1. 毕业设计（论文）的内容和要求

内容： 本课题毕业论文最终分为四个章节，分别为研究背景、计算模拟、结果讨论和结论展望。

要求： 掌握熟练查阅中外文文献资料的方法，了解课题的研究背景以及研究意义。

文献阅读篇数至少不低于10篇,同时，翻译一篇相关的外文文献。

2. 参考文献

1. Ji, X., C. Held and G. Sadowski, Modeling imidazolium-based ionic liquids with ePC-SAFT. Part II. Application to H2S and synthesis-gas components. Fluid Phase Equilibria, 2014. 363: p. 59-65. 2. Ji, X. and C. Held, Modeling the density of ionic liquids with ePC-SAFT. Fluid Phase Equilibria, 2016. 410: p. 9-22. 3. Held, C., L.F. Cameretti and G. Sadowski, Modeling aqueous electrolyte solutions. Fluid Phase Equilibria, 2008. 270(1-2): p. 87-96. 4. Allal, A., C. Boned and A. Baylaucq, Free-volume viscosity model for fluids in the dense and gaseous states. Phys Rev E Stat Nonlin Soft Matter Phys, 2001. 64(1 Pt 1): p. 011203. 5. Cameretti, L.F., G. Sadowski and J.M. Mollerup, Modeling of Aqueous Electrolyte Solutions with Perturbed-Chain Statistical Associated Fluid Theory. Industrial Engineering Chemistry Research, 2005. 44(9): p. 3355-3362 6. Shen, G., et al., Modeling the Viscosity of Ionic Liquids with the Electrolyte Perturbed-Chain Statistical Association Fluid Theory. Industrial Engineering Chemistry Research, 2014. 53(52): p. 20258-20268. 7. Ji, X., C. Held and G. Sadowski, Modeling imidazolium-based ionic liquids with ePC-SAFT. Fluid Phase Equilibria, 2012. 335: p. 64-73. 8. Sun,Y., et al., Modeling Viscosity of Ionic Liquids with Electrolyte Perturbed-Chain Statistical Associating Fluid Theory and Free Volume Theory. Industrial Engineering Chemistry Research, 2018. 57(26): p. 8784-8801. 9. Polishuk, I., R. Privat and J. Jaubert, Novel Methodology for Analysis and Evaluation of SAFT-Type Equations of State. Industrial Engineering Chemistry Research, 2013. 52(38): p. 13875-13885. 10. Fillion, J.J. and J.F. Brennecke, Viscosity of Ionic Liquid#8211;Ionic Liquid Mixtures. Journal of Chemical Engineering Data, 2017. 62(6): p. 1884-1901. 11. Gross, J. and G. Sadowski, Perturbed-Chain SAFT: An Equation of State Based on a Perturbation Theory for Chain Molecules. Industrial Engineering Chemistry Research, 2001. 40(4): p. 1244-1260.

3. 毕业设计（论文）进程安排

2019.2.8-2019.2.25 查阅资料，汇总文献中的粘度实验数据，熟悉研究方向，文献翻译。

2019.2.25-2019.3.4 熟悉程序代码。

2019.3.4-2019.3.18 正式开始回归纯离子液体参数，并完成题报告及其相关部分。