Processes, Vol. 13, Pages 4031: Experimental Research on Surfactant Flooding and Design of Integrated Schemes for Energy Storage Fracturing and Production in Tight Sandstone Reservoirs

Processes doi: 10.3390/pr13124031

Authors:
Yujie Zhang
Zhiyang Pi
Gang Hui
Ruihan Zhang
Feng Ni
Ye Li
Chenqi Ge
Penghu Bao
Yujie Zhang
Xing Yang
Dan Wu
Yunli Lu
Fei Gu

The WieZhou12 oilfield (also known as WZ12 oilfield, the same below) is in urgent need of development using large-scale volumetric fracturing technology since it is a typical complex fault-block oilfield with low porosity, low permeability, and no natural production capacity. To study the fracturing measures with surfactants in offshore oilfields like WZ12, the surfactant fracturing fluid types were experimentally selected based on their effect of decreasing interfacial tension and enhancing matrix wettability. The water cut law and oil displacement efficiency in displacement experiments were also analyzed, according to surfactant type and fluid characteristics. Next, using the numerical simulation software CMG, the study completed the integrated simulation of volumetric fracturing in the “injection–soaking–flowback” process. Finally, some critical parameters were optimized for the block model, including the quantity of injected fluids, the soaking time, and the rate of fluid flowback. The results showed that the most suitable surfactant was 0.5% ammonium lauryl polyether sulfate (ALES), which had a low interfacial tension of 1.7 × 10−2 mN/m, a contact angle of 20.071° with the core, and a 52% oil displacement efficiency. From the simulations, the suggested production parameters for energy storage fracturing are as follows: a daily injection volume of 600 m3/d, a soaking time of 25 days post fracturing, and a fluid production rate of 270 m3/d. The findings of this study establish a significant theoretical foundation for optimizing surfactant type and provide construction advice for the integrated measure of fracturing, well shut-in, and production in offshore oilfields.

Source link

Yujie Zhang www.mdpi.com