反气相色谱法与汉森溶解度参数软件测定原煤的三维溶解度参数
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摘要
采用反气相色谱法(IGC)研究原煤在温度433.15、443.15、453.15、463.15和473.15 K时的三维溶解度参数(HSP),并使用外推法得到原煤室温(298.15 K)时HSP的色散力分量(δd)、极性力分量(δp)、氢键力分量(δh)以及校正溶解度参数(δt)分别为δd=20.83(J·cm~(-3))~(1/2),δp=11.95(J·cm~(-3))~(1/2),δh=11.08(J·cm~(-3))~(1/2),δt=26.44(J·cm~(-3))~(1/2)。同时,采用汉森三维溶解度参数软件(HSPi P)模拟原煤在室温下的HSP,得到δd=19.92(J·cm~(-3))~(1/2),δp=11.18(J·cm~(-3))~(1/2),δh=11.47(J·cm~(-3))~(1/2),δt=25.56(J·cm~(-3))~(1/2)。IGC与HSPi P得出的数据一致,研究结果为煤的热力学性质研究及其溶胀剂的选择等应用提供了参考。
The three-dimensional solubility parameters(HSP) of raw coal were determined by inverse gas chromatography(IGC) in the temperature range 433.15 to 473.15 K. The HSP concept was applied to determine components(δd, δp and δh) of corrected solubility parameter(δt), and the HSP of raw coal was derived as δd=20.83(J·cm~(-3))~(1/2), δp=11.95(J·cm~(-3))~(1/2), δh=11.08(J·cm~(-3))~(1/2) and δt=26.44(J·cm~(-3))~(1/2) by extrapolation method at room temperature(298.15 K), the HSP of raw coal that was measured as δd=19.92(J·cm~(-3))~(1/2), δp=11.18(J·cm~(-3))~(1/2), δh=11.47(J·cm~(-3))~(1/2) and δt=25.56(J·cm~(-3))~(1/2) by the HSPi P method at room temperature. The results are consistent through two approaches. The results of the study provide a reference for the study of the thermodynamic properties of coal and the choice of its swelling agent.
The three-dimensional solubility parameters(HSP) of raw coal were determined by inverse gas chromatography(IGC) in the temperature range 433.15 to 473.15 K. The HSP concept was applied to determine components(δd, δp and δh) of corrected solubility parameter(δt), and the HSP of raw coal was derived as δd=20.83(J·cm~(-3))~(1/2), δp=11.95(J·cm~(-3))~(1/2), δh=11.08(J·cm~(-3))~(1/2) and δt=26.44(J·cm~(-3))~(1/2) by extrapolation method at room temperature(298.15 K), the HSP of raw coal that was measured as δd=19.92(J·cm~(-3))~(1/2), δp=11.18(J·cm~(-3))~(1/2), δh=11.47(J·cm~(-3))~(1/2) and δt=25.56(J·cm~(-3))~(1/2) by the HSPi P method at room temperature. The results are consistent through two approaches. The results of the study provide a reference for the study of the thermodynamic properties of coal and the choice of its swelling agent.
引文
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[2]SHUI H,WANG Z,CAO M.Effect of pre-swelling of coal on its solvent extraction and liquefaction properties[J].Fuel,2008,87(13):2908-2913.
[3]ZHANG Y,GANGWANI K K,LEMERT R M.Sorption and swelling of block copolymers in the presence of supercritical fluid carbon dioxide[J].The Journal of Supercritical Fluids,1997,11(1):115-134.
[4]ERTAS D,KELEMEN S R,HALSEY T C.Petroleum expulsion(Ⅰ):Theory of kerogen swelling in multicomponent solvents[J].Energy&Fuels,2006,20(1):295-300.
[5]JONES M B,ARGASINSKI J K.Predictors of solvent effectiveness for dissolution of coal preasphaltenes[J].Fuel,1985,64(11):1547-1551.
[6]HOMBACH H P.General aspects of coal solubility[J].Fuel,1980,59(7):465-470.
[7]WEINBERG V L,YEN T F.‘Solubility parameters’in coal and coal liquefaction products[J].Fuel,1980,59(5):287-289.
[8]REDELIUS P.Solubility parameters and bitumen[J].Fuel,2000,79(1):27-35.
[9]BALTISBERGER R,WOOLSEY N,SCHWAN J,et al.Solubility parameter relationships between lignite derived asphaltenes and preasphaltenes[J].American Chemical Society Advances in Fuel Chemistry Division Preprints,1984,29:43-55.
[10]HANSEN C M.Hansen Solubility Parameters:a User’s Handbook[M].CRC Press,2007:2-6.
[11]HUGHES J M,AHERNE D,COLEMAN J N.Generalizing solubility parameter theory to apply to one-and two-dimensional solutes and to incorporate dipolar interactions[J].Journal of Applied Polymer Science,2013,127(6):4483-4491.
[12]PAINTER P C,GRAF J,COLEMAN M M.Coal solubility and swelling(Ⅰ):1.Solubility parameters for coal and the Flory?parameter[J].Energy&Fuels,1990,4(4):379-384.
[13]BUCKTON G,DOVE J W,DAVIES P.Isothermal microcalorimetry and inverse phase gas chromatography to study small changes in powder surface properties[J].International Journal of Pharmaceutics,1999,193(1):13-19.
[14]CORDEIROA N,ORNELAS M,ASHORI A,et al.Investigation on the surface properties of chemically modified natural fibers using inverse gas chromatography[J].Carbohydrate Polymers,2012,87(4):2367-2375.
[15]DIECKMANN F,KLINGER C,UHLMANN P,et al.Surface properties of polyamidines investigated by inverse gas chromatography[J].Polymer,2001,42(8):3463-3466.
[16]KO?ODZIEJEK J,G?óWKA E,HYLA K,et al.Relationship between surface properties determined by inverse gas chromatography and ibuprofen release from hybrid materials based on fumed silica[J].International Journal of Pharmaceutics,2013,441(1):441-448.
[17]LIU G Y,HOCH M,LIU S S,et al.Quantitative exploration of the swelling response for carbon black filled hydrogenated nitrile rubber with three-dimensional solubility parameters[J].Polymer Bulletin,2015,72(8):1961-1974.
[18]倪海月,任世学,方桂珍,等.反气相色谱法与Hansen溶解度参数法测定聚乙烯醇溶解度参数及相关热力学性质[J].色谱,2016,34(9):933-939.NI H Y,REN S X,FANG G Z,et al.Determination of solubility parameters and the related thermodynamic properties of polyvinyl alcohol using inverse gas chromatography and Hansen solubility parameters[J].Chinese Journal of Chromatography,2016,34(9):933-939.
[19]MUTELET F,BUTET V,JAUBERT J N.Application of inverse gas chromatography and regular solution theory for characterization of ionic liquids[J].Industrial&Engineering Chemistry Research,2005,44(11):4120-4127.
[20]WANG J,ZHANG Z,YANG X,et al.Determination of solubility parameter for dicationic ionic liquid by inverse gas chromatography[J].Chinese Journal of Chromatography,2009,27(4):480-483.
[21]KAYA I S,I LTER Z,?ENOL D.Thermodynamic interactions and characterisation of poly[(glycidyl methacrylate-co-methyl,ethyl,butyl)methacrylate]by inverse gas chromatography[J].Polymer,2002,43(24):6455-6463.
[22]NIEDERER B,LE A,CANTERGIANI E.Thermodynamic study of two different chewing-gum bases by inverse gas chromatography[J].Journal of Chromatography A,2003,996(1/2):189-194.
[23]OHTA M,OGUCHI T,YAMAMOTO K.Evaluation of solubility parameter to predict apparent solubility of amorphous and crystalline cefditoren pivoxil[J].Pharmaceutica Acta Helvetiae,1999,74(1):59-64.
[24]YAZICI O,SAKAR D,CANKURTARAN O,et al.Thermodynamical study of poly(n-hexyl methacrylate)with some solvents by inverse gas chromatography[J].Journal of Applied Polymer Science,2011,122(3):1815-1822.
[25]BOUTBOUL A,LENFANT F,GIAMPAOLI P,et al.Use of inverse gas chromatography to determine thermodynamic parameters of aroma-starch interactions[J].Journal of Chromatography A,2002,969(1/2):9-16.
[26]PRICE G J,SHILLCOCK I M.Inverse gas chromatographic measurement of solubility parameters in liquid crystalline systems[J].Journal of Chromatography A,2002,964(1):199-204.
[27]BARTON A F M.CRC Handbook of Solubility Parameters and Other Cohesion Parameters[M].2nd ed.CRC Press,1991:123-138
[28]GUILLET J E,ROMANSKY M,PRICE G J,et al.Studies of polymer structure and interactions by automated inverse gas chromatography[M]//Inverse Gas Chromatography.American Chemical Society,1989:20-32.
[29]YOO B,AFZAL W,PRAUSNITZ J M.Solubility parameters for nine ionic liquids[J].Industrial&Engineering Chemistry Research,2012,51(29):9913-9917.
[30]DW V K.Chemical structure and properties of coal(ⅩⅩⅦ):Coal constitution and solvent extraction[J].Fuel,1966,45:229.
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