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Review

Test methods for the determination of biodiesel stability

Jiayu Xin Yoshida-honmachi, Sakyo-ku, Kyoto 606-8501, Japan. [email protected]
&
Shiro Saka Graduate School of Energy Science, Kyoto University, Kyoto, Japan
Pages 275-289 | Published online: 09 Apr 2014

Bibliography

  • Alan C, Qin Z, Peter W. Ethanol–diesel fuel blends – a review. Bioresource Technol.96,277–285 (2005).
  • Bartholomew. Vegetable oil fuel. J. Am. Oil Chem. Soc.58,286–288 (1981).
  • Pryde EH. Vegetable oil as diesel fuel: overview. J. Am. Oil Chem. Soc.60,1557–1558 (1983).
  • Adams C, Peters JF, Rand MC, Schroer BJ, Ziemke MC. Investigation of soybean oil as a diesel fuel extender: endurance tests. J. Am. Oil Chem. Soc.60,1574–1579 (2001).
  • Shay EG. Diesel fuel from vegetable oils: status and opportunities. Biomass Bioenergy4,227–242 (1993).
  • Srivastava A, Prassad R. Triglycerides-based diesel fuels. Renew. Sustain. Energ. Rev.4,14–24 (2000).
  • Katikaneni SPR, Adjaye JD, Idem RO, Bakhshi NB. Performance studies of various cracking catalysts in the conversion of canola oil to fuels and chemicals in a fluidized-bed reactor. J. Am. Oil Chem. Soc.75,381–391 (1998).
  • Lima DG, Soares VCD, Ribeiro EB et al. Diesel-like fuel obtained by pyrolysis of vegetable oils. J. Anal. Appl. Pyrolysis71(2),987–996 (2004).
  • Schwab AW, Bagby MO, Freedman B. Preparation and properties of diesel fuels from vegetable oils. Fuel66(10),1372–1378 (1987).
  • Ziejewski M, Kowfonan KR, Schwab AW, Pryde EH. Diesel engine evaluation of a nonionic sunflower oil – aqueous ethanol microemulsion. J. Am. Oil Chem. Soc.61,1620–1626 (1984).
  • Mittelbach M, Remschmidt C. Biodiesel – The Comprehensive Handbook. Boersedruck Ges.m.b.H, Graz, Austria, 3–4 (2004).
  • Ma F, Clements D, Hanna M. Biodiesel fuel from animal fat. Ancillary studies on transesterification of beef tallow. Industr. Eng. Chem. Res.37,3768–3771 (1998).
  • Mittelbach M, Remschmidt C. Biodiesel – The Comprehensive Handbook. Boersedruck Ges.m.b.H, Graz, Austria, 148–154 (2004).
  • Lacoste F, Lagardere L. Quality parameters evolution during biodiesel oxidation using Rancimat test. Eur. J. Lipid Sci. Technol.105(3–4),149–155 (2003).
  • Leung DYC, Koo BCP, Guo Y. Degradation of biodiesel under different storage conditions. Bioresource Technol.97(2),250–256 (2006).
  • Bode HB, Kerkhoff K, Jendrossek D. Bacterial degradation of natural and synthetic rubber. Biomacromolecules2(1),295–303 (2001).
  • Baciocchi E, Del Giacco T, Lanzalunga O, Lapi A, Raponi D. The singlet oxygen oxidation of chlorpromazine and some phenothiazine derivatives. Products and reaction mechanisms. J. Org. Chem.72(15),5912–5915 (2007).
  • Hess PS, O’Hare GA. Oxidation of linseed oil. Indust. Eng. Chem.42(7),1424–1431 (1950).
  • Reitsema RH, Cramer FJ. Oxidation of peppermint oil. Indust. Eng. Chem.44(1),176–180 (1952).
  • Xie G, Barcelona MJ. Sequential chemical oxidation and aerobic biodegradation of equivalent carbon number-based hydrocarbon fractions in jet fuel. Environ. Sci. Technol.37(20),4751–4760 (2003).
  • Eser S, Venkataraman R, Altin O. Utility of temperature-programmed oxidation for characterization of carbonaceous deposits from heated jet fuel. Indust. Eng. Chem. Res.45(26),8956–8962 (2006).
  • Stadtman ER, Berlett BS. Reactive oxygen-mediated protein oxidation in aging and disease. Chem. Res. Toxicol.10(5),485–494 (1997).
  • Bieschke J, Zhang Q, Bosco DA et al. Small molecule oxidation products trigger disease-associated protein misfolding. Accounts Chem. Res.39(9),611–619 (2006).
  • Scott G. Antioxidants. Bull. Chem. Soc. Japan61,165–170 (1988).
  • Backstrom HLJ. The chain-reaction theory of negative catalysis. J. Am. Chem. Soc.49(6),1460–1472 (1927).
  • Saka S. All about biodiesel. Industrial Publishing and Consulting, Inc., Tokyo, Japan, 231 (2004).
  • Chaiyasit W, Elias RJ, McClements DJ, Decker EA. Role of physical structures in bulk oils on lipid oxidation. In: Critical Reviews in Food Science & Nutrition. Taylor & Francis Ltd, London, UK, 299–317 (2007).
  • Morita M, Tokita M. Hydroxy radical, hexanal, and decadienal generation by autocatalysts in autoxidation of linoleate alone and with eleostearate. Lipids43(7),589–597 (2008).
  • de Guzman R, Tang H, Salley S, Ng K. Synergistic effects of antioxidants on the oxidative stability of soybean oil- and poultry fat-based biodiesel. J. Am. Oil Chem. Soc.86(5),459–467 (2009).
  • Selke E, Rohwedder W, Dutton H. Volatile components from triolein heated in air. J. Am. Oil Chem. Soc.54(2),62–67 (1977).
  • Choe E, Min DB. Mechanisms and factors for edible oil oxidation. Comp. Rev. Food Sci. Food Safety5(4),169–186 (2006).
  • Frankel EN. Lipid Oxidation. The Oily Press, PJ Barnes & Associates, Bridgwater, UK, 1–48 (2005).
  • Zabarnick S, Mick MS. Inhibition of jet fuel oxidation by addition of hydroperoxide-decomposing species. Indust. Eng. Chem. Res.38(9),3557–3563 (1999).
  • Kuprowicz NJ, Zabarnick S, West ZJ, Ervin JS. Use of measured species class concentrations with chemical kinetic modeling for the prediction of autoxidation and deposition of jet fuels. Energy Fuels21(2),530–544 (2007).
  • Swern D, Scanlan J, Knight H. Mechanism of the reactions of oxygen with fatty materials. Advances from 1941 through 1946. J. Am. Oil Chem. Soc.25(6),193–200 (1948).
  • Frankel E. Lipid oxidation: mechanisms, products and biological significance. J. Am. Oil Chem. Soc.61(12),1908–1917 (1984).
  • Batts BD, Fathoni AZ. A literature review on fuel stability studies with particular emphasis on diesel oil. Energy Fuels5(1),2–21 (1991).
  • Neff W, Frankel E, Fujimoto K. Autoxidative dimerization of methyl linolenate and its monohydroperoxides, hydroperoxy epidioxides and dihydroperoxides. J. Am. Oil Chem. Soc.65(4),616–623 (1988).
  • Frankel E, Evans C, Cowan J. Thermal dimerization of fatty ester hypdroperoxides. J. Am. Oil Chem. Soc.37(9),418–424 (1960).
  • Miyashita K, Hara N, Fujimoto K, Kaneda T. Dimers formed in oxygenated methyl linoleate hydroperoxides. Lipids20(9),578–587 (1985).
  • Formo MW, Jungermann E, Noris F, Sonntag NOV. Bailey’s Industrial Oil and Fat Products, Volume I (Fourth Edition). Swern D (Ed.). John Wiley and Son, Oxford, UK, 698–711 (1979).
  • Korus R, Mousetis T. Polymerization of safflower and rapeseed oils. J. Am. Oil Chem. Soc.61(3),537–540 (1984).
  • Lin C-Y, Chiu C-C. Effects of oxidation during long-term storage on the fuel properties of palm oil-based biodiesel. Energy Fuels23(6),3285 (2009).
  • Bruno TJ, Wolk A, Naydich A. Stabilization of biodiesel fuel at elevated temperature with hydrogen donors: evaluation with the advanced distillation curve method. Energy Fuels23(2),1015–1023 (2009).
  • Knothe G. Analysis of oxidized biodiesel by 1H-NMR and effect of contact area with air. Eur. J. Lipid Sci. Technol.108(6),493–500 (2006).
  • Bondioli P, Gasparoli A, Della Bella L et al. The prediction of biodiesel storage stability. Proposal for a quick test. Eur. J. Lipid Sci. Technol.106(12),822–830 (2004).
  • Bondioli P, Gasparoli A, Della Bella L, Tagliabue S, Toso G. Biodiesel stability under commercial storage conditions over one year. Eur. J. Lipid Sci. Technol.105(12),735–741 (2003).
  • deMan J, Tie F, deMan L. Formation of short chain volatile organic acids in the automated AOM method. J. Am. Oil Chem. Soc.64(7),993–996 (1987).
  • McCormick RL, Ratcliff M, Moens L, Lawrence R. Several factors affecting the stability of biodiesel in standard accelerated tests. Fuel Process. Technol.88(7),651–657 (2007).
  • EN 14214. International standard. Automotive fuels – fatty acid methyl esters (FAME) for diesel engines – requirements and test methods (2003).
  • ASTM D 6571-6508. Standard specification for biodiesel fuel blend stock (B100) for middle distillate fuels. ASTM International, (2008).
  • Hadorn H, Zurcher K. Zur Bestimmung der oxydations-stabilitat von Olen und Fetten. Dtsch Lebensm Rundsch70,57–65 (1974).
  • ISO 6886. Animal and vegetable fats and oils – determination of oxidative stability (accelerated oxidation test) (2006).
  • ISO 6886. Animal and vegetable fats and oils – determination of oxidative stability (accelerated oxidation test) (1996).
  • ASTM D 7467-7408. Specification for diesel fuel oil, biodiesel blend (B6 to 20) (2008).
  • ASTM D 396-08b. Specification for fuel oils, adds biodiesel blend specifications up to 5% by volume (B5) (2008).
  • GB/T 20828-22007. Biodiesel blend stock (BD100) for diesel engine fuels. Standardization Administration of the People’s Republic of China (2007).
  • Report of the BIOSTAB project results. Stability of Biodiesel, Used as a Fuel for Diesel Engines and Heating Systems. BLT Wieselburg, Austria (2003)
  • Westbrook SR. An Evaluation and Comparison of Test Methods to Measure the Oxidation Stability of Neat Biodiesel. Southwest Research Institute, TX, USA (2005).
  • EN 15751. Automotive fuels – fatty acid methyl esters (FAME) fuel and blends with diesel fuel – determination of oxidation stability by accelerated oxidation method. German version (2008).
  • ISO 12205. Petroleum products – determination of the oxidation stability of distillate fuels (1995).
  • DIN EN 590. Automotive fuels – diesel – requirements and test methods (2006).
  • ASTM D 7467-09a. Standard specification for diesel fuel oil, biodiesel blend (B6 to B20) (2009).
  • ASTM D 6571-07b. Standard specification for biodiesel fuel blend stock (B100) for middle distillate fuels. ASTM International (2007).
  • ASTM D 6571-6509. Standard specification for biodiesel fuel blend stock (B100) for middle distillate fuels. ASTM International (2009).
  • Tang H, Abunasser N, Wang A et al. Quality survey of biodiesel blends sold at retail stations. Fuel87(13–14),2951–2955 (2008).
  • ASTM D 2274. Standard test method for oxidation stability of distillate fuel oil (accelerated method). ASTM International (2003).
  • ASTM D 6571-6503. Standard specification for biodiesel fuel blend stock (B100) for middle distillate fuels. ASTM International (2003).
  • Engine Manufactures Association of America. Test Specifications for Biodiesel Fuel. IL, USA (2006).
  • ASTM D7462-08. Standard test method for oxidation stability of biodiesel (b100) and blends of biodiesel with middle distillate petroleum fuel (accelerated method) (2008).
  • JIS K 2390:2008. Automotive fuels – fatty acid methyl ester (FAME) as blend stock. Japanese Industrial Standards Committee (2008).
  • Report of Advanced Industrial Science and Technology (AIST) and New Energy and Industrial Technology Development Organization (NEDO). Applicability of 100% Biodiesel Fuel for Common-Rail Fuel Injection System. May, 2007.
  • Sarin A, Arora R, Singh NP, Sharma M, Malhotra RK. Influence of metal contaminants on oxidation stability of Jatropha biodiesel. Energy34(9),1271–1275 (2009)
  • ASTM D 4625. Standard test method for distillate fuel storage stability at 43°C (110°F). ASTM International (2004).
  • McCormick RL, Westbrook SR. Empirical study of the stability of biodiesel and biodiesel blends, Milestone Report. National Renewable Energy Laboratory (2007).
  • ASTM D 7545-7509. Standard test method for oxidation stability of middle distillate fuels-rapid small scale oxidation test (RSSOT). ASTM International (2009).
  • Polavka J, Paligová J, Cvengroš J, Simon P. Oxidation stability of methyl esters studied by differential thermal analysis and rancimat. J. Am. Oil Chem. Soc.82(7),519–524 (2005).
  • Dantas M, Almeida A, Conceição M et al. Characterization and kinetic compensation effect of corn biodiesel. J. Thermal Anal. Calorimetry87(3),847–851 (2007).
  • Conceição MM, Candeia RA, Silva FC et al. Thermoanalytical characterization of castor oil biodiesel. Renew. Sustainable Energy Rev.11(5),964–975 (2007).
  • Santos N, Tavares M, Rosenhaim R et al. Thermogravimetric and calorimetric evaluation of babassu biodiesel obtained by the methanol route. J. Thermal Anal. Calorimetry87(3),649–652 (2007).
  • Du Plessis L, De Villiers J, Van Der Walt W. Stability studies on methyl and ethyl fatty acid esters of sunflower seed oil. J. Am. Oil Chem. Soc.62(4),748–752 (1985).
  • Du Plessis LM. Plant oils as diesel fuel extenders: stability tests and specifications on different grades of sunflower seed and soybean oils. CHEMSA8(11),150–154 (1982).
  • Bondioli P, Gasparoli A, Lanzani A et al. Storage stability of biodiesel. J. Am. Oil Chem. Soc.72(6),699–702 (1995).
  • Mittelbach M, Gangl S. Long storage stability of biodiesel made from rapeseed and used frying oil. J. Am. Oil Chem. Soc.78(6),573–577 (2001).
  • Paligova J, Jorikova L, Cvengros J. Study of FAME Stability. Energy Fuels22(3),1991–1996 (2008).
  • Martín-Polvillo M, Márquez-Ruiz G, Dobarganes M. Oxidative stability of sunflower oils differing in unsaturation degree during long-term storage at room temperature. J. Am. Oil Chem. Soc.81(6),577–583 (2004).
  • Bouaid A, Martinez M, Aracil J. Long storage stability of biodiesel from vegetable and used frying oils. Fuel86(16),2596–2602 (2007).
  • Das LM, Bora DK, Pradhan S, Naik MK, Naik SN. Long-term storage stability of biodiesel produced from Karanja oil. Fuel (2010) (In Press).
  • Knothe G. Some aspects of biodiesel oxidative stability. Fuel Process. Technol.88(7),669–677 (2007).
  • Bondioli P, Gasparoli A, Della Bella L, Tagliabue S. Evaluation of biodiesel storage stability using reference methods. Eur. J. Lipid Sci. Technol.104(12),777–784 (2002).
  • Dunn R. Effect of oxidation under accelerated conditions on fuel properties of methyl soyate (biodiesel). J. Am. Oil Chem. Soc.79(9),915–920 (2002).
  • EN 14112. Fat and oil derivatives. Fatty acid methyl esters (FAME). Determination of oxidation stability (accelerated oxidation test). Beuth Verlag GmbH, Germany (2003).
  • D 4625-92. Standard test method for distillate fuel storage stability at 43°C (110°F). ASTM International (1998).
  • D 3241-02a. Standard test method for thermal oxidation stability of aviation turbine fuels (JFTOT procedure). ASTM International (2002).
  • ASTM D 525-501. Standard test method for oxidation stability of gasoline (induction period method). ASTM International (2001).
  • ASTM D 6468. Standard test method for high temperature stability of distillate fuels. ASTM International (1999).
  • ASTM D 873-99a. Standard test method for oxidation stability of aviation fuels (potential residue method). ASTM International (1999).
  • Berthiaume D, Tremblay A. NRCan project CO414 CETC-327 report, study of the Rancimat test method in measuring the oxidation stability of biodiesel ester and blends. OLEOTEK Inc. (2006)
  • Xin J, Imahara H, Saka S. Kinetics on the oxidation of biodiesel stabilized with antioxidant. Fuel88(2),282–286 (2009).
  • Levenspiel O. Chemical Reaction Engineering. John Wiley and Sons, Inc., NY, USA, 27–29 (2002).
  • Mittelbach M, Schober S. The influence of antioxidants on the oxidation stability of biodiesel. J. Am. Oil Chem. Soc.80(8),817–823 (2003).
  • CSN 65 6509. Motorova paliva-Palivo pro vznetove motory s obsahem methylesteru repkoveho oleje do 5% – technicke pozadavky a metody zkouseni. CSNI, Czech Republic (1998).
  • UNI 10946. Automotive fuels-fatty acid methyl esters (FAME) for diesel engines Requirements and test methods. UNI, Italy (2001).
  • UNI 10947. Heating oils- fatty acid methyl esters (FAME) for diesel engines. Requirements and test methods. (2001).

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