate that the new biopolymer HS-EPS secreted by Sphingomonas sp. HS is promising in oil recovery in the alkali-free flooding system.

Topics & Concepts

BiopolymerPulmonary surfactantChemistryEnhanced oil recoveryAdsorptionDilutionChemical engineeringPolymerSphingomonasAlkali metalChromatographySurface tensionRheologyViscosityMaterials scienceOrganic chemistryBiochemistryComposite materialPhysics16S ribosomal RNAQuantum mechanicsGeneEngineeringThermodynamicsEnhanced Oil Recovery TechniquesDrilling and Well EngineeringHydrocarbon exploration and reservoir analysis