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The aim of the study was to determine the sulphur content in 33 samples of oils pressed from different species of vegetable. The unconventional oil samples were purchased from commercial store. Oils was analysed in terms of sulphur content according to the method using X-ray fluorescence spectrometry with wave dispersion, that is described in the PN-EN ISO 20884, 2012 standard. Obtained results of sulphur analysis were presented as the arithmetic mean ± standard deviation (from three replicates) and statistically analysed using the Statistica 13.0 PL program. In order to indicate significance of differences between oils analysis of variance (ANOVA) with Tukey’s test of p ≤ 0.05 significance level was used. The statistical analysis indicated significant differences in the content of sulphur content in the analysed vegetable oils, which could affect the lubricity of prepared fuel blends and in some cases significantly, increase the sulphur content above acceptable value 10 ppm. It was concluded that vegetable oils could be a suitable raw material improving the lubricating properties of low-sulphur diesel oils. However, due to significant differences in the sulphur content in the analysed samples, the content of this element should be analysed beforehand in order to eliminate the possibility of exceeding the permissible level of sulphur in transport fuels.
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Czasopismo
Rocznik
Tom
Strony
31--36
Opis fizyczny
Bibliogr. 27 poz., rys.
Twórcy
autor
- University of Warmia and Mazury Department of Mechatronics and IT Education Sloneczna Street 46A, 10-710 Olsztyn, Poland tel.:+ 48 89 5245104, fax: +48 89 5245150
autor
- University of Warmia and Mazury Department of Mechatronics and IT Education Sloneczna Street 46A, 10-710 Olsztyn, Poland tel.:+ 48 89 5245104, fax: +48 89 5245150
autor
- University of Warmia and Mazury Chair of Plant Raw Materials Chemistry and Processing Cieszyński Square 1, 10-726 Olsztyn, Poland tel.:+ 48 89 5234113, fax: +48 89 5233466
Bibliografia
- [1] Agarwal, S., Chhibber, V. K, Bhatnagar, A. K., Tribological behavior of diesel fuels and the effect of anti-wear additives, Fuel, Elsevier, 106, 21-29, 2013.
- [2] Filipek-Mazur, B., Gondek, K., Plonowanie i zawartość siarki w gorczycy białej jako efekt stosowania wieloskładnikowych nawozów zawierających siarkę, Acta Agrophysica, Acta Agroph, 6, 343-351, 2005.
- [3] Barbour, R. H., Rickeard, D. J., Elliott, N. G., Understanding diesel lubricity, SAE Technical paper, SEA International, 2000-01-1918, 2000.
- [4] Bednarek, W., Tkaczyk, P., Dresler, S., Siarka w niektórych roślinach uprawnych Lubelszczyzny, Acta Agrophysica, Acta Agroph, 11, 575-587, 2008.
- [5] Droux, M., Sulphur assimilation and the role of sulphur in plant metabolism: a survey, Photosynthesis Research, Springer, 79, 331-348, 2004.
- [6] Esteban, B., Baquero, G., Puig, R., Riba, JR., Rius, A., Is it environmentally advantageous to use vegetable oil directly as biofuel instead of converting it to biodiesel?, Biomass and Bioenergy, Elsevier, 35, 1317-1328, 2011.
- [7] Fernando, S., Hanna, M., Adhikari, S., Lubricity char− acteristics of selected vegetable oils, animal fats, and their derivatives, Appl Engng Agric, Asabe, 23, 5-11, 2007.
- [8] Fox, N. J., Stachowiak, G. W., Vegetable oil-based lubricants – a review of oxidation, Tribology International, Elsevier, 40, 1035-1046, 2007.
- [9] Geller, D. P., Goodrum, J. W., Effects of specific fatty acid methyl esters on diesel fuel lubricity, Elsevier, Fuel 83, 2351-2356, 2004.
- [10] Grombacher, A., Nelson, L., Canola Production, A Publication of Nebraska NebGuide University, Agronomy section, G92-1076-A, 1992.
- [11] Hazrat, M. A., Rasul, M. G., Khan, M. M. K., Lubricity Improvement of the ultra-low sulphur diesel fuel with the biodiesel, Energy Procedia, Elsevier, 75, 111-117, 2015.
- [12] Hossain, A. K., Davies, P. A., Plants oils as fuels for compression ignition engines: a technical review and life cycle analysis, Renewable Energy, Elsevier, 35, 1-13, 2010.
- [13] Hughes, J. M., Mushrush, G. W., Hardy, D. R., Lubricity – enhancing properties of soy oil when used as a blending stock for middle distillate fuels, Industrial & Engineering Chemistry Research, ACS Publications, 4, 1386-1388, 2002.
- [14] Innis, S. M., Dyer, R. A., Dietary canola oil alters hematological indices and blood lipids in neonatal piglets fed formula, Biochemical and Molecular Action of Nutrients, JN The Journal of Nutrtion, 129, 1261-1268, 1999.
- [15] Kenesey, E., Ecker, A., Oxygen bond to improve the lubricity of fuel, Tribologie und Schmierungstechnik, Elsevier, 50, 21-26, 2003.
- [16] Laboratory SR, Lubricity Additive Study Results. Texas: Southwest Research Laboratory, 2007.
- [17] Lang, X., Dalai, A. K., Reaney, M. J., Hertz, P. B., Preparation and evaluation of vegetable oil derived biodiesel esters as lubricity additives, Lubrication Science, Tribotest, 8, 131-150, 2001.
- [18] Marschner, H., Adaptation of Plants to Adverse Chemical Soil Conditions, Mineral Nutrition of higher Plants, Academic Press, Marschner, P., 41, 453-459, 2011.
- [19] Matzke, M., Litzow U., Jess,, A., et al., Diesel lubricity requirements of future fuel injection equipment, SAE Technical paper, SEA International, 2009-01-0848, 2009.
- [20] Misra, R. D., Murthy, M. S., Straight vegetable oils usage in a compression ignition engine –review, Renewable and Sustainable Energy Reviews, Elsevier, 14, 3005-3013, 2010.
- [21] Muhammad, S., Khalil, I. A., Khan, S., Fatty acid composition of rape and mustard oilseed cultivars, Scientific khyber, 4, 29-36, 1991.
- [22] Raheman, H., Phadatare A. G., Diesel engine emissions and performance from blends of karanja methyl ester and diesel. Biomass and Bioenergy, Elsevier, 27, 393-397, 2004.
- [23] Rudnick, L. R., Additives for industrial lubricant applications, Lubricant Additives Chemistry and Applications, CRC Press Taylor & Francis Group, Rudnick LR., 493-506, 2009.
- [24] Tausz, M., Sulphur in forest ecosystems, Sulphur in Plants An Ecological Perspective, Hawkesford, M.J., De Kok, L.J., 47-51, 2007.
- [25] Suarez, A. N., Grahn, M., Pasaribu, R., Larsson, R., The influence of base oil polarity on the tribological performance of zinc dialkyl dithiophosphate additives, Tribology International,Elsevier, 43, 2268-2278, 2010.
- [26] Van Gerpen, J. H., Soylu, S., Chang, D. Y. Z., Evaluation of the lubricity of soybean oil-based additives in diesel fuel. Prepared for The United Soybean Board, Mechanical Engineering Department, Iowa State University, 1998.
- [27] Zhong L., Hu, C., Tan, Q., Liu, J., Sun, X., Effects of sulphur application on sulphur and arsenic absorption by rapeseed in arsenic-contaminated soil, Plant soil environ, CAAS, 57, 429-434, 2011.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2a91dcd0-eead-4f54-836d-d9bc4c9d17f7