[1] 姚倩,徐禄江,张颖.催化快速热解生物质制备高附加值化学品研究进展[J].林产化学与工业,2015,35(4):138-144. YAO Q,XU L J,ZHANG Y.Production of high value-added chemicals by catalytic fast pyrolysis of biomass[J].Chemistry and Industry of Forest Products,2015,35(4):138-144. [2] LIU C J,WANG H M,KARIM A M,et al.Catalytic fast pyrolysis of lignocellulosic biomass[J].Chemical Society Reviews,2014,43(22):7549-7623. [3] YILDIZ G,RONSSE F,DUREN R,et al.Challanges in the design and operation of processes for catalytic fast pyrolysis of woody biomass[J].Renewable and Sustainable Energy Reivews,2016,57:1596-1610. [4] FABA L,DIAZ E,ORDONEZ S.Recent developments on the catalytic technologies for the transformation of biomass into biofuels:A patent survey[J].Renewable and Sustainable Energy Reivews,2015,51:273-287. [5] 林冠烽,蒋剑春,吴开金,等.磷酸活化发制备纤维素基颗粒活性炭[J].林产化学与工业,2014,34(1):101-106. LIN G F,JIANG J C,WU K J,et.al.Preparation of cellulose-based cranular activated carbon using phosphoric acid as activator[J].Chemistry and Industry of Forest Products,2014,34(1):101-106. [6] NOWAKOWSKI D J,WOODBRIDGE C R,JONES J M.Phosphorus catalysis in the pyrolysis behaviour of biomass[J].Journal of Analytical and Applied Pyrolysis,2008,83(2):197-204. [7] SKRIPCHENTEO T,DOMBURG G,LUKSA R.Polyconjugated systems formed during thermal treatment of cellulose[J].Thermochimica Acta,1985,93:417-420. [8] DOBELE G,MEIER D,FAIX O,et al.Volatile products of catalytic flash pyrolysis of celluloses[J].Journal of Analytical and Applied Pyrolysis,2001,58/59:453-463. [9] DOBELE G,ROSSINSKAJA G,DIZHBITE T,et al.Application of catalysts for obtaining 1,6-anhydrosaccharides from cellulose and wood by fast pyrolysis[J].Journal of Analytical and Applied Pyrolysis,2005,74(1/2):401-405. [10] ZANDERSONS J,ZHURINSH A,DOBELE G,et al.Feasibility of broadening the feedstock choice for levoglucosenone production by acid pre-treatment of wood and catalytic pyrolysis of the obtained lignocellulose[J].Journal of Analytical and Applied Pyrolysis,2013,103:222-226. [11] ZHANG Z B,LU Q,YE X N,et al.Selective production of levoglucosenone from catalytic fast pyrolysis of biomass mechanically mixed with solid phosphoric acid catalysts[J].BioEnergy Research,2015,8(3):1263-1274. [12] LEWIS D,KEIL M,SARR M.Gas phase thermal decomposition of tert-butyl alcohol[J].Journal of the American Chemical Society,1974,96(14):4398-4404. [13] TSANG W.Thermal stability of alcohols[J].International Journal of Chemical Kinetics,1976,8(2):173-192. [14] BOUCHOUX G,CHORET N,FLAMMANG R.Unimolecular chemistry of protonated diols in the gas phase:Internal cyclization and hydride ion transfer[J].The Journal of Physical Chemistry A,1997,101(23):4271-4282. [15] NIMLOS M R,BLANKSBY S J,QIAN X,et al.Mechanisms of glycerol dehydration[J].The Journal of Physical Chemistry A,2006,110(18):6145-6156. [16] JULIEN S,CHORNET E,OVEREND R P.Influence of acid pretreatment (H2SO4,HCl,HNO3) on reaction selectivity in the vacuum pyrolysis of cellulose[J].Journal of Analytical and Applied Pyrolysis,1993,27(1):25-43. [17] PECHA B,ARAUZO P,GARCIA-PEREZ M.Impact of combined acid washing and acid impregnation on the pyrolysis of Douglas fir wood[J].Journal of Analytical and Applied Pyrolysis,2015,114:127-137. [18] DOBELE G,DIZHBITE T,ROSSINSKAJA G,et al.Pre-treatment of biomass with phosphoric acid prior to fast pyrolysis:A promising method for obtaining 1,6-anhydrosaccharides in high yields[J].Journal of Analytical and Applied Pyrolysis,2003,68/69:197-211. [19] DOBELE G,ROSSINSKAJA G,TELYSHEVA G,et al.Cellulose dehydration and depolymerization reactions during pyrolysis in the presence of phosphoric acid[J].Journal of Analytical and Applied Pyrolysis,1999,49(1/2):307-317. [20] KOHN W,BECKE A D,G.PARR R.Density functional theory of electronic structure[J].The Journal of Physical Chemistry,1996,100(31):12974-12980. [21] BECKE A D.Density-functional exchange-energy approximation with correct asymptotic behavior[J].Physical Review A,1988,38(6):3098-3100. [22] FRISCH M J,TRUCKS G W,SCHLEGEL H B,et al.Gaussian 09,Revision D.01[M].Gaussian,Inc,Wallingford CT,2013. [23] BECKE A D.Density-functional thermochemistry.III.The role of exact exchange[J].The Journal of Chemical Physics,1993,98(7):5648-5652. [24] HAMPRECHT F A,COHEN A J,TOZER D J,et al.Development and assessment of new exchange-correlation functionals[J].The Journal of Chemical Physics,1998,109(15):6264-6271. [25] WONG M W.Vibrational frequency prediction using density functional theory[J].Chemical Physics Letters,1996,256(4/5):391-399. [26] GONZALEZ C,SCHLEGEL H B.An improved algorithm for reaction path following[J].The Journal of Chemical Physics,1989,90(4):2154-2161. [27] GONZALEZ C,SCHLEGEL H B.Reaction path following in mass-weighted internal coordinates[J].The Journal of Physical Chemistry,1990,94(14):5523-5527. [28] DOMINGO L R,ARN M,ANDR S J.Toward an understanding of molecular mechanism of domino cycloadditions.Density functional theory study of the reaction between hexafluorobut-2-yne and N,N'-dipyrrolylmethane[J].Journal of the American Chemical Society,1998,120(7):1617-1618. [29] GOLDSTEIN E,BENO B,HOUK K N.Density functional theory prediction of the relative energies and isotope effects for the concerted and stepwise mechanisms of the Diels Alder reaction of butadiene and ethylene[J].Journal of the American Chemical Society,1996,118(25):6036-6043. [30] PEVERATI R,TRUHLAR D G.Improving the accuracy of hybrid meta-GGA density functionals by range separation[J].The Journal of Physical Chemistry Letters,2011,2(21):2810-2817. [31] UDDIN N,GHOSH M K,CHOI T H,et al.Gauche effects of glucopyranose by QM/MM-MD simulations[J].Theoretical Chemistry Accounts,2015,134:122. [32] HOSOYA T,SAKAKI S.Levoglucosan formation from crystalline cellulose:Importance of a hydrogen bonding network in the reaction[J].ChemSusChem,2013,6(12):2356-2368. |