Shuai Li, born in 1987, he holds a P.h.D degree at Research Institute of Petroleum Exploration & Development, PetroChina, majoring in oil and gas engineering. He also holds a bachelor’s degree (2011) and a master’s degree (2014) at China University of Petroleum (Beijing), both in petroleum engineering. He is also a visiting student at the Pennsylvania State University, USA from year 2017 to year 2018.
Abstract
Based on contact angle and interfacial tension measurement, this paper concentrated on adding surfactants agent into fracturing fluids to increase oil output after hydraulic fracturing. Cationic, anionic and nonionic surfactants were added into slickwater to perform a serious of one end open (OEO) imbibition experiments at a certain concentration. Scanning electron microscope (SEM) and nuclear magnetic resonance (NMR) method were also applied in the detection before and after the imbibition process. Results demonstrated that core samples changed from oil-wet to intermediate-wet or water-wet after soaked in surfactants, cationic surfactant shows a better performance in changing contact angle while different kinds of surfactants have a similar ability in lowering IFT. In the soaking duration, NMR transverse relaxation time (T2) spectrum showed that oil recovered by counter-current imbibition mainly distributed in intervals of 10-1000 ms while oil remained uncovered mainly distributed in intervals of 0.1-10 ms. T2 spectrum moved towards left side and this indicated that aqueous phase migrate from larger pores to smaller ones. Both laboratory experiments and field applications have indicated that adding surfactants into fracturing fluids can significantly increase oil outputs for tight oil-wet reservoirs. Application of this technology can be a good way to solve low production problems for this type of reservoir.
Conventional and Non-Conventional Fuel
Petroleum Geology and Geo-Physical Exploration
Hydraulic Fracturing
Petro-Chemistry and Petro-Physics
Petroleum Distillation and Refining
Reservoir Engineering and Reservoir Simulation
Computational Modeling Techniques
Crude Oil Processing and Desulphurization
Advance Drilling Technologies and Safety
Global Crisis and Major Challenges in Petroleum Engineering