A new class of branched single chain surfactant for enhanced oil recovery reported

Fabrication of a glass micromodel and testing of these materials were carried out by PhD student Sajad Kiani.

Sajad designed a quasi-two-dimensional glass microfluidic pattern with heterogeneous form to evaluate the suitability of the surfactant for oil displacing in EOR. Such heterogeneous pattern was replicated from a cross-section of sandstone rock and has been used to investigate the visual mechanism of the fluid flow on porous mediums.

Dr Alexander said: "It is a revelation that a single chain surfactant alone, without addition of any nanoparticle, polymer or alkaline, can achieve such a large recovery of oil. The effectiveness of this surfactant in EOR is due to its ability in reducing the surface and interfacial tension of the water/oil remarkably, compared to the other single chain surfactants. This is also because of its effective wettability alteration and capability to maintain the aggregation structure under extreme heat and salinity."

Professor Barron said: "Despite the desire to shift to renewable energy, the global demand for oil is not abating, and we must find ways to enhance recovery of resources using methods with low environmental impact. So-called green hydrocarbon technology is one of the focus areas of ESRI, along with CCUS and alternative sustainable energy sources, for a multifaceted approach to lowering emissions and the environmental impact of energy and resource production."

The results of this work opens up insight into the future role of this green and cost effective LSES in EOR formulations.