Studies on design of heterogeneous catalysts for biodiesel production

[1]  Dengyou Liu,et al.  Preparation of Biodiesel by Transesterification of Rapeseed Oil with Methanol Using Solid Base Catalyst Calcined K2CO3/γ-Al2O3 , 2010 .

[2]  D. Skala,et al.  Alumina/silica supported K2CO3 as a catalyst for biodiesel synthesis from sunflower oil. , 2009, Bioresource technology.

[3]  A. Agarwal,et al.  Process optimisation of base catalysed transesterification of Karanja oil for biodiesel production , 2009 .

[4]  J. I. D. Cosimo,et al.  Heterogeneously-Catalyzed Glycerolysis of Fatty Acid Methyl Esters: Reaction Parameter Optimization , 2009 .

[5]  Dilhan M. Kalyon,et al.  Conversion of biomass to fuel: Transesterification of vegetable oil to biodiesel using KF loaded nano-γ-Al2O3 as catalyst , 2009 .

[6]  S. Bhatia,et al.  Supercritical ethanol technology for the production of biodiesel: Process optimization studies , 2009 .

[7]  Baoxin Li,et al.  Application of waste eggshell as low-cost solid catalyst for biodiesel production. , 2009, Bioresource technology.

[8]  M. G. Kontominas,et al.  Transesterification of soybean frying oil to biodiesel using heterogeneous catalysts , 2009 .

[9]  A. Vyas,et al.  PRODUCTION OF BIODIESEL THROUGH TRANSESTERIFICATION OF JATROPHA OIL USING KNO3/AL2O3 SOLID CATALYST , 2009 .

[10]  Yunbai Luo,et al.  Application of Sodium Aluminate As a Heterogeneous Base Catalyst for Biodiesel Production from Soybean Oil , 2009 .

[11]  M. Zong,et al.  Efficient production of biodiesel from high free fatty acid-containing waste oils using various carbohydrate-derived solid acid catalysts. , 2008, Bioresource technology.

[12]  Xiqing Wang,et al.  Sulfonated ordered mesoporous carbon for catalytic preparation of biodiesel , 2008 .

[13]  R. Moreno-Tost,et al.  MgM (M = Al and Ca) oxides as basic catalysts in transesterification processes , 2008 .

[14]  Jusuke Hidaka,et al.  Calcium oxide as a solid base catalyst for transesterification of soybean oil and its application to biodiesel production , 2008 .

[15]  S. Meneghetti,et al.  Transesterification reaction of vegetable oils, using superacid sulfated TiO2–base catalysts , 2008 .

[16]  U. Schuchardt,et al.  Transesterification of soybean oil catalyzed by sulfated zirconia. , 2008, Bioresource technology.

[17]  Todd J. Toops,et al.  Biodiesel synthesis using calcined layered double hydroxide catalysts , 2008 .

[18]  Brian J. Krohn,et al.  A continuous catalytic system for biodiesel production , 2008 .

[19]  Kunchana Bunyakiat,et al.  Ca and Zn mixed oxide as a heterogeneous base catalyst for transesterification of palm kernel oil , 2008 .

[20]  Yujun Wang,et al.  Calcium methoxide as a solid base catalyst for the transesterification of soybean oil to biodiesel with methanol , 2008 .

[21]  Ayato Kawashima,et al.  Development of heterogeneous base catalysts for biodiesel production. , 2008, Bioresource technology.

[22]  A. Sayari,et al.  Comparative study of triglyceride transesterification in the presence of catalytic amounts of sodium, magnesium, and calcium methoxides , 2008 .

[23]  Wallace M. Antunes,et al.  Transesterification of soybean oil with methanol catalyzed by basic solids , 2008 .

[24]  H. von Blottnitz,et al.  Commercialisation of biofuel industry in Africa: A review , 2008 .

[25]  Yujun Wang,et al.  Transesterification of soybean oil to biodiesel using CaO as a solid base catalyst , 2008 .

[26]  Karen Wilson,et al.  Evaluation of the activity and stability of alkali-doped metal oxide catalysts for application to an intensified method of biodiesel production , 2008 .

[27]  Boyang Wang,et al.  Transesterification of Rapeseed Oil for Synthesizing Biodiesel by K/KOH/γ-Al2O3 as Heterogeneous Base Catalyst , 2008 .

[28]  Denis Poncelet,et al.  Production of Biodiesel Using Immobilized Lipase—A Critical Review , 2008, Critical reviews in biotechnology.

[29]  Ramón Moreno-Tost,et al.  Potassium leaching during triglyceride transesterification using K/γ-Al2O3 catalysts , 2007 .

[30]  M. E. Borges,et al.  Zeolite Y as a Heterogeneous Catalyst in Biodiesel Fuel Production from Used Vegetable Oil , 2007 .

[31]  Wenlei Xie,et al.  Catalytic Properties of Lithium-Doped ZnO Catalysts Used for Biodiesel Preparations , 2007 .

[32]  Yujun Wang,et al.  Transesterification of soybean oil to biodiesel using SrO as a solid base catalyst , 2007 .

[33]  Jesus Santamaria,et al.  Biodiesel from sunflower oil by using activated calcium oxide , 2007 .

[34]  M. Zong,et al.  Preparation of a sugar catalyst and its use for highly efficient production of biodiesel , 2007 .

[35]  David A. Bruce,et al.  ESTERIFICATION AND TRANSESTERIFICATION ON TUNGSTATED ZIRCONIA: EFFECT OF CALCINATION TEMPERATURE , 2007 .

[36]  Wang Dezheng,et al.  Biodiesel production by the transesterification of cottonseed oil by solid acid catalysts , 2007 .

[37]  A. Demirbas,et al.  BIODIESEL FROM SUNFLOWER OIL IN SUPERCRITICAL METHANOL WITH CALCIUM OXIDE , 2007 .

[38]  R. Srivastava,et al.  Hydrophobic, solid acid catalysts for production of biofuels and lubricants , 2006 .

[39]  A. C. Dimian,et al.  The heterogeneous advantage: biodiesel by catalytic reactive distillation , 2006 .

[40]  Manuel Moliner,et al.  High-throughput synthesis and catalytic properties of a molecular sieve with 18- and 10-member rings , 2006, Nature.

[41]  G. Morales,et al.  Advances in the synthesis and catalytic applications of organosulfonic-functionalized mesostructured materials. , 2006, Chemical reviews.

[42]  Wenlei Xie,et al.  Alumina-supported potassium iodide as a heterogeneous catalyst for biodiesel production from soybean oil , 2006 .

[43]  J. Spivey,et al.  The Catalysis of Biodiesel Synthesis , 2006 .

[44]  L. C. Meher,et al.  Technical aspects of biodiesel production by transesterification—a review , 2006 .

[45]  Elio Santacesaria,et al.  Transesterification of Soybean Oil to Biodiesel by Using Heterogeneous Basic Catalysts , 2006 .

[46]  Ligong Chen,et al.  Calcined Mg–Al hydrotalcites as solid base catalysts for methanolysis of soybean oil , 2006 .

[47]  Wenlei Xie,et al.  Synthesis of Biodiesel from Soybean Oil using Heterogeneous KF/ZnO Catalyst , 2006 .

[48]  P. Rangsunvigit,et al.  Transesterification of crude palm kernel oil and crude coconut oil by different solid catalysts , 2006 .

[49]  B. Shanks,et al.  Conversion of oils and fats using advanced mesoporous heterogeneous catalysts , 2006 .

[50]  Atsushi Takagaki,et al.  Green chemistry: Biodiesel made with sugar catalyst , 2005, Nature.

[51]  Elio Santacesaria,et al.  Synthesis of biodiesel via homogeneous Lewis acid catalyst , 2005 .

[52]  P. Suarez,et al.  NEW MULTI-PHASE CATALYTIC SYSTEMS BASED ON TIN COMPOUNDS ACTIVE FOR VEGETABLE OIL TRANSESTERIFICATON REACTION , 2005 .

[53]  Weiliang Cao,et al.  Preparation of biodiesel from soybean oil using supercritical methanol and co-solvent , 2005 .

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

[55]  S. Furuta,et al.  Biodiesel fuel production with solid superacid catalysis in fixed bed reactor under atmospheric pressure , 2004 .

[56]  P. S. Prasad,et al.  Esterification of palmitic acid with methanol over tungsten oxide supported on zirconia solid acid catalysts: effect of method of preparation of the catalyst on its structural stability and reactivity ☆ , 2004 .

[57]  F. Xiao Hydrothermally Stable and Catalytically Active Ordered Mesoporous Materials Assembled from Preformed Zeolite Nanoclusters , 2004 .

[58]  Hak Joo Kim,et al.  TRANSESTERIFICATION OF VEGETABLE OIL TO BIODIESEL USING HETEROGENEOUS BASE CATALYST , 2004 .

[59]  E. Haro-Poniatowski,et al.  Evidence of the surface layer in tungstated zirconia , 2004 .

[60]  G. Vicente,et al.  Integrated biodiesel production: a comparison of different homogeneous catalysts systems. , 2004, Bioresource technology.

[61]  Dadan Kusdiana,et al.  Reactivity of triglycerides and fatty acids of rapeseed oil in supercritical alcohols. , 2004, Bioresource technology.

[62]  Eric J. Doskocil,et al.  Transesterification of soybean oil with zeolite and metal catalysts , 2004 .

[63]  V. S. Lin,et al.  Organosulfonic acid-functionalized mesoporous silicas for the esterification of fatty acid , 2003 .

[64]  Xiao‐Yu Yang,et al.  Synthesis, characterization, and catalytic properties of stable mesoporous aluminosilicates assembled from preformed zeolite L precursors , 2003 .

[65]  M. Dubé,et al.  Biodiesel production from waste cooking oil: 1. Process design and technological assessment. , 2003, Bioresource technology.

[66]  Siglinda Perathoner,et al.  Integrated Design for Solid Catalysts in Multiphase Reactions , 2003 .

[67]  E. Sastre,et al.  Synthesis of MCM-41 materials functionalised with dialkylsilane groups and their catalytic activity in the esterification of glycerol with fatty acids , 2003 .

[68]  M. Sheintuch,et al.  Catalytic fibers and cloths , 2002 .

[69]  Claude Moreau,et al.  Transesterification of rapeseed oil in the presence of basic zeolites and related solid catalysts , 2001 .

[70]  M. Buchmeiser New synthetic ways for the preparation of high-performance liquid chromatography supports. , 2001, Journal of chromatography. A.

[71]  E. Sastre,et al.  Synthesis, characterization and catalytic activity of MCM-41-type mesoporous silicas functionalized with sulfonic acid , 2001 .

[72]  S. Şensöz,et al.  Influence of particle size on the pyrolysis of rapeseed (Brassica napus L.): fuel properties of bio-oil , 2000 .

[73]  J. Kirkland,et al.  Superficially porous silica microspheres for fast high-performance liquid chromatography of macromolecules. , 2000, Journal of chromatography. A.

[74]  C. Márquez-Álvarez,et al.  Combined Alkyl and Sulfonic Acid Functionalization of MCM-41-Type Silica: Part 2. Esterification of Glycerol with Fatty Acids , 2000 .

[75]  J. González-Velasco,et al.  Mass Transfer Studies in the Hydrogenation of Methyl Oleate Over a Ni/SiO2 Catalyst in the Liquid Phase , 2000 .

[76]  B. J. Melde,et al.  Mesoporous sieves with unified hybrid inorganic/organic frameworks , 1999 .

[77]  S. Passerini,et al.  LI-MN-O AEROGELS , 1999 .

[78]  Ulf Schuchardt,et al.  Alkylguanidine-catalyzed heterogeneous transesterification of soybean oil , 1999 .

[79]  S. Ardizzone,et al.  SO4–ZrO2 catalysts for the esterification of benzoic acid to methylbenzoate , 1999 .

[80]  P. Weiss,et al.  Scanning Probe Studies of Single Nanostructures. , 1999, Chemical reviews.

[81]  F. Heinrich,et al.  Acylation of aromatic compounds on H-Beta zeolites , 1999 .

[82]  E. I. Ko,et al.  Commercially available zirconia–tungstate as a benchmark catalytic material , 1999 .

[83]  T. Okuhara,et al.  Catalytic synthesis of N-alkylacrylamide from acrylonitrile and 1-adamantanol with a novel solid heteropoly compound , 1998 .

[84]  E. Iglesia,et al.  Structure and Surface and Catalytic Properties of Mg-Al Basic Oxides , 1998 .

[85]  W. MacNee,et al.  Ultrafine (nanometre) particle mediated lung injury , 1998 .

[86]  C. Lamberti,et al.  Surface acidity and basicity: General concepts , 1998 .

[87]  G. Vicente,et al.  Application of the factorial design of experiments and response surface methodology to optimize biodiesel production , 1998 .

[88]  Avelino Corma,et al.  From Microporous to Mesoporous Molecular Sieve Materials and Their Use in Catalysis. , 1997, Chemical reviews.

[89]  E. I. Ko,et al.  Sol-Gel Synthesis of Zirconia Supports: Important Properties for Generating n-Butane Isomerization Activity upon Sulfate Promotion , 1995 .

[90]  M. Bols,et al.  Silicon-Tethered Reactions , 1995 .

[91]  Avelino Corma,et al.  Inorganic Solid Acids and Their Use in Acid-Catalyzed Hydrocarbon Reactions , 1995 .

[92]  van Ma Marion Straten,et al.  High pH mobile phase effects on silica-based reversed-phase high-performance liquid chromatographic columns , 1995 .

[93]  J. Fierro,et al.  Structure and reactivity of alkali-doped calcium oxide catalysts for oxidative coupling of methane , 1993 .

[94]  J. B. Higgins,et al.  A new family of mesoporous molecular sieves prepared with liquid crystal templates , 1992 .

[95]  Tsutomu Yamaguchi Recent progress in solid superacid , 1990 .

[96]  Mark E. Davis,et al.  Base catalysis by alkali-modified zeolites: I. Catalytic activity , 1989 .

[97]  E. H. Pryde,et al.  Variables affecting the yields of fatty esters from transesterified vegetable oils , 1984 .

[98]  F. Dautzenberg,et al.  Isomerization and dehydrocyclization of hexanes over monofunctional supported platinum catalysts , 1970 .

[99]  Chawalit Ngamcharussrivichai,et al.  Al2O3-supported alkali and alkali earth metal oxides for transesterification of palm kernel oil and coconut oil. , 2009 .

[100]  Elio Santacesaria,et al.  Heterogeneous catalysts for biodiesel production , 2008 .

[101]  Bin Liang,et al.  Supported CaO Catalysts Used in the Transesterification of Rapeseed Oil for the Purpose of Biodiesel Production , 2008 .

[102]  W. A. Gonzalez,et al.  Catalysts : Characterization and Catalytic Evaluation of Oleic Acid Conversion to Biofuels and Biolubricant , 2006 .

[103]  J. Niemantsverdriet,et al.  Concepts of modern catalysis and kinetics , 2005 .

[104]  J. V. Gerpen,et al.  BIODIESEL PRODUCTION VIA ACID CATALYSIS , 1999 .

[105]  U. Schuchardt,et al.  Transesterification of vegetable oils: a review , 1998 .

[106]  R. Ryoo,et al.  Generalised route to the preparation of mesoporous metallosilicates via post-synthetic metal implantation , 1997 .