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The influence of methyl esters on viscosity of biodiesel from waste and rapeseed oil blends

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Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: The aim of this article is to present problems in the production of energy from the renewable resources as is a biodiesel production. The use of human foods that are pure edible oils for biodiesel production is big ethical problem. This problem can be reduced with use of waste cooking oils for the biodiesel production. Besides this use of the waste cooking oils will reduce the raw material cost and also reduce the environment pollution that is a global problem. Design/methodology/approach: This article includes analysis and estimation of the methyl esters impact to the kinematic viscosity of biodiesels produced from various percentages of waste cooking oils and crude rapeseed oil blends. One of the most important physical properties of biodiesel that affect its use value is kinematic viscosity properties which are directly dependent on the composition of raw materials. After the transesterification process mono-alkyl esters (biodiesel), glycerol (main co-product), alcohol, catalyst, free fatty acids, residual glycerides compose the final mixture of biodiesel production process. Some important issues on the biodiesel quality control involve the monitoring of transesterification process with the quantification of mono-alkyl esters. Findings: With an increase of methyl esters content the kinematic viscosity of produced biodiesels decreases for both waste cooking oils WCO1 and WCO2, used for biodiesel production in various blends with crude rapeseed oil. Practical implications: The results presented in the paper can be applied in the industry for estimation and selection of the optimal percentages of waste cooking oils and crude rapeseed oil blends for the biodiesel production. Originality/value: This paper presents research of the influence of methyl esters on kinematic viscosity of biodiesels produced from the various blends of waste cooking oils and crude rapeseed oil. The further testing and improvements in waste oils purification and in transesterification process can lead to the better yield in biodiesel production.
Rocznik
Strony
73--77
Opis fizyczny
Bibliogr. 15 poz.
Twórcy
autor
  • Department of Materials Science and Engineering, Faculty of Engineering, University of Rijeka, Vukovarska 58, 51000 Rijeka, Croatia
autor
  • Polytechnic of Karlovac, Trg J.J.Strossmayera 9, 47000 Karlovac, Croatia
Bibliografia
  • [1] R. Nowosielski, A. Zajdel, Recycling’s technology, Journal of Achievements in Materials and Manufacturing Engineering 21/2 (2007) 85-88.
  • [2] R.H. Kozłowski, E. Kozłowska, LL.M., The polish proposal for environmental protection, Journal of Achievements in Materials and Manufacturing Engineering 55/1 (2012) 121-128.
  • [3] R. Nowosielski, M. Spilka, Sustainable technological process as an element of the sustainable development strategy realisation, Journal of Achievements in Materials and Manufacturing Engineering 48/2 (2011) 200-208.
  • [4] I.M. Atadashi, M.K. Aroua, A. Abdul Aziz, High quality biodiesel and its diesel engine application, A review Renewable and Sustainable Energy Reviews 14 (2010) 1999-2008.
  • [5] 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.
  • [6] H. Raheman, A.G. Phadatare, Diesel engine emissions and performance from blends of karanja methyl ester and diesel, Biomass Bioenergy 27 (2004) 393-400.
  • [7] Z. Jurac, V. Zlatar, Optimization of raw material mixtures in the production of biodiesel from vegetable and used frying oils regarding quality requirements in terms of cold flow properties, Fuel Processing Technology 106 (2013) 108-113.
  • [8] L. Meher, D.Vidya Sagar, S. Naik, Technical aspects of biodiesel production by transesterification a review, Renewable and Sustainable Energy Reviews 10/3 (2006) 248-268.
  • [9] R. Tate, K.C. Watts, C.A. Allen, K.I. Wilkie, The viscosities of three biodiesel fuels at temperatures up to 300°C, Fuel 85/7-8 (2006) 1010-1015.
  • [10] B. Tesfa, R. Mishra, F. Gua, N. Powles, Prediction models for density and viscosity of biodiesel and their effects on fuel supply system in CI engines, Renewable Energy 35 (2010) 2752-2760.
  • [11] B. Gutti, S.S. Bamidele, I.M. Bugaje, Biodiesel kinematics viscosity analysis of Balanite aegyptiaca seed oil, Journal of Engineering and Applied Sciences 7/ 4 (2012) 432-435.
  • [12] G. Knothe, K.R. Steidley, Kinematic viscosity of fatty acid methyl esters: Prediction, calculated viscosity contribution of esters with unavailable data, and carbon-oxygen equivalents, Fuel 90 (2011) 3217-3224.
  • [13] G. Knothe, K.R. Steidley, Kinematic viscosity of biodiesel fuel components and related compounds, Influence of compound structure and comparison to petrodiesel fuel components, Fuel 84 (2005) 1059-1065.
  • [14] S. Fernando, P. Karraa, R. Hernandez, S.K. Jha, Effect of incompletely converted soybean oil on biodiesel quality, Energy 32 (2007) 844-851.
  • [15] S. Kagawa, K. Takezono, S. Suh, Y. Kudoh, Production possibility frontier analysis of biodiesel from waste cooking oil, Energy Policy 55 (2013) 362-368.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cf1fc55e-b6d5-4fb1-b83e-33b047253dd9
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