Fuel properties, performance and emission characterization of waste cooking oil (WCO) in a variable compression ratio (VCR) diesel engine
Year 2017,
Volume: 1 Issue: 2, 56 - 62, 16.06.2017
Şafak Yildizhan
,
Erinç Uludamar
,
Ahmet Çalık
,
Gonca Dede
Mustafa Özcanlı
Abstract
The current study investigates the fuel properties, performance
and emission characteristics in a variable compression ratio (VCR) diesel of
the biodiesel produced from the waste cooking oil (WCO). The WCO samples were
collected from the university and converted to biodiesel fuel with a two-step
transesterification reaction. The fuel property tests showed that the
properties of the WCO biodiesel were within the biodiesel standards. Diesel,
WCO biodiesel and diesel-WCO biodiesel blend (B20) was used as fuel in a VCR
engine. The performance and emission characteristics of the engine were
measured at two different compression ratios (14:1 and 16:1) under partial load
conditions. The experimental results showed that WCO biodiesel slightly
decreased the brake thermal efficiency and thus increased specific fuel consumption.
Biodiesel usage improved CO emissions up to 21,75% compared to diesel fuel.
But, biodiesel usage increased CO2 and NOx emission due
to higher combustion temperature and extra oxygen content of the biodiesel.
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Year 2017,
Volume: 1 Issue: 2, 56 - 62, 16.06.2017
Şafak Yildizhan
,
Erinç Uludamar
,
Ahmet Çalık
,
Gonca Dede
Mustafa Özcanlı
References
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- Sajjadi, B., Raman, A.A.A., and Arandiyan, H. (2016). A comprehensive review on properties of edible and non-edible vegetable oil-based biodiesel: Composition, specifications and prediction models. Renewable and Sustainable Energy Reviews, vol. 63, pp. 62-92. 10.1016/j.rser.2016.05.035
- Ramkumar, S. and Kirubakaran, V. (2016). Biodiesel from vegetable oil as alternate fuel for C.I engine and feasibility study of thermal cracking: A critical review. Energy Conversion and Management, vol. 118, pp. 155-169.
10.1016/j.enconman.2016.03.071
- Akar, M.A. (2016). Performance and emission characteristics of compression ignition engine operating with false flax biodiesel and butanol blends. Advances in Mechanical Engineering, vol. 8, no. 2, pp. 1-7. 10.1177/1687814016632677
- Farooq, M., Ramli, A., and Naeem, A. (2015). Biodiesel production from low FFA waste cooking oil using heterogeneous catalyst derived from chicken bones. Renewable Energy, vol. 76, pp. 362-368. 10.1016/j.renene.2014.11.042
- Iglesias, L., Laca, A., Herrero, M., and Díaz, M. (2012). A life cycle assessment comparison between centralized and decentralized biodiesel production from raw sunflower oil and waste cooking oils. Journal of Cleaner Production, vol. 37, pp. 162-171. 10.1016/j.jclepro.2012.07.002
- Issariyakul, T. and Dalai, A.K. (2010). Biodiesel Production from Greenseed Canola Oil. Energy & Fuels, vol. 24, no. 9, pp. 4652-4658. 10.1021/ef901202b
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https://doi.org/10.2298/JSC110824206P
- Sootchiewcharn, N., Attanatho, L., and Reubroycharoen, P. (2015). Biodiesel Production from Refined Palm Oil using Supercritical Ethyl Acetate in A Microreactor. Energy Procedia, vol. 79, pp. 697-703. 10.1016/j.egypro.2015.11.560
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- Serin, H. and Akar, N.Y. (2013). The Performance and Emissions of a Diesel Engine Fueled with Tea Seed (Camellia sinensis) Oil Biodiesel-Diesel Fuel Blends. International Journal of Green Energy, vol. 11, no. 3, pp. 292-301. 10.1080/15435075.2013.773434
- Serin, H., Ozgur, C., Ozcanli, M., Aydin, K., and Ozgur, T. (2013). Preparation of fuels by cracking of different plastics and their blends with diesel fuel. Current Opinion in Biotechnology, vol. 24, p. S44. 10.1016/j.copbio.2013.05.097
- Erdi Tosun , T.O., Ceyla Ozgur , Mustafa Ozcanli , Hasan Serin , Kadir Aydin. (2017). Comparative analysis of various modelling techniques for emission prediction of diesel engine fueled by diesel fuel with nanoparticle additives. European Mechanical Science vol. 1, no. 1, pp. 15-23.
- Özcanli, M., Serin, H., Saribiyik, O.Y., Aydin, K., and Serin, S. (2012). Performance and Emission Studies of Castor Bean (Ricinus Communis) Oil Biodiesel and Its Blends with Diesel Fuel. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, vol. 34, no. 19, pp. 1808-1814. 10.1080/15567036.2010.545800
- Çelebi, K., Uludamar, E., and Özcanlı, M. (2017). Evaluation of fuel consumption and vibration characteristic of a compression ignition engine fuelled with high viscosity biodiesel and hydrogen addition. International Journal of Hydrogen Energy, https://doi.org/10.1016/j.ijhydene.2017.02.066
- Sarıbıyık, O.Y., Özcanlı, M., Serin, H., Serin, S., and Aydın, K. (2011). Biodiesel Production from Ricinus Communis Oil and its Blends with Soybean Biodiesel. Strojniški vestnik – Journal of Mechanical Engineering, 10.5545/sv-jme.2009.054
- Hwang, J., Bae, C., and Gupta, T. (2016). Application of waste cooking oil (WCO) biodiesel in a compression ignition engine. Fuel, vol. 176, pp. 20-31. 10.1016/j.fuel.2016.02.058
- Man, X.J., Cheung, C.S., Ning, Z., Wei, L., and Huang, Z.H. (2016). Influence of engine load and speed on regulated and unregulated emissions of a diesel engine fueled with diesel fuel blended with waste cooking oil biodiesel. Fuel, vol. 180, pp. 41-49. 10.1016/j.fuel.2016.04.007
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- Amarnath, H.K., Prabhakaran, P., Bhat, S.A., and Paatil, R. (2014). A Comparative Analysis of Thermal Performance And Emission Characteristics of Methyl Esters of Karanja And Jatropha Oils Based on A Variable Compression Ratio Diesel Engine. International Journal of Green Energy, vol. 11, no. 7, pp. 675-694. 10.1080/15435075.2013.777905
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- Chavan, S.B., Kumbhar, R.R., Kumar, A., and Sharma, Y.C. (2015). Study of Biodiesel Blends on Emission and Performance Characterization of a Variable Compression Ratio Engine. Energy & Fuels, vol. 29, no. 7, pp. 4393-4398. 10.1021/acs.energyfuels.5b00742