1. 毕业设计（论文）的内容和要求

1） 温习各种查阅文献的方法，在此基础上阅读大量与课题相关资料（尤其是外文文献），及时了解国内外有关旋涡泵、气液混合工作机理以及纳米碳酸钙生产的研究进展。

2） 遵守实验章程，规范实验操作，端正实验态度，并熟练使用各种常规实验仪器。

3） 能够分析和解决实验中出现的各种实验现象，基本具备独立实验能力。

2. 参考文献

[1] S. Chaemchuen, N.A. Kabir, K. Zhou, F. Verpoort, Metal-organic frameworks for upgrading biogas via CO2 adsorption to biogas green energy, Chemical Society reviews 42 (2013) 9304-9332. [2] N. Abatzoglou, S. Boivin, A review of biogas purification processes, Biofuel Bioprod Bior 3 (2009) 42-71. [3] A. Makaruk, M. Miltner, M. Harasek, Membrane biogas upgrading processes for the production of natural gas substitute, Sep Purif Technol 74 (2010) 83-92. [4] W.J. Nock, M. Walker, R. Kapoor, S. Heaven, Modeling the Water Scrubbing Process and Energy Requirements for CO2 Capture to Upgrade Biogas to Biomethane, Industrial Engineering Chemistry Research 53 (2014) 12783-12792. [5] Y.S. Liu, H. Li, G.F. Wei, H. Zhang, X.K. Li, Y.X. Jia, Mass transfer performance of CO2 absorption by alkanolamine aqueous solution for biogas purification, Sep Purif Technol 133 (2014) 476-483. [6] M.P.S. Santos, C.A. Grande, A.E. Rodrigues, Dynamic Study of the Pressure Swing Adsorption Process for Biogas Upgrading and Its Responses to Feed Disturbances, Industrial Engineering Chemistry Research 52 (2013) 5445-5454. [7] S. Basu, A.L. Khan, A. Cano-Odena, C. Liu, I.F. Vankelecom, Membrane-based technologies for biogas separations, Chemical Society reviews 39 (2010) 750-768. [8] S.M. El-Sheikh, S. El-Sherbiny, A. Barhoum, Y. Deng, Effects of cationic surfactant during the precipitation of calcium carbonate nano-particles on their size, morphology, and other characteristics (vol 422, pg 44, 2013), Colloids and Surfaces a-Physicochemical and Engineering Aspects 453 (2014) 177-177. [9] A. Sanna, M. Uibu, G. Caramanna, R. Kuusik, M.M. Maroto-Valer, A review of mineral carbonation technologies to sequester CO2, Chemical Society reviews 43 (2014) 8049-8080. [10] K. Wang, Y.J. Wang, G.G. Chen, G.S. Luo, J.D. Wang, Enhancement of mixing and mass transfer performance with a microstructure minireactor for controllable preparation of CaCO3 nanoparticles, Industrial Engineering Chemistry Research 46 (2007) 6092-6098. [11] G. Luo, X. Chen, Y. Wang, G. Chen, K. Wang, X. Chen, L. Du, J. Xu, Method for preparing nanometer calcium carbonate by high-efficiency mixing, (Shandong Haize Nanomaterials Co., Ltd., Peop. Rep. China; Tsinghua University). Application: CN CN, 2006, pp. 8 pp. [12] Z. Jia, Q. Chang, J. Qin, X. Hong, Preparation of nanoparticles with a gas-liquid membrane contactor, Journal of Membrane Science 342 (2009) 1-5. [13] Z. Jia, Q. Chang, J. Qin, H. Sun, Preparation of nanoparticles with a continuous gas-liquid membrane contactor: Absorption process, Journal of Membrane Science 352 (2010) 50-54. [14] Q. Chang, Z. Jia, J. Qin, Progress of membrane gas-liquid contacting process, Membrane Science and Technology 30 (2010) 106-111. [15] Z. Jia, Q. Chang, A. Mamat, Preparation of nanoparticles with a semi-batch gas-liquid membrane contactor, Chemical Engineering and Processing 50 (2011) 810-814. [16] Z. Jia, Q. Chang, J. Qin, A. Mamat, Preparation of Calcium Carbonate Nanoparticles with a Continuous Gas-liquid Membrane Contactor: Particles Morphology and Membrane Fouling, Chinese Journal of Chemical Engineering 21 (2013) 121-126. [17] J. Zhou, X. Cao, X.-y. Yong, S.-y. Wang, X. Liu, Y.-l. Chen, T. Zheng, P.-k. Ouyang, Effects of Various Factors on Biogas Purification and Nano-CaCO3 Synthesis in a Membrane Reactor, Industrial Engineering Chemistry Research 53 (2014) 1702-1706. [18] E. Drioli, A. Criscuoli, E. Curcio, Membrane Contactors: Fundamentals, Applications and Potentialities: Fundamentals, Applications and Potentialities, Elsevier2011. [19] F. Bougie, M.C. Iliuta, Analysis of Laplace-Young equation parameters and their influence on efficient CO2 capture in membrane contactors, Sep Purif Technol 118 (2013) 806-815. [20] S. Kango, S. Kalia, A. Celli, J. Njuguna, Y. Habibi, R. Kumar, Surface modification of inorganic nanoparticles for development of organic-inorganic nanocomposites-A review, Progress in Polymer Science 38 (2013) 1232-1261. [21] M. Khemakhem, S. Khemakhem, R. Ben Amar, Emulsion separation using hydrophobic grafted ceramic membranes by, Colloids and Surfaces a-Physicochemical and Engineering Aspects 436 (2013) 402-407. [22] N.A. Ahmad, C.P. Leo, A.L. Ahmad, Synthesis of superhydrophobic alumina membrane: Effects of sol-gel coating, steam impingement and water treatment, Applied Surface Science 284 (2013) 556-564. [23] J. Kujawa, W. Kujawski, S. Koter, A. Rozicka, S. Cerneaux, M. Persin, A. Larbot, Efficiency of grafting of Al2O3, TiO2 and ZrO2 powders by perfluoroalkylsilanes, Colloids and Surfaces a-Physicochemical and Engineering Aspects 420 (2013) 64-73. [24] L. Xiang, Y. Xiang, Z.G. Wang, Y. Jin, Influence of chemical additives on the formation of super-fine calcium carbonate, Powder Technology 126 (2002) 129-133. [25] X. Yan, J. Shu, Study on mechanism of carbonation of super-fine calcium carbonate, New Chemical Materials 33 (2005) 43-45,62. [26] C.P.a.C.I. Association, Nanoscale calcium carbonate, 2011. [27] M.? Older鴜, M. Xie, B.L. Strand, E.M. Flaten, P. Sikorski, J.-P. Andreassen, Growth and nucleation of calcium carbonate vaterite crystals in presence of alginate, Crystal Growth Design 9 (2009) 5176-5183.

3. 毕业设计（论文）进程安排

2016.02.20~2016.03.30 查阅文献资料，熟悉课题并设计实验方案 2016.04.01~2016.04.10 初步实验。

2016.04.11~2016.05.10 中期汇报，完善实验方案，进行具体的实验 2016.05.11~2016.05.20 整理实验数据，总结实验结果 2016.05.21~2016.06.10 撰写毕业论文，论文答辩