Investigation of Fuel Properties of Tea Seed Oil Biodiesel and Diesel Fuel Mixture

Yıl 2021, Cilt: 5 Sayı: 4, 339 - 344, 31.12.2021

Fatih Aydın Sena Çalışkan

https://doi.org/10.30939/ijastech..973072

Öz

In this study, tea oil methyl ester was obtained from tea seed oil by transesteri-fication method. D100, B100, B50D50 and B20D80 test fuels were obtained by mixing the methyl ester fuel obtained from tea oil with diesel oil at a rate of 50% and 20% volumetrically.
Fuel properties were determined by performing the density, kinematic viscosi-ty, cetane number, pH amount, clouding, pouring and freezing point tests, and calorific value, color determination, flash point, cold filter plugging point and copper rod corrosion tests of the test fuels.
Considering the test results, it was concluded that the mixtures of B50D50 and B20D80 methyl ester produced from tea oil could be used in diesel en-gines without any modification on the engine and they were alternative fuels to diesel fuel. However, when it is used as B100 fuel, it is not suitable for use on diesel engines in terms of cold flow properties. 

Anahtar Kelimeler

Diesel engine, Tea oil methyl ester, Transessterification

Kaynakça

• [1] Hajjari, M., Tabatabaei, M., Aghbashlo, M. and Ghanavati, H., 2017, A Review on the Prospects of Sustainable Biodiesel Pro-duction: A Global Scenario with an Emphasis on Waste-Oil Bi-odiesel Utilization, Renewable Sustainable Energy Reviews, Volume 72, Pages 445 – 464.
• [2] Meher, L.C., Sagar, V.D. and Naik, S.N., 2006, Technical Aspects of Biodiesel Production by Transesterification - A review, Renewable and Sustainable Energy Reviews, Volume 10, Pages 248 - 268.
• [3] Serin, H., Özcanlı, M., Gökçe M.K. and Tüccar, G., 2013, Bio-diesel Production from Tea Seed (Camellia Sinensis) Oil and its Blends With Diesel Fuel, International Journal of Green Energy, Volume 10, Issue 4, Pages 370 - 377.
• [4] Fidan, M.S. and Alkan, E., 2014, Use As An Alternative Energy Source of Biodiesel Derived From Plant Raw Materials, Gümüşhane University Journal of Science and Technology Institute, Volume 4, Issue 2, Pages 144-160.
• [5] Üstün Ç. and Demirci N., 2013, The Plant of Tea (Camellia Sinensis L.) Historical Development and Medical Evaluation, Lokman Hekim Journal, Volume 3(3), Pages 5-12.
• [6] Seyis, F., Yurteri, E. and Ozcan, A., 2019, Tea (Camellia sinensis) Cultivation and Breeding in Turkey: Past and Present Status, Ekin Journal of Crop Breeding and Genetics, Volume 5, Issue 2, Pages 111 - 119.
• [7] Solak S., 2015, Research on The Industrıal Use of the Safflower and Tea Seeds, Ms Thesis, The Graduate School of Natural and Applied Science of Sakarya University, Sakarya, 2021, pp, 15 - 16.
• [8] Elmas C. and Gezer C., 2019, Composition and Health Effect of Tea Plant (Camellia sinensis), Akademic Food Journal, Volume 17(3), Pages 417-428.
• [9] Kuo, K., Weng, M., Chiang, C., Tsaj, Y., Lin-Shiau, S. and Lin, J. 2005, Comparative studies on the hypolipidemic and growth-suppressive effects of oolong, black, puerh, and green tea leaves in rats. Journal of Agricultural and Food Chemistry, 53, 480-489.
• [10] Alikılıç, D. 2016, Çay’ın Karadeniz Bölgesi İçin Önemi ve Tarihi Seyri. Journal of Black Sea Studies, 21, 269-280.
• [11] Aydin F. and Caliskan S., 2020, Evaluation of Biodiesel Produced From Tea Seed Oil in Terms of Fatty Acid Components, International Journal of Energy Applications and Technologies, Volume 7(1), Pages 13-19, DOİ: 10.31593/ijeat.699439.
• [12] Serin H. and Yıldızhan Ş., 2018, Hydrogen Addition to Tea Seed Oil Biodiesel: Performance and Emission Characteristics, İnternational Journal of Hydrogen Energy, 43, Pages 18020-18027.
• [13] Çalışkan, S., 2021, Investigatıon of the Effects of Tea Seed Biodiesel Mixtures with Diesel on Engine Performance, Exhaust and Noise Emissions at Different Injector Pressures in Diesel Engine, Ms Thesis, The Graduate School of Natural and Applied Science of Necmettin Erbakan University, Konya, 2021, pp, 1– 77.