Affiliation:
1. College of Chemistry & Environmental Engineering Yangtze University Jingzhou Hubei China
2. Hubei Engineering Research Centers for Clean Production and Pollution Control of Oil and Gas Fields Jingzhou Hubei China
3. Key Laboratory of Computational Geodynamics, Chinese Academy of Sciences; College of Earth and Planetary Sciences University of Chinese Academy of Sciences Beijing China
4. Nanniwan Oil Production Plant of Yanchang Oilfield Co., Ltd Yan'an Shaanxi China
Abstract
AbstractTo solve problems such as inadequate proppant carrying capacity, a complex viscosity changing process, and limited environmental friendliness associated with traditional slick water fracturing fluids, a variable viscosity friction reducer called Jianghan friction reducer (JHFR) with low damage, high drag reduction, and strong proppant‐carrying capacity is prepared by inverse emulsion polymerization. The properties of JHFR are investigated by viscometer, JHFR‐II high‐temperature and high‐pressure slick water drag reduction rate tester, surface tension meter, and JHCQ Core dynamic damage evaluation device. The result shows that the dissolution time of JHFR is less than 120 s. The drag reduction of 0.08 wt% JHFR (4.83 mPa s) is 80.3%. When the concentration of JHFR increases from 0.08 to 0.8 wt %, the viscosity of the JHFR increases from 4.83to 97.41 mPa s. After sheared at 90°C and 170 s−1 for 60 min, the viscosity of 0.8 wt% JHFR still maintains 51 mPa s. The damage rate of JHFR to core matrix permeability is lower than 30%. JHFR also shows the advantages of easy breakage and low residue. It provides guidance for the design and selection of fracturing fluid for unconventional oil and gas reservoir development.
Funder
National Natural Science Foundation of China