Research Progress of Smart Plugging Materials for Drilling Fluid
PAN Yi1, XU Minglei1, GUO Qi2, LIAO Guangzhi3, YANG Shuangchun1,*, Kantoma Daniel Bala4
1 College of Petroleum Engineering, Liaoning Shihua University, Fushun 113001, China 2 Beijing Aeronautical Technology Research Centre, Beijing 100076, China 3 College of Geophysics, China University of Petroleum (Beijing), Beijing 102249, China 4 International Education College, Liaoning Shihua University, Fushun 113001, China
Abstract: The research and potential application of smart plugging materials for drilling fluid (SPMDF) has become a novel trend of petroleum industry. Smart plugging materials can respond to circumstance change, and thus own superior adaptability compared with thetraditional plugging materials. Moreover, SPMDF are also featured by particularity in application, excellent plugging effect, and little damage to rock formations. Worldwide studies of the smart plugging materials are concentrated mainly on intelligent gels and shape memory materials currently. Intelligent gels have better fluidity and self-adaptability, which enable them cope with various formation pore sizes, and transform among different colloidal states under different formation temperatures. Besides, the plugging efficiency can be improved by controlling the gelling time. The development of smart plugging products based on shape memory materials acquire, by contrast, relatively more attention. These products can be divided into shape memory polymers and shape memory alloys. Shape memory alloys have outstanding ductility and fatigue resistance, and despite the small deformation, possess high compressive strength. In addition, shape memory alloys can easily form the network structure which obviously improve the bridge plugging and enhance the plugging capacity. On the other hand, shape memory polymers have large deformation ability, low raw material cost and good plasticity. Therefore they might help to reduce the reservoir pollution, and to effectively tackle the leakage problem in complica-ted stratum. This article gives an elaborate description of global research progress in SPMDF, involving the development, characteristics and potential applications of intelligent gels and shape memory plugging materials. It also introduces some new types of smart plugging materials which deserve further investigation.
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