Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The demand for petroleum products is increasing day by day, but mentioned products have limited sources and they are hazardous for environment. Therefore international organizations for example: International Maritime Organization, start to make restrictive requirements application petroleum products for safety environmental, what is the main reason of the use of the alternative liquids. One of the most popular environmental friendly, renewable and less toxic oils is vegetable oils. They can used as fuels and lubricants. The vegetable oils are mainly triglycerides, which contain three hydroxyl groups and long chain unsaturated free fatty acids attached at the hydroxyl group by ester linkages. They have good properties of lubricity, viscosity and thermal. In this article focused only on lubricants. Among a wide group of vegetable oils chosen rapeseed oil. Rapeseed is the most important and most efficient oilseed crop in Europe and it is the most common basestocks for vegetablebased lubricants. It conducted research into pure rapeseed oil and its different quantity additives to traditional marine motor oil – Marinol RG 1240. The two basic physic-chemical parameters, they were flash point and dependence of viscosity and temperature, were compare and assess. It has been proven that vegetable oils have a higher ignition temperature than mineral oils and a smaller viscosity change in the range of temperature presented.
Wydawca
Czasopismo
Rocznik
Tom
Strony
247--253
Opis fizyczny
Bibliogr. 21 poz., rys.
Twórcy
autor
- Gdynia Maritime University Department of Marine Propulsion Plants Morska Street 81-87, 81-225 Gdynia, Poland tel.:+48 58 5586371, fax: +48 58 5586399
Bibliografia
- [1] Asadauskas, S., Perez, .J. M., Duda, J. L, Oxidation Stability and Antiwear properties of High Oleic vegetable oils, Lubrication Engineering, Vol. 52, pp. 877-882, 1996.
- [2] Asadauskas, S., Perez, J. M, Duda, J. L., Lubrication properties of castor oil -Potential base stock for biodegradable lubricants, Lubrication Engineering, Vol. 53, pp. 35-40, 1997.
- [3] Balakrishna, B., Vegetable Oil as fuel in C.I engine: Problems and Possible Solutions, International Journal of Engineering Science and Technology, Vol. 4, No. 11, pp. 4687-4690, 2012.
- [4] Erhan, S. Z., Sharma, B. K., Perez, J. M., Oxidation and low temperature stability of vegetable oil-based lubricants, Industrial Crops and Products, Vol. 24, Is. 3, pp. 292-299, 2006.
- [5] Fox, N., Stachowiak, G., Vegetable oil-based lubricants – a review of oxidation, Tribol. Int. 40, pp. 1035-1046, 2007.
- [6] Gapinski, R. E., Joseph, I. E., Layzell, B. D., Avegetable oil based tractor lubricant, SAE Tech Paper 941785, pp. 1-9, 1994.
- [7] James G. Speight, Handbook of Petroleum Product Analysis, A John Wiley& Sons, Inc., Hoboken, New Jersey 2015.
- [8] Jóźwiak, D., Szlęk, A., Ocena oleju rzepakowego jako paliwa kotłowego, Energetyka, Nr 6, pp. 449-451, 2006.
- [9] Karcz, H., Kosiorek, A., Butmankiewicz, J., Maciejak, D., Możliwość opalania kotłów energetycznych roztworem wodnym mieszanek oleju rzepakowego z olejami ropopochodnymi, Energetyka i ekologia, pp. 699-707, 2006.
- [10] Kozdrach, R., The influence of different vegetable dispersion phases on the rolling contact fatigue of biodegradable lubricating greases, Tribologia, T. 6, pp. 57-67, 2016.
- [11] Landsdown, A. R. Lubrication and Lubricant selection – A practical Guide, Mechanical Engineering Publications, Bury St. Edmunds, London 1996.
- [12] Ljubas, D., Krpan, H., Matanović, I., Influence of engine oils dilution by fuels on their viscosity, flash point and fire point, Nafta: exploration, production, processing, petrochemistry 61(2), pp. 73-79, Hrčak 2010.
- [13] Malinowska, M., Assessment of the degree of deterioration of trunk piston engine oil used in the engine 6 AL20/24, Journal of KONES, Vol. 23, No. 4, pp. 319-326, 2016.
- [14] Ohkawa, S. A., Konishi, H., Hatano, K., Tanaka, K., Iwamura, M., Oxidation and corrosion characteristics of vegetable base biodegradable hydraulic oils, SAE Tech Paper 951038. pp. 55-63, 1995.
- [15] Phoon, L. Y., Hashim, H., Mat, R., Mustaffa, A. A., Flash point prediction of tailor-made green diesel blends containing B5 palm oil biodiesel and alkohol, Fuel, Vol. 175, pp. 287-293, 2016.
- [16] Rani, S., Tarun, M. S., Joy, M. L., Prabhakaran Nair, K., Vegetable oil as lubricant base oil: A review, International Journal of Scientific & Engineering Research, Vol. 5, Is. 7, pp. 708-710, 2014.
- [17] Rudnick, L. R., Acomparison of synthetic and vegetable oil esters for use in environmentally friendly fluids, In: Erhan, S. Z., Perez, J. M. (Eds.), Bio-based Industrial Fluids and Lubricants. AOCS Press, Champaign, IL, pp. 20-34, 2002.
- [18] Shahabuddin, M., Masjuki, H. H., Kalam, M. A., Bhuiya, M. M. K., Mehat, H., Comparative tribological investigation of bio-lubricant formulated from a non-edible oil source (Jatropha oil), Industrial Crops and Products, Vol. 47, pp. 323-330, 2013.
- [19] Shashidhara, Y. M., Jayaram, S. R., Vegetable oil as a potential cutting fluid – an evolution, Tribol Int 43, pp. 1073-1081, 2010.
- [20] Szłajko, U., Fiszer, S., Modyfikacja chemiczna olejów roślinnych w aspekcie ich wykorzystania w produkcji paliw silnikowych i środków smarowych, Przemysł Chemiczny, T. 82, Nr 1, pp. 18-21, 2003.
- [21] www.lotosoil.pl/resource/show/14718.pdf, May 2017.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5bae7e6b-821f-4ba7-808e-a6aa6ba7a827