Molecular dynamics simulation for interaction of PESA and acrylic copolymers with calcite crystal surfaces

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• 作者：Wen-Yan Shi^a ; ^c ; ^{waterswy@126.com} ; Cheng Ding^b ; Jin-Long Yan^b ; Xiang-Yun Han^b ; Zhi-Min Lv^a ; ^{y_clzm@126.com} ; Wu Lei^c ; Ming-Zhu Xia^c ; Feng-Yun Wang^c
• 关键词：Polyepoxysuccinic acid ; Acrylic copolymer ; Molecular dynamics simulation ; Scale inhibition mechanism ; Pair correlation function
• 刊名：Desalination
• 出版年：2012
• 期刊代码：24_00119164
• 类别：ce
• 出版时间：2 April, 2012
• 卷：291
• 期：Complete
• 页码：8-14
• 文件大小：1181 K

摘要

The interactions between four scale inhibitors, namely, polyepoxysuccinic acid (PESA), acrylic acid-maleic acid copolymer[P(AA-co-MA)], acrylic acid-hydroxypropyl acrylate copolymer[P(AA-co-HPA)], acrylic acid-methyl acrylate copolymers[P(AA-co-MAE)] and (104), ()surfaces of calcite crystal are simulated using a molecular dynamics (MD) method. The results show that the order of corrected binding energy of the four polymers is as follows: PESA > [P(AA-co-MA)] > [P(AA-co-HPA)] > [P(AA-co-MAE)]; however, the interaction of polymers with the () surface is significantly stronger (2.5 to 2.8 times) than that with the (104) surface. The binding energy is mainly provided by the ionic bond and the Coulomb interaction, which is verified by analysis of pair correlation functions. The structures of the polymers are deformed during their combining processes with the surfaces. However, the deformation energies are far less than their nonbonding energies respectively. With increasing processing temperature, both the binding energy and the corrected binding energy decrease. The simulation results agree with the static anti-scaling experimental results, which indicate the simulation is correct and reasonable. The simulation results provide theoretical knowledge to assess the performance of scale inhibitors and to synthesize new, highly effective water treatment agents.