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Biofuels Volume 7, 2016 - Issue 6
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Articles

Thermophysical properties validation for soy methyl ester biodiesel through experimental spray data

Ehsan TootoonchiMechanical and Aerospace Engineering Department, Florida Institute of Technology, Melbourne, USACorrespondence[email protected]
&
Gerald J. MicklowMechanical and Aerospace Engineering Department, Florida Institute of Technology, Melbourne, USA
Pages 677-688 | Received 05 Feb 2016, Accepted 04 Apr 2016, Published online: 08 Jun 2016

Reference

  • U. E. I. Administration. Monthly biodiesel production report. tech. rep., Washington (DC): U.S. Department of Energy; 2016.
  • Ambrose D,Tsonopoulos C. Vapor-liquid critical properties of elements and compounds.2. normal alkanes. J Chem Eng Data. 1995;40(3):531–546.
  • Tootoonchi E, Micklow G. Pollutant emission reduction and increased efficiency for compression ignition engines utilizing biodiesel through optimization of the fuel injection process. tech. rep., SAE Technical Paper Detroit (MI): SAE International; 2015.
  • Bondi A. Estimation of heat capacity of liquids. Ind Eng Chem Fund. 1966;5(4):442–449.
  • Ruzicka Jr V, Domalski ES. Estimation of the heat capacities of organic liquids as a function of temperature using group additivity. I. Hydrocarbon compounds. J phys chem ref data. 1993;22(3):597–618.
  • de Freitas Borghi D, de Almeida Abreu CR, Guirardello R. Thermochemical properties estimation for biodiesel related mixtures. Chem Eng Trans. 2015;43:1–10.
  • Da Silva N, Batistella CB, Maciel Filho R, et al. Investigation of biofuels properties. Chem Eng Trans. 2011;25:851–856.
  • Pauly J, Kouakou AC, Habrioux M, et al. Heat capacity measurements of pure fatty acid methyl esters and biodiesels from 250 to 390k. Fuel 2014;137:21–27.
  • Schreiber DR, Pitzer KS. Equation of state in the acentric factor system. Fluid Phase Equilibria. 1989;46(2–3):113–130.
  • Yuan W, Hansen A, Zhang Q. Predicting the physical properties of biodiesel for combustion modeling. TASAE. 2003;46(6):1487–1493.
  • Fish LW, Lielmezs J. General method for predicting the latent heat of vaporization. Ind Eng Chem Fundam. 1975;14(3):248–256.
  • Thek RE, Stiel LI. A new reduced vapor pressure equation. AIChE Journal. 1966;12(3):599–602.
  • Ceriani R, Gani R, Liu Y. Prediction of vapor pressure and heats of vaporization of edible oil/fat compounds by group contribution. Fluid Phase Equilibr. 2013;337:53–59.
  • Chen N. Generalized correlation for latent heat of vaporization. J Chem Eng Data. 1965;10(2):207–210.
  • Riedel L. Kritischer Koezient, Dichte des gesŁattigten Dampfes und Verdampfungswarme. Untersuchungen uber eine Erweiterung des Theorems der ubereinstimmenden Zustande. Teil III. Chemie Ingenieur Technik. 1954;26(12):679–683.
  • Antoine C. Thermodynamic vapor pressures: New relation between the pressures and the temperatures (Thermodynamique, Tensions des Vapeurs: Novelle Relation entre les Tensions et les Temperatures). CR Hebd Seances Acad Sci. 1888;107(681):836.
  • Wagner W. A new correlation method for thermodynamic data applied to the vapor pressure curve of argon, nitrogen and water. London: IUPAC Thermodynamic Tables Project Centre, Department of Chemical Engineering and Chemical Technology, Imperial College of Science and Technology; 1977.
  • Forero G LA, Velasquez J JA. Wagner liquid-vapour pressure equation constants from a simple methodology. J Chem Thermodyn. 2011;43(8):1235–1251.
  • Ambrose D, Walton J. Vapour pressures up to their critical temperatures of normal alkanes and 1-alkanols. Pure and Applied Chemistry. 1989;61(8):1395–1403.
  • Tu CH. Group-contribution method for the estimation of vapor pressures. Fluid Phase Equilibria. 1994;99:105–120.
  • Orrick C, Erbar J. Estimation of viscosity for organic liquids. Proposition Report. Stillwater: Oklahoma State University; 1973.
  • Knothe G, Steidley KR. Kinematic viscosity of biodiesel components (fatty acid alkyl esters) and related compounds at low temperatures. Fuel. 2007;86(16): 2560–2567.
  • Spencer CF, Danner RP. Improved equation for prediction of saturated liquid density. J Chem Eng Data. 1972;17(2):236–241.
  • Ivanis GR, Radovi IR, Veljkovic VB, et al. Biodiesel density and derived thermodynamic properties at high pressures and moderate temperatures. Fuel. 2016;165:244–251.
  • Elbro HS, Fredenslund A, Rasmussen P. Group contribution method for the prediction of liquid densities as a function of temperature for solvents, oligomers, and polymers. Ind Eng Chem Res. 1991;30(12):2576–2582.
  • Pratas MJ, Freitas SV, Oliveira MB, et al. Biodiesel density: experimental measurements and prediction models. Energ Fuel. 2011;25(5):2333–2340.
  • Curl R, Pitzer K. Volumetric and thermodynamic properties of fluids enthalpy, free energy, and entropy. Industrial & Engineering Chemistry. 1958;50(2):265–274.
  • Sastri S, Rao K. Quick estimating for thermal conductivity. Chem Eng. 1993;100(8):106–107.
  • Macleod D. On a relation between surface tension and density. Trans Faraday Soc. 1923;19(July):38–41.
  • Allen CA, Watts KC, Ackman RG. Predicting the surface tension of biodiesel fuels from their fatty acid composition. J Am Oil Chem Soc. 1999;76(3):317–323.
  • Freitas SV, Oliveira MB, Queimada AJ, et al. Measurement and prediction of biodiesel surface tensions. Energ Fuel. 2011;25(10):4811–4817.
  • Ramirez-Verduzco LF. Models for predicting the surface tension of biodiesel and methyl esters. Renew. Sust Energ Rev. 2015;41:202–216.
  • Diaz OC, Schoeggl F, Yarranton H, et al. Equation of state modeling for the vapor pressure of biodiesel fuels. Fluid Phase Equilibr. 2015;389:55–63.
  • Wang T, Meng X, Song X, et al. Updated prediction of the physical properties needed for modeling the spray behavior of biodiesel fuel. SAE Technical Paper, SAE International; 2014. doi:10.4271/2014-01-2750
  • Anand K, Sharma R, Mehta PS. A comprehensive approach for estimating thermophysical properties of biodiesel fuels. Appl Therm Eng. 2011;31(2):235–242.
  • Micklow GJ, Krishna A, Abdel-Salam TM. Fuel spray modeling for direct injection compression ignition engine configurations in 2008 World Congress, Warrendale (PA): SAE International; 2008.
  • Guan L, Tang C, Yang K, et al. Effect of di-n-butyl ether blending with soybean-biodiesel on spray and atomization characteristics in a common-rail fuel injection system. Fuel. 2015;140:116–125.
  • Li Y, Tian G, Xu H. Application of biodiesel in automotive diesel engines. Fang Z (ed). Biodiesel - Feedstocks, production and applications, 1st ed. Rijeka: InTech; 2012. pp. 387–406.
  • Amsden AA, O'rourke P, Butler T. Kiva-ii: a computer program for chemically reactive flows with sprays. tech. rep., Los Alamos (NM): Los Alamos National Lab.; 1989.
  • O'Rourke PJ, Amsden AA. The tab method for numerical calculation of spray droplet breakup. tech. rep., Los Alamos (NM): Los Alamos National Lab.; 1987.
  • Ashgriz N. Handbook of atomization and sprays: theory and applications. Toronto (ON): Springer Science & Business Media; 2011.
  • Genzale CL, Pickett LM, Kook S. Liquid penetration of diesel and biodiesel sprays at late-cycle post-injection conditions. SAE Int J Engines 2010;3(1):479–495.
  • Amsden AA. Kiva-3v, release 2, improvements to kiva-3v. Report No. LA-UR-99-915. Los Alamos (NM): Los Alamos National Laboratory; 1999.
  • Dukowicz JK. A particle-fluid numerical model for liquid sprays. J Comput Phys. 1980;35(2):229–253.
  • O'Rourke PJ. Statistical properties and numerical implementation of a model for droplet dispersion in a turbulent gas. J Comput Phys. 1989;83(2):345–360.
  • ORourke P. Collective drop effects in vaporizing fuel sprays. PhD thesis, Ph.D. Thesis 1532-T, Princeton University, Princeton (NJ); 1981.
  • Reid RC, Prausnitz JM, Poling BE. The properties of gases and liquids. New York (NY): McGraw Hill Book Co.; 1987.
  • Osmont A, Catoire L, Gokalp I. Thermochemistry of methyl and ethyl esters from vegetable oils. Int J Chem Kinet. 2007;39(9):481–491.
  • Stull DR. Vapor pressure of pure substances. organic and inorganic compounds. Ind Eng Chem. 1947;39(4):517–540.
  • Yoon SH, Park SH, Lee CS. Experimental investigation on the fuel properties of biodiesel and its blends at various temperatures. Energ Fuel. 2007;22(1):652–656.
  • Braeuer A. In situ spectroscopic techniques at high pressure, 1st ed. Amsterdam: Elsevier; 2015.

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