Author(s)

Qichao Cao, Xintong Li, Xiong Wang, Song Wang^*

Yangtze University, Jingzhou, China.

Most of the oil wells enter the middle and late stages of extraction. After one oil extraction, water injection is needed for secondary extraction. With a large amount of calcium and magnesium ions in the water, which is easy to form a large amount of insoluble scale, its formed barium sulfate and strontium sulfate scale are more difficult to handle than carbonate scale. In order to reduce the difficulty of oil production work, this paper mainly targeted the sulfate scale for experiments, and prepared the scale retardant agent CQC-1. Through orthogonal experimental screening, the mass ratio of itaconate acid:methacrylic acid:AMPS:sodium acrylic sulfonate was 2:1:1:1, increase the amount of evocating agent was 8% and the reaction time was 4h, the sulfate scale inhibitor synthesized at the temperature of 80°C had the best performance. Using scale resistance rate, degradation and salt-resistance, the experimental results showed that the scale resistance rate of CQC-1 reached 90.46%. In the four-week degradation experiment, the degradation rate reached over 71% and was maintained by 80.65% at 150°C, while the scale resistance rate still reached 80.35% in simulated saline. It has excellent scale resistance, temperature resistance, salt-resistance and degradation, and has good development prospects.

Scale Resistance Agent, Synthetic Monomer, Synthetic Conditions, Performance Evaluation, Scale Resistance Rate

Cao, Q. , Li, X. , Wang, X. and Wang, S. (2022) Synthesis and Evaluation of CQC-1—An Oil Field Scale Inhibitor. Open Journal of Yangtze Oil and Gas, 7, 13-25. doi: 10.4236/ojogas.2022.71002.