Selcuk Journal of Agriculture and Food Sciences

Biodiesel is an alternative diesel fuel produced from animal and vegetable oils. As an alternative and ecologically acceptable substitute for conventional fuel, biodiesel is produced from a wide variety of edible vegetable oils that are usually used for human consumption and whose prices are expected to rise in the future. In this context, reliable and low-cost raw materials are gaining increasing interest for biodiesel production, such as by-products of meat processing industries or waste animal fats. Biodiesel production from waste animal fat, and raw food does not compete with the industry and has a great potential for waste caused by the global decline. In our study, a potential alternative fuel was produced for diesel engines by using the non-food-grade fat portion of horse meat consumed in Middle Asia countries. Solid crude horse oil was liquefied, and its fatty acid components were analyzed and transformed into horse oil biodiesel by the transesterification method. It was determined whether the fuel properties of crude horse oil, horse oil biodiesel, and euro diesel fuel comply with the standard values, and their usability in diesel engines was investigated. As a result of the tests, it has been concluded that horse oil biodiesel does not meet the standards in terms of cold flow properties and can only be used at a rate of low volumetric ratios in diesel engines. This article will contribute to the use of horse oil biodiesel production stages and fuel properties in diesel engines and future studies.

 

Euro diesel; Fuel properties; Horse biodiesel; Horse oil; Standards.

Ağbulut Ü, Sarıdemir S, Albayrak S (2019). Experimental investigation of combustion, performance and emission characteristics of a diesel engine fuelled with diesel–biodiesel–alcohol blends. Journal of the Brazilian Society of Mechanical Sciences and Engineering 41(9): 389.

Anonymous 2020, US Energy Information Administration, Monthly Biodiesel Production Report; US Department of Energy: Washington, DC, USA, https://www.eia.gov/biofuels/biodiesel/production /biodiesel.pdf, Online, Date of Visit [5 May 2020].

Baladincz P, Hancsok J (2015). Fuel from waste animal fats. Chemical Engineering Journal 282: 152–160.

Behçet R, Oktay H, Çakmak A, Aydın H (2015). Comparison of exhaust emissions of biodiesel–diesel fuel blends produced from animal fats. Renewable and Sustainable Energy Reviews 46: 157-165.

Busic A, Kundas S, Morzak G, Belskaya H, Mardetko N, Santek MI, Komes D, Novak S, Santek B (2018). Recent trends in biodiesel and biogas production. Food Technology and Biotechnology 56 (2): 152–173.

Chakraborty R, Gupta AK, Chowdhury R (2014). Conversion of slaughterhouse and poultry farm animal fats and wastes to biodiesel: parametric sensitivity and fuel quality assessment. Renewable and Sustainable Energy Reviews 29: 120-134.

Efpra (2016). The Facts about Biofuels and Bioliquids, https://efpra.eu/wp-content/uploads/2016/11/The-facts-about-biofuels-and-bioliquids.pdf, Date of Visit [3 April 2020].

Gumahin AC, Galamiton JM, Allerite MJ, Valmorida RS, Laranang JRL, Mabayo VI, Arazo RO, Ido AL (2019). Response surface optimization of biodiesel yield from pretreated waste oil of rendered pork from a food processing industry. Bioresources and Bioprocessing 6 (48): 1–13.

Guru M, Koca A, Can O, Çınar C, Sahin F (2010). Biodiesel production from waste chicken fat based sources and evaluation with mg based additive in a diesel engine. Renewable Energy 35: 637-643.

Keskin A, Şen M, Emiroğlu O (2020). Experimental studies on biodiesel production from leather industry waste fat and its effect on diesel engine characteristics. Fuel 276: 118000.

Mahlia TMI, Syazmi ZAHS, Mofijur M, Abas AEP, Bilad MR, Ong HC, Silitonga AS (2020). Patent landscape review on biodiesel production: technology updates. Renewable and Sustainable Energy Reviews, 118, 109526.

Mansir N, Teo SH, Rashid U, Saiman MI, Tan YP, Alsultan AG, Yap TY (2018). Modified waste egg shell derived bifunctional catalyst for biodiesel production from high FFA waste cooking oil. Renewable and Sustainable Energy Reviews 82(3): 3645–3655.

Nigam PS, Singh A (2011). Production of liquid biofuels from renewable resources. Progress in Energy and Combustion Science 37(1): 52–68.

Öğüt H, Oğuz H (2006). The Fuel of Third Millennium: Biodiesel, Publication No: 745, Nobel Publication, ISBN 975-591-730-6.

Park PW, Goins RE (1994). In situ preparation of fatty acid methyl esters for analysis of fatty acid composition in foods. Journal of Food Science 59(6): 1262-1266.

Reig FT, Mora L, Toldra F, (2020). Trends in biodiesel production from animal fat waste. Applied Science. 10(10): 3644.

Snader A, Koscak MA, Kosir D, Milosavljevic N, Vukovic JP, Magic L (2018). The influence of animal fat type and purification conditions on biodiesel quality. Renewable Energy. 118: 752-760.