Abstract
Water-based drilling fluids are extensively used for drilling oil and gas wells. However, water-based muds cause clay swelling, which severely affects the stability of wellbore. Due to two adsorption positions, it is expected that cationic gemini surfactants can reduce the clay swelling. In this work, quaternary ammonium dicationic gemini surfactants containing phenyl linkers and different counterions (Cl− and Br−) were synthesized, and the effect of variation in counterions on swelling and hydration properties of shales was studied. Numerous water-based drilling fluid formulations were prepared with different concentrations of surfactants to study the swelling inhibition capacity of surfactants. The performance of surfactant-containing drilling muds was evaluated by comparing them with base drilling mud, and sodium silicate drilling mud. Various experimental techniques were employed to study drilling mud characteristics such as rheology and filtration. The inhibition properties of drilling mud formulations were determined by linear swelling experiment, capillary suction time test, particle size distribution measurement, wettability measurements, and X-ray Diffraction (XRD). Experimental results showed that surfactant-based formulation containing bromide counterion exhibited superior rheological properties as compared to other investigated formulations. The filtration test showed that the gemini surfactant with chloride counterion had higher filtrate loss compared to all other formulations. The bentonite swelling was significantly reduced with increasing the concentration of dicationic surfactants as inhibitors, and maximum reduction in the linear swelling rate was observed by using a formulation containing surfactant with chloride counterion. The lowest capillary suction timer (CST) was obtained in the formulation containing surfactant with chloride counterion as less CST indicated the enhanced inhibition capacity. The particle size measurement showed that average bentonite particle size increased upon the addition of surfactants depicting the inhibition capacity. The increase in basal spacing obtained from XRD analysis showed the intercalation of gemini surfactants in interlayers of bentonite. The contact angle measurements were performed to study the wettability of the bentonite film surface, and the results showed that hydrophobicity increased by incorporating the surfactants to the drilling fluid.
Highlights
The growing demand for fossil fuels due to the increased population has shifted the paradigm of the oil and gas industry to develop unconventional reservoirs [1,2,3]
The rheological properties of drilling fluids play an essential role in the smooth drilling operation
The designing of drilling fluid properties with appropriate drilling fluid additives is significant to control its effect on drilled cutting transport, cutting suspension capacity, and circulation of fluid around the pipes in the wellbore
Summary
The growing demand for fossil fuels due to the increased population has shifted the paradigm of the oil and gas industry to develop unconventional reservoirs [1,2,3]. The extraction of oil and gas from shale reservoirs has increased in order to meet the current and future expected demand for oil and gas resources [4]. Shale reservoir formations mainly comprise of water-sensitive clay minerals such as smectite, illite, montmorillonite, and kaolinite [5,6]. Shale reservoir drilling operations often result in complicated wellbore instability problems due to the swelling of sensitive clay minerals present in the shale formations. The design and selection of drilling fluid play a significant role in minimizing the wellbore instability problems [7,8,9,10]
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