REVIEW1. Ayhan Demirbas. Progress and recent trends in BIODIESEL fuels. Energy

Conversion and Management 50 (2009) 14–34 <Demirbas A 2009>

2. BIODIESEL Fuel Production by TRANSESTERIFICATION of oils. Journal of bioscience and bioengineering. vol. 92, no. 5, 405-416. 2001 <Review Fukuda 2001>

3. CHENG SIT FOON*; CHOO YUEN MAY*; MA AH NGAN* and CHUAH CHENG HOCK. KINETICS STUDY ON TRANSESTERIFICATION OF PALM OIL. Journal of Oil Palm Research Vol. 16 No. 2, December 2004, p. 19-29

4. Dongsheng Wen a,*, H. Jiang a, Kai Zhang. Supercritical fluids technology for clean biofuel production. Progress in Natural Science xxx (2009) xxx–xxx < SCFs biofuel DW>

5. Fangrui Maa, Milford A. Hannab. BIODIESEL production: a review. Bioresource Technology 70 (1999) 1-15 <review Fangrui Hanna 1999>

6. Gerhard Knothe. Dependence of BIODIESEL fuel properties on the structure of fatty acid alkyl esters. Fuel Processing Technology 86 (2005) 1059– 1070 <Knothe 2005 review>

7. Gerhard Knothe. Analyzing BIODIESEL: Standards and Other Methods. JAOCS, Vol. 83, no. 10 (2006) <kNOTHER 2006........>

8. Haq Nawaz Bhatti, Muhammad Asif Hanif, Mohammad Qasim, Ata-ur-Rehman. BIODIESEL production from waste tallow. Fuel 87 (2008) 2961–2966. <FUEL-08>

9. Heri Hermansyah1, A. Wijanarko1, Dianursanti1, M. Gozan1, P.P.D.K. Wulan1, R. Arbianti1, R.W. Soemantojo1, T.S. Utami1, Yuliusman1, M. Kubo2, N. Shibasaki-Kitakawa2, and T. Yonemoto2. KINETIC MODEL FOR TRIGLYCERIDE HYDROLYSIS USING LIPASE: REVIEW. MAKARA, TEKNOLOGI, VOL. 11, NO. 1, APRIL 2007: 30-35 <06_Heri....>

10. Ipsita Roy and Munishwar Nath Gupta*. Applications of microwaves in biological sciences. REVIEW ARTICLES. CURRENT SCIENCE, VOL. 85, NO. 12, 25 DECEMBER 2003 <roy microwave reiew 2003>>

11. L.C. Meher, D. Vidya Sagar, S.N. Naik. Technical aspects of BIODIESEL production by TRANSESTERIFICATION—a review. Renewable and Sustainable Energy Reviews. Volume 10, Issue 3, June 2006, Pages 248-268

12. Marcos Roberto Monteiroa,∗, Alessandra Regina Pepe Ambrozina, Luciano Morais Liãob, Antonio Gilberto Ferreira. Critical review on analytical methods for BIODIESEL characterization. Talanta 77 (2008) 593–605. <Monteiro M R 2008..>

13. Michael Sheedlo. A review of the processes of BIODIESEL production. http://ejournal.vudat.msu.edu MMG 445 Basic Biotechnology eJournal 2008 4:61 – 65 <bsheedlo 2008........>

14. Palligarnai T. Vasudevan Æ Michael Briggs. BIODIESEL production—current state of the art and challenges. J Ind Microbiol Biotechnol (2008) 35:421–430 <BIODIESEL Prod challenges 2008 review>

15. Palligarnai T. Vasudevan, Michael Briggs. BIODIESEL production—current state of the art and challenges. J Ind Microbiol Biotechnol (2008) 35:421–430 <BIODIESEL prod challenges 2008 review>

16. Parag R. Gogate. Cavitational reactors for process intensification of chemical processing applications: A critical review. Chemical Engineering and Processing 47 (2008) 515–527

17. Sunderasan Srinivasan. The food v. fuel debate: A nuanced view of incentive structures. Renewable Energy 34 (2009) 950–954 <food vs fuel debate>

18. Ulf Schuchardt, Ricardo Sercheli, and Rogério Matheus Vargas. TRANSESTERIFICATION of Vegetable Oils: a Review. J. Braz. Chem. Soc., Vol. 9, No. 1, 199-210, 1998.

19. Xin Meng a, Jianming Yang a, Xin Xu a, Lei Zhang a, Qingjuan Nie b, Mo Xian. BIODIESEL production from oleaginous microorganisms. 2008

20. Y. Zhang, M.A. Dube, D.D. McLean,, M. Kates. BIODIESEL production from waste cooking oil: 2. Economic assessment and sensitivity analysis. Bioresource Technology 90 (2003) 229–240 Renewable Energy 34 (2009) 1–5 <Meng 2009 biofuel>

21. Y. Zhang , M.A. Dube, D.D. McLean, M. Kates. BIODIESEL production from waste cooking oil: 1. Process design and technological assessment. Bioresource Technology 89 (2003) 1–16 <zHANG 2003 WATE OIL>

22. Yusuf Chisti. Research review paper: BIODIESEL from microalgae. Biotechnology Advances 25 (2007) 294–306. <yusyf BIODIESEL .....>

23. S. Pereda, E.A. Brignole, S.B. Bottini. Review: Advances in phase equilibrium engineering of supercritical reactors. J. of Supercritical Fluids 47 (2009) 336–343 <sdarticle (29).

PRODUCTION

24. Alex H. West, Dusko Posarac, Naoko Ellis. Assessment of four BIODIESEL production processes using HYSYS.Plant. Bioresource Technology 99 (2008) 6587–6601 <West AH....>

25. D. Darnoko1 and Munir Cheryan. Continuous Production of Palm Methyl Esters. JAOCS, Vol. 77, no. 12 (2000)<continuous production......>

26. L D Clements. Blending rules for formulating BIODIESEL fuels 1996. <1996101_gen-277>

27. M.A. Dube´ *, A.Y. Tremblay, J. Liu. BIODIESEL production using a membrane reactor. Bioresource Technology 98 (2007) 639–64 <Dube M A 2007>

28. Peigang Cao, Marc A. Dube´ *, Andre´ Y. Tremblay. Methanol recycling in the production of BIODIESEL in a membrane reactor. Fuel 87 (2008) 825–833. <Paper 50>

29. S. Chongkhong*, C. Tongurai, P. Chetpattananondh. Continuous esterification for BIODIESEL production from palm fatty acid distillate using economical process. Renewable Energy 34 (2009) 1059–1063 <Chongkhon 2009......>

30. Umer Rashid and Farooq Anwar. Production of BIODIESEL through Base-

Catalyzed TRANSESTERIFICATION of Safflower Oil Using an Optimized Protocol. Energy & Fuels 1306 2008, 22, 1306–1312 <safflowe oil BIODIESEL....>

31. Umer Rashid, Farooq Anwar, Bryan R.Moser, Samia Ashraf. Production of sunflower oil methyl esters by optimized alkali-catalyzed methanolysis. BIOMASS AND BIOENERGY 32 (2008)1202–1205. <sunflower oil BIODIESEL.......>

32. Umer Rashid, Farooq Anwar. Production of BIODIESEL through optimized alkaline-catalyzed TRANSESTERIFICATION of rapeseed oil. Fuel 87 (2008) 265–273 <Rapeseed oil BIODIESEL....>

33. V.B. Veljkovic´ *, S.H. Lakic´evic´, O.S. Stamenkovic´, Z.B. Todorovic´, M.L. Lazic. BIODIESEL production from tobacco (Nicotiana tabacum L.) seed oil with a high content of free fatty acids. Fuel 85 (2006) 2671–2675 <BIODIESEL PRODUCTION....>

34. Canan Kaya, Candan Hamamci, Akin Baysal, Osman Akba, Sait Erdogan, Abdurrahman Saydut . Methyl ester of peanut (Arachis hypogea L.) seed oil as a potential feedstock for BIODIESEL production. Renewable Energy 34 (2009) 1257–1260 <Peanut 2009>

WASTE PALM OIL

35. Arjun B. Chhetri 1, K. Chris Watts 2 and M. Rafiqul Islam 1,*. Waste Cooking Oil as an Alternate Feedstock for BIODIESEL Production. Energies 2008, 1, 3-18<energies-01-00003>

36. D. Kusdiana, S. Saka*. Development of BIODIESEL fuel production by supercritical methanol. Fuel Volume 80, Issue 5, April 2001, Pages 693-698 <z191>

37. J.M.N. van Kasteren a,∗, A.P. Nisworo. A process model to estimate the cost of industrial scale BIODIESEL production from waste cooking oil by supercritical TRANSESTERIFICATION. Resources, Conservation and Recycling 50 (2007) 442–458. <jmnkasteren......2008>

38. Mohamad I. Al-Widyan a,*, Ali O. Al-Shyoukh. Experimental evaluation of the TRANSESTERIFICATION of waste palm oil into BIODIESEL. Bioresource Technology 85 (2002) 253–256 <Widyan 2002 Waste Palm Oil>

39. Pablo Hegel, Guillermo Mabe, Selva Pereda, and Esteban A. Brignole. Phase Transitions in a BIODIESEL Reactor Using Supercritical Methanol. Ind. Eng. Chem. Res. 2007, 46, 6360-6365 <hegel 2007 supercritical.....>

40. S. Pereda, S.B. Bottini, E.A. Brignole. Supercritical fluids and phase behavior in heterogeneous gas–liquid catalytic reactions. Applied

Catalysis A: General 281 (2005) 129–137 <pEREDA S 2005..>

41. Selva Pereda, Susana B. Bottini, and Esteban A. Brignole. Phase Equilibrium Engineering of Supercritical Hydrogenation Reactors. November 2002 Vol. 48, No. 11. pp 2635-2645 AIChE Journal <Pereda 2002 super..>

CO-SOLVENT42. Guoqing Guan, Katsuki Kusakabe *, Nozomi Sakurai, Kimiko Moriyama.

TRANSESTERIFICATION of vegetable oil to BIODIESEL fuel using

acid catalysts in the presence of dimethyl ether. TRANSESTERIFICATION of vegetable oil to BIODIESEL fuel using

acid catalysts in the presence of dimethyl ether <KUSAKABE ACID

CATALYST DME 2009>

43. Guoqing Guan, Nozomi Sakurai, Katsuki Kusakabe∗. Synthesis of BIODIESEL from sunflower oil at room temperature in the presence of various co-solvents. Chemical Engineering Journal 146 (2009) 302–306<CEJ6017>

44. Haixian Shi, Zonghong Bao. Direct preparation of BIODIESEL from rapeseed oil leached by two-phase solvent extraction. Bioresource Technology 99 (2008) 9025–9028 <DirectpreparationofBIODIESEL.....>

IN SITU

45. Estimating and Improving Cold Filter Plugging Points by Blending BIODIESELs with Different Fatty Acid Contents. Biotechnology and Bioprocess Engineering 2008, 13: 505-510 <Park in situ 2008>

46. Guoqing Guan, Katsuki Kusakabe, Kimiko Moriyama, and Nozomi Sakurai.TRANSESTERIFICATION of Sunflower Oil with Methanol in a Microtube Reactor. Ind. Eng. Chem. Res. 2009, 48, 1357–1363

47. Jude U. Obibuzor*, Roland D. Abigor, and Dere A. Okiy. Recovery of Oil via Acid-Catalyzed TRANSESTERIFICATION. JAOCS, Vol. 80, no. 1 (2003)

48. Michael J. Haas Æ Karen M. Scott. Moisture Removal Substantially Improves the Efficiency of in Situ BIODIESEL Production from Soybeans. J Amer Oil Chem Soc (2007) 84:197–204

49. Michael J. Haas, Karen M. Scott, Thomas A. Foglia, William N. Marmer. The General Applicability of in Situ TRANSESTERIFICATION for the Production of Fatty Acid Esters from a Variety of Feedstocks. J Am Oil Chem Soc (2007) 84:963–970 <insitu Haas 2007>

50. K.G. Georgogiannia, M.G. Kontominasa, P.J. Pomonisa, D. Avlonitisb and V. Gergisc. Conventional and in situ TRANSESTERIFICATION of sunflower seed oil for the production of BIODIESEL. Fuel Processing Technology Volume 89, Issue 5, May 2008, Pages 503-509.

CATALYST

51. Ayhan Demirbas. Production of BIODIESEL fuels from linseedoil using methanol and ethanol in non-catalytic SCF conditions. B IOMASSANDBIOENERGY 33 (2009)113–118 <Demibras A 2009>

52. Guoqing Guan, Katsuki Kusakabe *, Nozomi Sakurai, Kimiko Moriyama.TRANSESTERIFICATION of vegetable oil to BIODIESEL fuel using acid catalysts in the presence of dimethyl ether. Fuel 88 (2009) 81–86 <JFEUL3988>

53. Hongbin Ma Æ Shufen Li Æ Boyang Wang. Ruihong Wang Æ Songjiang Tian. TRANSESTERIFICATION of Rapeseed Oil for Synthesizing

BIODIESEL by K/KOH/c-Al2O3 as Heterogeneous Base Catalyst. J Am Oil Chem Soc (2008) 85:263–270.

54. Hui Li Æ Wenlei Xie. Fatty Acid Methyl Ester Synthesis over Fe3+-Vanadyl Phosphate Catalysts. J Am Oil Chem Soc (2008) 85:655–662 <Li Fe3

catalyst 2008>

55. J.M. Marchetti, A.F. Errazu. Esterification of free fatty acids using sulfuric acid as catalyst in the presence of triglycerides. B IOMASS AND B I O E N E R GY 32 ( 2008 ) 892 – 895. <Marchetti JM 2008>

56. Karel Komers, Frantiˇsek Skopal, Radek Stloukal, Jaroslav Machek. Kinetics and mechanism of the KOH –catalyzed methanolysis of rapeseed oil for BIODIESEL production. Eur. J. Lipid Sci. Technol. 104 (2002) 728–737 <EJLST 02p728>

57. M. Di Serio, R. Tesser, M. Dimiccoli, F. Cammarotaa, M. Nastasi, E. Santacesaria,. Synthesis of BIODIESEL via homogeneous Lewis acid catalyst . Journal of Molecular Catalysis A: Chemical 239 (2005) 111–115 <synthesis of BIODIESEL via.......>

58. Ma. F, Clements LD, Hanna, MA. The effects of Catalst, FFA and water on Transesterrifcation of Beef Tallow. transaction of ASAE. Vol. 41(5): 1261-1264 <tallow Ma Hanna 2000>

59. N. Seshu Babu, Rekha Sree, P. S. Sai Prasad, and N. Lingaiah*. Room-Temperature TRANSESTERIFICATION of Edible and Nonedible Oils

Using a Heterogeneous Strong Basic Mg/La Catalyst. Energy & Fuels 2008, 22, 1965–1971 <Pub-NL-2008...>

60. Rekha Sree, N. Seshu Babu, P.S. Sai Prasad, N. Lingaiah. TRANSESTERIFICATION of edible and non-edible oils over basic

solid Mg/Zr catalysts. FUEL PROCESSING TECHNOLOGY 90 (2009) 152–157 <Pub-NL-2009.....>

61. Xuejun Liu, Xianglan Piao, Yujun Wang *, Shenlin Zhu, Huayang He. Calcium methoxide as a solid base catalyst for the TRANSESTERIFICATION of soybean oil to BIODIESEL with methanol. Fuel 87 (2008) 1076–1082 <liuxj2>

62. Yan Zheng, Jing Quan, Li-Min Zhu, Bo Jiang, Hua-Li Nie. Optimization of Selective Lipase-Catalyzed Feruloylated Monoacylglycerols by Response Surface Methodology. J Am Oil Chem Soc (2008) 85:635–639. <Zheng 2008 opt catalyst>

63. K.G. Georgogianni, A.P. Katsoulidis, P.J. Pomonis, M.G. Kontominas. TRANSESTERIFICATION of soybean frying oil to BIODIESEL using heterogeneous catalysts. Fuel Processing Technology xxx (2009) xxx–xxx <ergasia>

64. Miriam Cerro-Alarco´n a, Avelino Corma a,*, Sara Iborra a, Juan Pedro Go´mez. Biomass to fuels: A water-free process for BIODIESEL production with phosphazene catalysts <08ApplCatalA52_Cerro>

65. M. Di Serio, R. Tesser, M. Dimiccoli, F. Cammarotaa, M. Nastasi, E. Santacesaria, Journal of Molecular Catalysis A: Chemical 239 (2005) 111–

115. Synthesis of BIODIESEL via homogeneous Lewis acid catalyst <085 synthesis.....>

CATALYST; ION EXCHANGE RESIN

66. Achilleas Bouriazos Æ Konstandinos Mouratidis, Nikolas Psaroudakis Æ Georgios PapadogianakisCatalytic Conversions in Aqueous Media. A Novel and Highly Efficient Biphasic Hydrogenation of Renewable Methyl Esters of Linseed and Sunflower Oils to High Quality BIODIESEL Employing Rh/TPPTS ComplexesCatal Lett (2008) 121:158–164 <2008 Boriazos catalystic BIODIESEL>

67. Naomi Shibasaki-Kitakawa a, Hiroki Honda a, Homare Kuribayashi a, Takuji Toda a, Takuya Fukumura b, Toshikuni YonemotoBIODIESEL production using anionic ion-exchange resin as heterogeneous catalyst. Bioresource Technology 98 (2007) 416–421 <tOSHIKUNI ANIONIC ION EXCHange RESIN 2007> <bIORESOURCE 2007>

68. Siswati Lestari Æ Irina Simakova Æ Anton Tokarev, Pa¨ivi Ma¨ki-Arvela Æ Kari Era¨nen Æ Dmitry Yu Murzin Synthesis of BIODIESEL via Deoxygenation of Stearic Acid over Supported Pd/C Catalyst Catal Lett (2008) 122:247–251

<Catalysis PdC 2008 siswati>

ULTRASONIC

69. Hoang Duc Hanh a,*, Nguyen The Dong b, Kenji Okitsu a, Rokuro Nishimura a, Yasuaki Maeda. BIODIESEL production through TRANSESTERIFICATION of triolein with various alcohols in an ultrasonic field. Renewable Energy 34 (2009) 766–768 <Hoang Duc Hanh 2009......>

70. Hoang Duc Hanh a,*, Nguyen The Dong b, Kenji Okitsu a, Rokuro Nishimura a, Yasuaki Maeda a BIODIESEL production by esterification of oleic acid with short-chain alcohols under ultrasonic irradiation condition. Renewable Energy 34 (2009) 780–78 <Ultrasonic 2009 Duc>

71. Yusuf G. Adewuyi* and Babatunde A. Oyenekan. Optimization of a Sonochemical Process Using a Novel Reactor and Taguchi Statistical Experimental Design Methodology. Ind. Eng. Chem. Res. 2007, 46, 411-420 <ie060844c>

72. A. Bulent Koc. Ultrasonic monitoring of glycerol settling during TRANSESTERIFICATION of soybean oil. Bioresource Technology xxx (2008) xxx–xxx <ultrasonic monitoring........>

PHASE DISTRIBUTION

73. Chuang-Wei Chiu, Micjeal J Goff and Galen Suppes. Distribution of Methanol and Catalyst between BIODIESEL and Glycerine Phases. AiChE, Vol. 51, No. 4, 2005

74. Weiyang Zhou and D.G.B. Boocock. Phase Distributions of Alcohol,

Glycerol, and Catalyst in the TRANSESTERIFICATION of Soybean Oil. JAOCS 83, 1047–1052 (December 2006). <BOOCOCK 2006 PHASE.....>

MICROWAVE

75. A.A. Refaat and S.T. El Sheltawy. Time Factor in Microwave-enhanced BIODIESEL Production. WSEAS TRANSACTIONS on ENVIRONMENT and DEVELOPMENT. Issue 4, Volume 4, April 2008 <microwave>

76. C.P. Tana, Y.B. Che Mana,*, S. Jinapb, and M.S.A. Yusoff. Effects of Microwave Heating on Changes in Chemical and Thermal Properties of Vegetable Oils. JAOCS, Vol. 78, no. 12 (2001)

77. C.P. Tana, Y.B. Che Mana,*, S. Jinapb, and M.S.A. Yusoffc. Effects of Microwave Heating on Changes in Chemical and Thermal Properties of Vegetable Oils. JAOCS, Vol. 78, no. 12 (2001) <Tan microwave veg oil prop 2001>

78. Hiromi Yoshida* and Sachiko Takagi. Microwave Roasting and Positional Distribution of Fatty Acids of Phospholipids in Soybeans (Glycine max L.). JAOCS, Vol. 74, no. 8 (1997) <YOSHIDA MICROWAVE SOYBEAN 1997>

79. Hydrothermal Treatment and Microwave Assisted Pyrolysis of Biomass of Biomass For Bio-fuel Production fuel Production – Progress Report <hydrothermal treatment>

80. Refaat A. A.; S. T. El Sheltawy; K. U. Sadek. Optimum reaction time, performance and exhaust emissions produced by microwave irradiation Int. J. Environ. Sci. Tech., 5 (3), 315-322, Summer 2008 <Reefat microwave 2008>

81. Saifuddin, N. and K.H. Chua. Production of Ethyl Ester (BIODIESEL) from used Frying Oil: Optimization of TRANSESTERIFICATION Process using Microwave Irradiation. Malaysian Journal of Chemistry, 2004, Vol. 6, No. 1, 077 – 082 <microwave MJC saiffudinN 2004>

82. V. Lertsathapornsuka, R. Pairintrab, K. Aryusukb, K. Krisnangkurab,⁎. Microwave assisted in continuous BIODIESEL production from waste frying palm oil and its performance in a 100 kW diesel generator. fuel processing technology 89 (2008) 1330-1336. <microwave Veerachi 2008>

83. Nezihe Azcan *, Aysegul Danisman. Microwave assisted TRANSESTERIFICATION of rapeseed oil. Fuel 87 (2008) 1781–1788 <rapeseed fuel>

KINETICS

84. Ryan Doell Æ Samir K. Konar Æ David G. B. Boocock. Kinetic Parameters of a Homogeneous Transmethylation of Soybean Oil J Am Oil Chem Soc (2008) 85:271–276 <rYAN 2007 KINETIC PARAMETER TRANS>

85. Sulaiman Al-Zuhair a,*, Fan Wei Ling b, Lim Song Jun. Proposed kinetic mechanism of the production of BIODIESEL from palm oil using lipase. Process Biochemistry 42 (2007) 951–960 <alzubair kinetic palm oil lipase 2007>

FACTORS AFFECTING VEGETABLE OILS

86. Choo Yuen May. TRANSESTERIFICATION of Palm Oil: Effect of Reaction Parameters. Journal of Oil Palm Research Vol. 16 No. 2, December 2004, p. 1-11

87. Dadan Kusdiana, Shiro Saka. Effects of water on BIODIESEL fuel production by supercritical methanol treatment. Bioresource Technology 91 (2004) 289–295 <Dadan 2004........>

88. M. Canakci · H. Sanli. BIODIESEL production from various feedstocks and their effects on the fuel properties. J Ind Microbiol Biotechnol (2008) 35:431–441 <Canakci Sanli 2008>

89. Robert O. Dunn. Effect of antioxidants on the oxidative stability of methyl soyate (BIODIESEL). Fuel Processing Technology 86 (2005) 1071– 1085 <Dunn 2005 methyl soyate>

90. Sonam Mahajan Æ Samir K. Konar Æ David G. B. Boocock. Variables Affecting the Production of Standard BIODIESEL. J Amer Oil Chem Soc (2007) 84:189–195

91. Wenqiao Yuana, Alan C. Hansena,*, Qin Zhanga, and Zhongchao Tan. Temperature-Dependent Kinematic Viscosity of Selected BIODIESEL Fuels and Blends with Diesel Fuel. JAOCS 82, 195–199 (March 2005).<Yan 2005 temp kinematic>

OPTIMIZATION (RSM)

92. Gemma Vicente b,*, Mercedes Martı´nez a, Jose´ Aracil a. Optimisation of integrated BIODIESEL production. Part II: A study of the material balance <BITE 3343>

93. Gemma Vicente b,*, Mercedes Martı´nez a, Jose´ Aracil. Optimisation of integrated BIODIESEL production. Part I. A study of the BIODIESEL purity and yield. Bioresource Technology 98 (2007) 1724–1733 <[Vicente G 2007 Biosourse....]>

94. Leonardo Vasconcelos Fregolente, César Benedito Batistell. Response Surface Methodology Applied to Optimization of Distilled Monoglycerides Production. JAOCS, Vol. 82, no. 9 (2005) <Response surface methodolgy .....JAOCS 2007>

95. Leonardo Vasconcelos Fregolente, César Benedito Batistella, Rubens Maciel Filho, and Maria Regina Wolf Maciel. Response Surface Methodology Applied to Optimization of Distilled Monoglycerides Production. JAOCS 82, 673–678 (September 2005). <response surface methodology....>

96. Peng Wu Æ Ying Yang Æ Jose´ A. Colucci, Eric A. Grulke. Effect of Ultrasonication on Droplet Size in BIODIESEL Mixtures. J Am Oil Chem Soc (2007) 84:877–884 <[Wu P 2007 JAOCS ....]>

97. Xingzhong Yuan, Jia Liu, Guangming Zeng, Jingang Shi, Jingyi Tong, Guohe Huang. Optimization of conversion of waste rapeseed oil with high FFA to BIODIESEL using response surface methodology Renewable Energy 33 (2008) 1678–1684

OPIMIZATION

98. Guoqing Guan, Katsuki Kusakabe,* Kimiko Moriyama, and Nozomi Sakurai. TRANSESTERIFICATION of Sunflower Oil with Methanol in a Microtube Reactor. Ind. Eng. Chem. Res. 2009, 48, 1357–1363 <IECR2009481357>

99. Lay L. Myint Æ Mahmoud M. El-Halwagi. Process analysis and optimization of BIODIESEL production from soybean oil. Clean Techn Environ Policy. DOI 10.1007/s10098-008-0156-5 <myint 2008 OPTIMIZATION>

100. T. Eevera*, K. Rajendran, S. Saradha. BIODIESEL production process optimization and characterization to assess the suitability of the product for varied environmental conditions. Renewable Energy 34 (2009) 762–765 <Eevera T_ 2009...>

MONITORING REACTION

101. David B. Snydera;, Elena G. Washingtonb, Armando P. Indrajuanaa, and Gregory M. Shavera. Steady-State BIODIESEL Blend Estimation via a Wideband Oxygen Sensor. 2008 American Control Conference . Westin Seattle Hotel, Seattle, Washington, USA June 11-13, 2008 WeB09.4 <Steady State BIODIESEL Blend Estimation via Widebad Oxygen Sensor>

102. G. Di Nicolaa, M. Pacetti a, F. Polonaraa, G. Santori a,∗, R. Stryjekb. Development and optimization of a method for analyzing BIODIESEL mixtures with non-aqueous reversed phase liquid chromatography. G. Di Nicola et al. / J. Chromatogr. A 1190 (2008) 120–126 <JCA>

103. Gerhard Knothe. Analyzing BIODIESEL: Standards and Other Methods. JAOCS, Vol. 83, no. 10 (2006) <kNOTHER 2006 BIODIESEL analysis>

104. Gerhard Knothe. Monitoring a Progressing TRANSESTERIFICATION Reaction by Fiber-Optic Near Infrared Spectroscopy with Correlation to 1H Nuclear Magnetic Resonance Spectroscopy. JAOCS, Vol. 77, no. 5 (2000) <Knothe 2000 NIinrared HMR spec>

105. Gerhard Knothe. Monitoring a Progressing TRANSESTERIFICATION Reaction by Fiber-Optic Near Infrared Spectroscopy with Correlation to 1H Nuclear Magnetic Resonance Spectroscopy. JAOCS, Vol. 77, no. 5 (2000) <kNOTHE hnmr 2000>

106. Gerhard Knothe. Rapid Monitoring of TRANSESTERIFICATION and Assessing BIODIESEL Fuel Quality by Near-Infrared Spectroscopy Using a Fiber-Optic Probe1JAOCS, Vol. 76, no. 7 (1999) <Knothe 1999 infrared>

107. Huali Wang Æ Haiying Tang Æ John Wilson, Steven O. Salley Æ K. Y. Simon Ng. Total Acid Number Determination of BIODIESEL and BIODIESEL Blends. J Am Oil Chem Soc (2008) 85:1083–1086 <Wang et al acid no det>

108. Júlio C. V. Dutra & Selma da C. Terzi & Juliana Vaz Bevilaqua & Mônica C. T. Damaso & Sônia Couri & Marta A. P. Langone & Lilian F. SennaLipase Production in Solid-State Fermentation Monitoring Biomass Growth of Aspergillus niger Using Digital Image Processing. Appl Biochem Biotechnol. DOI 10.1007/s12010-007-8068-0 <Artigos Soni.....>

109. Kapila Wadumesthrige Æ Jeremiah C. Smith Æ John R. Wilson Æ Steven O. Salley Æ K. Y. Simon Ng. Investigation of the Parameters Affecting the Cetane Number of BIODIESEL J Am Oil Chem Soc (2008) 85:1073–1081 <BIODIESEL factor cetanne 2008 kalipa>

110. Naoko Ellis ∗, Feng Guan, Tim Chen, Conrad Poon. Monitoring BIODIESEL production (TRANSESTERIFICATION) using in situ viscometer Chemical Engineering Journal 138 (2008) 200–206 <cej eLLIS ET AL 2008 IN SITU>

111. Perspectives on Quantitative Mid-FTIR Spectroscopy in Relation to Edible Oil and Lubricant Analysis: Evolution and Integration of Analytical Methodologies. Frederik R. van de Voort & Andrew Ghetler iego L. García-González & Yue D. Li. Food Anal. Methods (2008) 1:153–163 <mid FTIR 2008 van de Voort>

112. S. Pinzi, F. Priego Capote, J. Ruiz Jiménez, M.P. Dorado, M.D. Luque de Castro . Flow injection analysis-based methodology for automatic on-line monitoring and quality control for BIODIESEL production. Bioresource Technology 100 (2009) 421–427 <Automatic online 2009>

113. S.M. Lima1,a, T. Izida1, M.S. Figueiredo1, L.H.C. Andrade1, P.V. Del R´e2, N. Jorge2, E. Buba3, and F. Aristone. Analysis of BIODIESEL and frying vegetable oils by means of FTIR photoacoustic spectroscopyEur. Phys. J. Special Topics 153, 535–537 (2008) <Lima 2008 FTIR photospec>

114. T. A. Foglia&, K. C. Jones, J. G. Phillips. Determination of BIODIESEL and Triacylglycerols in Diesel Fuel by LC. Chromatographia 2005, 62, August (No. 3/4) <Foglia 2005 determination of Ester TG>

115. Yue Li Æ Diego L. Garcı´a-Gonza´lez, Xiuzhu Yu Æ Frederik R. van de Voort. Determination of Free Fatty Acids in Edible Oils with the Use of a Variable Filter Array IR Spectrometer. J Am Oil Chem Soc (2008) 85:599–604. <FFA determination IR 2008>

116. Yu-Jie Fu, Yuan-Gang Zu&, Li-Li Wang, Nai-Jing Zhang, Wei Liu, Shuang-Ming Li, Su Zhang. Determination of Fatty Acid Methyl Esters in BIODIESEL Produced from Yellow Horn Oil by LC. Chromatographia 2008, 67, January (No. 1/2) <LC 2008 Fu et al>

MIXING, MODIFICATION

117. Brajendra K. Sharmaa,b, Atanu Adhvaryua,b, Zengshe Liua, and Sevim Z. Erhana,. Chemical Modification of Vegetable Oils for Lubricant Applications. JAOCS 83, 129–136 (February 2006). <bRANJENDRA 2006 CHEN....>

118. Dario Frascari, Michele Zuccaro, Davide Pinelli, Alessandro Paglianti. A Pilot-Scale Study of Alkali-Catalysed Sunflower Oil TRANSESTERIFICATION with Static Mixing and with Mechanical Agitation <PAPER_BIODIEEL_DICMA 2007 for _EU_partmers>

119. leon Schumacher and Steven A. Howell. lubricating qualities of BIODIESEL and biodisel blends. Bioenegry 94, <lubricating_Qualities.........>

120. Zhong-Ming Wang*,***, Jin-Suk Lee**,†, Ji-Yeon Park**, Chuang-Zhi Wu* and Zhen-Hong Yuan*. Novel BIODIESEL production technology from soybean soapstock. Korean J. Chem. Eng., 24(6), 1027-1030 (2007) <wANG 2007...>

MODELLING, KINETICS121. Benjamas Cheirsilpa,∗, Aran H-Kittikuna, Suchart Limkatanyu. Impact of

TRANSESTERIFICATION mechanisms on the kinetic modeling of BIODIESEL production by immobilized lipase Biochemical Engineering Journal 42 (2008) 261–269 <KINETIC MODELING LIPASE>

122. Bruno Wenze, Maicon Tait, Aparecido Módenes. Alexander Kroumov. Modelling Chemical Kinetics of Soybean Oil TRANSESTERIFICATION Process for BIODIESEL Production: An Analysis of Molar Ratio between Alcohol and Soybean Oil Temperature Changes on the Process Conversion Rate. Bioautomation, 2006, 5, 13 – 22 <5_1.2>

123. E.Y. Kenig. Complementary modelling of fluid separation processes. chemical engineering research and design 86 ( 2008 ) 1059–1072 <kENIG 2008 MODELING.......>

124. Joelianingsiha,b,c,e, Hitoshi Maedaa,c, Shoji Hagiwaraa, Hiroshi Nabetania, Yasuyuki Sagarac, Tatang H. Soerawidjayad, Armansyah H. Tambunane, Kamaruddin Abdullahe. BIODIESEL fuels from palm oil via the non-catalytic TRANSESTERIFICATION in a bubble column reactor at atmospheric pressure: A kinetic study. Renewable Energy 33 (2008) 1629–

1636. <KINETIC STUDY NON-CATALYTIC jEO....>

125. Lily Amelia *, D.A. Wahab, A. Hassan. Modelling of palm oil production using fuzzy expert system. Expert Systems with Applications xxx (2009) xxx–xxx <palm oil fuzzy system>

126. Matthew Slinn and Kevin Kendall. Developing the reaction kinetics for a BIODIESEL reactor. Bioresource Technology 100 (2009) 2324–2327 <sLINN kENDALL.....>

127. Olivera S. Stamenkovic´ a, Zoran B. Todorovic´ a, Miodrag L. Lazic´ a, Vlada B. Veljkovic´ a,*, Dejan U. Skala. Kinetics of sunflower oil methanolysis at low temperatures. Bioresource Technology 99 (2008) 1131–1140 <kINETIC OF SUNFLOWER OIL...>

ANN

128. B. Ghobadian a,* , H. Rahimi a, A.M. Nikbakht a, G. Najafi a, T.F. Yusaf. Diesel engine performance and exhaust emission analysis using waste cooking BIODIESEL fuel with an artificial neural network. Renewable Energy 34 (2009) 976–982 <Ghobadian 2009 neural network>

129. Maciej Ławry n´ czuk∗. Modelling and nonlinear predictive control of a yeast fermentation biochemical reactor using neural networks. Chemical Engineering Journal 145 (2008) 290–307 <LAWRYNCZUK 2008 MODELING>

PROPERTIES - VISCOSITY

130. A. Gopinath, Sukumar Puhan*, G. Nagarajan. Theoretical modeling of iodine value and saponification value of BIODIESEL fuels from their fatty acid composition. Renewable Energy xxx (2009) 1–6 <Gopinath 2009.......>

131. Daniel P. Geller and John W. Goodrum*. Rheology of Vegetable Oil Analogs and Triglycerides. JAOCS, Vol. 77, no. 2 (2000) <Rheology of vegetable oil.........>

132. R.O. Dunn. Low-Temperature Flow Properties of Vegetable Oil/Cosolvent Blend Diesel Fuels. JAOCS, Vol. 79, no. 7 (2002) <Flow properties of veg...>

133. THE TEMPERATURE DEPENDENCE OF DYNAMIC VISCOSITY FOR SOME VEGETABLE OILS <abramovic........>

134. Wenlei Xie* and Haitao Li. Hydroxyl Content and Refractive Index Determinations on Transesterified Soybean Oil. JAOCS, Vol. 83, no. 10 (2006) <xIE 2006 rEFRACTIVE iNDEX .....>

135. Wenqiao Yuana, Alan C. Hansena,*, Qin Zhanga, and Zhongchao Tanb. Temperature-Dependent Kinematic Viscosity of Selected BIODIESEL Fuels and Blends with Diesel Fuel. JAOCS, Vol. 82, no. 3 (2005)<yAN 2005 TEMP......>

BATCH / CSTR

136. Darnoko, D., and M. Cheryan, Kinetics of Palm Oil TRANSESTERIFICATION in a Batch Reactor, J. Am. Oil Chem. Soc. 77:1263–1267 (2000).

137. GwI-TAEK JEONG 1 AND DON-HEE PARK. Batch (One- and Two-Stage) Production of BIODIESEL Fuel From Rapeseed Oil. Applied Biochemistry and Biotechnology, Vol. 129-132, 2006 <jEONG 2006A gt.......>

138. Maryann Ehly a, Paul J. Gemperline a,∗, Alison Nordon, David Littlejohn b, J. Katy Basford b, Martin De Cecco. Scale-up of batch kinetic models. Analytica Chimica Acta 595 (2007) 80–88 <AnalChimActa2007....>

139. T. Leevijit a,b,*, C. Tongurai c, G. Prateepchaikul b, W. Wisutmethangoon. Performance test of a 6-stage continuous reactor for palm methyl ester production. Bioresource Technology 99 (2008) 214–221<Leevijit T 2008>

RATE OF REACTION140. A.K. Gupta and S.V.A.R. Sastry. DEVELOPING THE RATE-EQUATION

FOR BIODIESEL PRODUCTION REACTION. Advances in Energy Research (AER – 2006) <gUPTA......>

AGITATION141. Olivera S. Stamenkovic´ a, M.L. Lazic´ a, Z.B. Todorovic´ a, V.B. Veljkovic´

a,*, D.U. Skala. The effect of agitation intensity on alkali-catalyzed methanolysis of sunflower oil. Bioresource Technology 98 (2007) 2688–2699 <THE EFFECT OF AGITATION...>

MICROALGAE142. Peer M. Schenk & Skye R. Thomas-Hall & Evan Stephens & Ute C. Marx &

Jan H. Mussgnug & Clemens Posten & Olaf Kruse & Ben Hankamer. Second Generation Biofuels: High-Efficiency Microalgae for BIODIESEL Production. Bioenerg. Res. (2008) 1:20–43 <pEER 2008 microalgae>

143.

BOOK topics

144. Ayhan Demibras Current Technologies in BIODIESEL Production <Ayhan Demibras: a realistic alternatice>

145. Gerhard Knothe*, Robert O. Dunn and Marvin O. Bagby. BIODIESEL: The Use of Vegetable Oils and Their Derivatives as Alternative Diesel Fuels. Retrieved from journeytoforever.org/biofuel_library/VegetableOilsKnothe.pdf on the 4th feb 2009 <VegeOilAsAlterDiesFuel>

146. Judy Jarnefeld, P.E..INTEGRATED MULTISTAGE SUPERCRITICAL TECHNOLOGY TO PRODUCE HIGH QUALITY VEGETABLE OIL AND BIOFUELS Stage I: March 13-July 31, 2006 Final Report Prepared for THE NEW YORK STATE ENERGY RESEARCH AND DEVELOPMENT AUTHORITY Albany, NY

147. WL. Griffith and AL. Compere. correlating microemulsion fuel composotion structure and combustion propereties. <oak ridge natl lab>

148. Martin Cismondi, Michael L. Michelsen, and Marcelo S. Zabaloy. Automated Generation of Phase Diagrams for Binary Systems with Azeotropic Behavior. Ind. Eng. Chem. Res., 2008, 47 (23), 9728-9743 • Publication Date (Web): 05 November 2008<IECR47(2008)9728-9743>

BINARY

149. Jos J. Segovia, Mara C. Martn, Csar R. Chamorro, and Miguel A. Villaman. Vapor−Liquid Equilibrium of Ternary Mixtures Containing Methyl tert-Butyl Ether and/or Substitution Hydrocarbons. Methyl tert-Butyl Ether + Heptane + Cyclohexane and Methyl tert-Butyl Ether + Cyclohexane + 1-Hexene at 313.15 K. J. Chem. Eng. Data, 1998, 43 (6), 1021-1026• DOI: 10.1021/je980108i • Publication Date (Web): 20 October 1998 <je98.....>

150. Martın Cismondi, Michael L. Michelsen. Global phase equilibrium calculations: Critical lines, critical end points and liquid–liquid–

vapour equilibrium in binary mixtures. J. of Supercritical Fluids 39 (2007) 287–295 <JSF39(2007)...>

151. Q.F. Meng, L.R. Teng, J.H. Lu, C.J. Jiang, C.H. Gao, T.B. Du, C.G. Wu, X.C. Guo, and Y.C. Liang. Determination of Methanol and Ethanol Synchronously in Ternary Mixture by NIRS and PLS Regression*. Gervasi et al. (Eds.): ICCSA 2005, LNCS 3480, pp. 1040–1045, 2005. © Springer-Verlag Berlin Heidelberg 2005 <tenary>

ALTERNATIVE RAW MATERIAL

152. Ali Keskina, Metin Gu¨ ru¨ b,#, Duran Altiparmakc, Kadir Aydin. Using of cotton oil soapstock BIODIESEL–diesel fuel blends as an alternative diesel fuel. Renewable Energy 33 (2008) 553–557<Soapstock 2008>

153. Zhong-Ming Wang*,***, Jin-Suk Lee**,†, Ji-Yeon Park**, Chuang-Zhi Wu* and Zhen-Hong Yuan. Novel BIODIESEL production technology from soybean soapstock. Korean J. Chem. Eng., 24(6), 1027-1030 (2007) SHORT COMMUNICATION <SOAPSTOCK 2007>

154.

Yet to find

Schwab, AW., Dykstra GJ., Selke E., Sorenson SC., and Pryde EH.: Diesel fuel from thermal decomposition of soybean oil. JAOCS., 65, 1781-1786. 1998

Pryde EH. Vegetable Oil as fuel alternatives-symopsium overview. JAOCS, 61, 1609-1610, 1984

Ziejewski, M., Kaufman KR., Schwab AW., and Pyrde EH. Diesel engine evaluation of an nonionic sunflower oil - aqueous ethanol microemulsion JAOCS., 61, 1620-1626. 1984

Pryde, E. H. (1984) Vegetable oils as fuel alternatives — Symposium overview. Journal of the American Oil Chemists Society 61(10)

BIODIESEL

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phaseMICROWAVETRANSESTERIFICATION

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