STUDY ON STRUCTURAL PARAMETERS AFFECTING EVAPORATION LOSS OF ALKYL AROMATICS

Abstract

Abstract: Considering the close relationship between the evaporation loss and boiling point of base oil at lower pressure and the shortcomings of existing analysis methods, the structures of 106 kinds of alkylaromatics and their boiling points at 1 333.22 Pa were collected. Based on the data, the Eigenvalues of microstructures such as energies of frontier obitals and charge distributions and topological indexes were calculated by molecular simulation method. GFA method was selected to elucidate the relationship between the structures of alkyl aromatics and their boiling points at 1333.22Pa pressure, resulting in a quantitative equation with the square of correlation coefficient of 0.978 and the square of cross-validated coefficient of 0.962, which means that the equation has a strong predictability for boiling points of alkylaromatics at 1333.22Pa pressure, so as for its evaporation loss. The equation has clear physical meanings, which showed that LUMO-HOMO gap，molecular polarizability, and radius of gyration of alkyl aromatics were the three main structural parameters for prediction of boiling point at 1333.22Pa pressure. The narrower the LUMO-HOMO gap, the higher the molecular polarizability and the larger the radius of gyration, then the higher the boiling point at 1333.22Pa pressure, the greater the evaporation difficulty and the lower the evaporation loss. The established equation with these three structural parameters could be used to predict the boiling points of alkyl aromatics at 1333.22Pa pressure accurately.

Key words: alkylaromatics, structural parameter, evaporation loss, boiling point, quantitative relationship

CLC Number:

References

[1]马道林.级柴油机油的研制[J].石油炼制与化工, 1996, 27(5):40-45 [2]杨政，孙梅等.级通用内燃机油的研制[J].石油炼制与化工, 1996, 27(11):1-8 [3]祖德光，梁红等.润滑油基础油新系列标准的制订及产品研制[J].石油炼制与化工, 1996, 27(9):40-46 [4]李凤兰，鲍天骄等.蒸发损失在航空润滑脂选材中的应用[J].测控技术, 2013, 32(增刊):351-354 [5]秦立新.内燃机油的多级化及其对蒸发损失的要求[J].润滑油, 1992, 7(2):35-38 [6] L.R. RUDNICK L R. Alkylated aromatics in synthetics, mineral oils, and bio-based lubricants[M], Taylor & Francis, BocoRaton, 2006:139-155 [7]Hessell E T, Abramshe R A.Alkylated naphthalenes as high-performance synthetic fluids[J].Journal of Synthetic Lubrication, 2003, 20(2):109-122 [8]梁宇翔，焦广文.长链烷基萘合成工艺研究[J].石油炼制与化工, 2009, 40(3):22-25 [9] 陈晓伟，梁宇翔.液体空间润滑剂的现状与发展[J]. 润滑与密封, 2006(6), 176-178. [10]杨士钊，胡建强，郭力，宗营.合成润滑材料[J].Synthetic Lubricants, 2012, 39(1):24-26 [11]宋上飞，刘青才，吕升阳.三氟甲磺酸催化萘烷基化研究[J].石油炼制与化工, 2018, 49(5):71-74 [12]汪廷贵，张乐涛，蔡国星，吾满江·艾力.一种烷基萘基础油的合成及润滑性能研究[J].石油炼制与化工, 2013, 44(11):96-99 [13]陆沁莹，李桂华.热重诺亚克法——一种新型的润滑油蒸发损失测定方法[J].润滑油, 2004, 19(2):47-49 [14]郎需进，潘晓霞等.大气压对润滑油蒸发损失的影响分析[J].润滑油, 2015, 30(3):39-41 [15] Whltmore F C, Schlessler R W, Dixon J A, etc.Properties of hydrocarbons of high molecular weight[R], Research project 42 of the American petroleum institute, UNIVERSITY PARK, PENNSYLVANIA, 1966 [16] George E P, HUNTER J, Gordon H W.Statistics for experimenters: An introduction to design, data analysis, and model building[M], Wiley series in probability and Mathematical statistics, New York: John Wiley & Sons, 1978 :651-653 . [17] Draper N R, Smith H.Applied Regression Analysis [M]. Weinheim: Wiley-Interscience, 1998:360-429 [18] Friedman J H.Multivariate adaptive regression splines, technical report No. 102[D]. Stanford: Stanford University, 1990. [19] STANTON D, JURS P.Development and use of charged partial surface area structural descriptors in computer assisted quantitative structure property relationship studies[J]. Analytical Chemistry, 1990, 62:2323-2329 [20] Wiener H.Structural determination of paraffin boiling points[J]. Journal of Chemical Physicals, 1947, 69:17-20 [21] Muller W R.An algorithm for construction of the molecular distance matrix[J]. Journal of Computational Chemistry, 1987, 8:170-173 [22] Bonch E D.Information Theoretic Indices for Characterization of Chemical Structures[M]. Chemometrics Series, Vol. 5, New York: Research Studies Press Ltd., 1983:1-108 [23] Hall L H, Kier L B.Electrotopological state indices for atom types: A novel combination of electronic, topological and valence state information[J]. Journal of Chemical Information and Computer Science, 1995, 35:1039-1045 [24] TOPLISS J G, EDWARDS R P.Chance factors in studies of quantitative structure-activity relationships[J]. Journal of Medicinal Chemistry, 1979, 22:1238-1247 [25] STAH LE L, WOLD S.Progress of Medical Chemistry, Vol 25[M]. Amsterdam, Elsevier, 1988:12-142 [26] John H K.Molecular Thermodynamics: an Introduction to Statistical Mechanics for Chemists[M], John Weley & Sons, New York, 1980:95