关键词: 聚丙烯酰胺凝胶; 三羟甲基苯酚; 计算机模拟; 交联机理

Abstract:

The polyacrylamide gel crosslinked by the prepolymer of phenol and formaldehyde is a kind of chemical flooding agent with excellent temperature and salt resistant properties during the enhanced oil reco-very(EOR). But its cross-linking reactive mechanism is not clear for a long time. In this article, the cross-linking mechanism of polyacrylamide/resol was studied by density-functional theory, molecular mechanic and molecular dynamic methods base on computer simulation. Firstly, propionamide(PA) and 2,4,6-trihydroxy-methylphenol(THP) were looked as model compounds, Gibbs free energy(ΔG) and energy of barrier for transition states involved were calculated by density-functional theory. The results showed that both PA/THP and THP/THP condensation reactions can happen from thermodynamics, while their reaction energies of barrier are different. The energy of barrier for the ortho-position condensation reaction of PA/THP is 64.54 kJ/mol, lowest among the reactions. Secondly, base on the above conclusions, the cross-linking structure of PA/THP was constructed, and found that the reacted —CONH₂ is occupied 60% on the total —CONH₂ according to the account. At last, the crosslinked products were characterized by X-ray photoelectron spectroscopy. The results show that the numbers ratio of —NH— and —NH₂ reached 1.5∶1 in the final products, and validated the results of computer simulation.

Key words: Polyacrylamide resol; Trihydroxymethylphenol; Computer simulation; Crosslinking mechanism