Heteropoly acids as catalysts for liquid-phase esterification and transesterification

Abstract Esterification of hexanoic acid and transesterification of ethyl propanoate and ethyl hexanoate with excess methanol (1:20 molar ratio) are tested at 60 °C and ambient pressure with a range of HPA catalysts in homogeneous and heterogeneous systems in comparison with conventional homogeneous and solid acid catalysts such as H2SO4, Amberlyst-15 and zeolites HY and H-Beta. The intrinsic catalytic activity (turnover frequency, TOF) of HPA catalysts is significantly higher than that of the conventional acid catalysts in these reactions. The TOF values decrease with decreasing catalyst acid strength in the order: H3PW12O40 ≈ Cs2.5H0.5PW12O40 > H4SiW12O40 > 15%H3PW12O40/Nb2O5, 15%H3PW12O40/ZrO2, 15%H3PW12O40/TiO2 > H2SO4 > HY, H-Beta > Amberlyst-15. The activity per unit catalyst weight falls in a different order: H2SO4 > H3PW12O40 ≈ H4SiW12O40 > Amberlyst-15 ≥ Cs2.5H0.5PW12O40 > supported H3PW12O40 > HY, H-Beta. Bulk cesium salt Cs2.5H0.5PW12O40 exhibits high catalytic activity as well as high stability to leaching. Supported HPA catalysts suffer from leaching and exhibit significant contribution of homogeneous catalysis by the leached HPA.

[1]  E. Sales,et al.  Transesterification of rapeseed oil with ethanol. I. Catalysis with homogeneous Keggin heteropolyacids , 2007 .

[2]  L. C. Meher,et al.  Solid acid catalyzed biodiesel production by simultaneous esterification and transesterification , 2006 .

[3]  R. Augusti,et al.  Investigation on the Esterification of Fatty Acids Catalyzed by the H3PW12O40 heteropolyacid , 2008 .

[4]  Y. Izumi,et al.  Silica-included heteropoly compounds as solid acid catalysts , 1995 .

[5]  G. Sunita,et al.  Synthesis of biodiesel over zirconia-supported isopoly and heteropoly tungstate catalysts , 2008 .

[6]  Dora E. López,et al.  Synthesis of Biodiesel via Acid Catalysis , 2005 .

[7]  Charlotte K. Williams,et al.  The Path Forward for Biofuels and Biomaterials , 2006, Science.

[8]  Karen Wilson,et al.  Structure–activity relations in Cs-doped heteropolyacid catalysts for biodiesel production , 2007 .

[9]  T. Okuhara Water-tolerant solid acid catalysts. , 2002, Chemical reviews.

[10]  M. Harmer,et al.  Solid acid catalysis using ion-exchange resins , 2001 .

[11]  K. Kakegawa,et al.  Low-temperature synthesis of niobium oxide nanoparticles from peroxo niobic acid sol. , 2003, Journal of colloid and interface science.

[12]  Ram Prasad,et al.  TRIGLYCERIDES-BASED DIESEL FUELS , 2000 .

[13]  Ivan V. Kozhevnikov,et al.  Catalysis by Heteropoly Acids and Multicomponent Polyoxometalates in Liquid-Phase Reactions. , 1998, Chemical reviews.

[14]  P. S. Prasad,et al.  Esterification of palmitic acid on the ammonium salt of 12-tungstophosphoric acid: The influence of partial proton exchange on the activity of the catalyst ☆ , 2005 .

[15]  A. Corma,et al.  Chemical routes for the transformation of biomass into chemicals. , 2007, Chemical reviews.

[16]  M. Niwa,et al.  The active and reusable catalysts in the benzylation of anisole derived from a heteropoly acid , 2005 .

[17]  S. B. Halligudi,et al.  Heteropoly acid supported on titania as solid acid catalyst in alkylation of p-cresol with tert-butanol , 2006 .

[18]  M. Misono,et al.  Catalytic Chemistry of Heteropoly Compounds , 1996 .

[19]  Biju M. Devassy,et al.  Zirconia-supported 12-tungstophosphoric acid as a solid catalyst for the synthesis of linear alkyl benzenes , 2005 .

[20]  I. Fonseca,et al.  Esterification of free fatty acids with methanol using heteropolyacids immobilized on silica , 2008 .

[21]  Fenghua Cao,et al.  Transesterification of Vegetable Oil to Biodiesel using a Heteropolyacid Solid Catalyst , 2007 .

[22]  Leilei Xu,et al.  Preparation of mesoporous polyoxometalate–tantalum pentoxide composite catalyst for efficient esterification of fatty acid , 2008 .