Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2022, Cilt: 5 Sayı: 2, 195 - 202, 30.11.2022

Öz

Kaynakça

  • 1. Keven A, Karaali R. Investigation of an Alternative Fuel for Diesel Engines. Acta Phys Pol A [Internet]. 2015 Aug [cited 2022 Nov 19];128(2B):B-282-B-286.
  • 2. Yaşar F. Comparision of fuel properties of biodiesel fuels produced from different oils to determine the most suitable feedstock type. Fuel [Internet]. 2020 Mar [cited 2022 Nov 19];264:116817.
  • 3. Alptekin E, Sanli H, Canakci M. Combustion and performance evaluation of a common rail DI diesel engine fueled with ethyl and methyl esters. Applied Thermal Engineering [Internet]. 2019 Feb [cited 2022 Nov 19];149:180–91.
  • 4. Hu J, Du Z, Li C, Min E. Study on the lubrication properties of biodiesel as fuel lubricity enhancers. Fuel [Internet]. 2005 Mar 17 [cited 2022 Nov 19];S0016236105000700.
  • 5. Hoekman SK, Robbins C. Review of the effects of biodiesel on NOx emissions. Fuel Processing Technology [Internet]. 2012 Apr [cited 2022 Nov 19];96:237–49.
  • 6. Sanli H. An experimental investigation on the usage of waste frying oil-diesel fuel blends with low viscosity in a Common Rail DI-diesel engine. Fuel [Internet]. 2018 Jun [cited 2022 Nov 19];222:434–43.
  • 7. Ahmad AL, Yasin NHM, Derek CJC, Lim JK. Microalgae as a sustainable energy source for biodiesel production: A review. Renewable and Sustainable Energy Reviews [Internet]. 2011 Jan [cited 2022 Nov 19];15(1):584–93.
  • 8. Sharma V, Hossain AK, Griffiths G, Duraisamy G, Jacob Thomas J. Investigation on yield, fuel properties, ageing and low temperature flow of fish oil esters. Energy Conversion and Management: X [Internet]. 2022 May [cited 2022 Nov 19];14:100217.
  • 9. Sanli H, Canakci M, Alptekin E. Predicting the higher heating values of waste frying oils as potential biodiesel feedstock. Fuel [Internet]. 2014 Jan [cited 2022 Nov 19];115:850–4.
  • 10. Mishra S, Anand K, Mehta PS. Predicting the Cetane Number of Biodiesel Fuels from Their Fatty Acid Methyl Ester Composition. Energy Fuels [Internet]. 2016 Dec 15 [cited 2022 Nov 19];30(12):10425–34.
  • 11. Marchetti JM. Biodiesel production technologies. New York: Nova, Nova Science Publishers, Inc; 2010. 166 p. ISBN: 978-1-61668-963-6.
  • 12. Barut Gök S, Pehli̇van EC, Aydin M, Erdoğdu Y. Silybum marianum L. tohumlarının yağ asidi kompozisyonu ile tohum yağı ve silymarin ekstraktının antimikrobiyal etkisi. GIDA / THE JOURNAL OF FOOD [Internet]. 2020 Dec 30 [cited 2022 Nov 19];110–8.
  • 13. Behr A, Gomes JP. The refinement of renewable resources: New important derivatives of fatty acids and glycerol. Eur J Lipid Sci Technol [Internet]. 2010 Jan [cited 2022 Nov 19];112(1):31–50.
  • 14. Graboski MS, McCormick RL. Combustion of fat and vegetable oil derived fuels in diesel engines. Progress in Energy and Combustion Science [Internet]. 1998 Jan [cited 2022 Nov 19];24(2):125–64.
  • 15. Canakci M, Sanli H. Biodiesel production from various feedstocks and their effects on the fuel properties. J Ind Microbiol Biotechnol [Internet]. 2008 May [cited 2022 Nov 19];35(5):431–41.

An Investigation on Fatty Acid Compositions of Three-Generation Biodiesel Fuels

Yıl 2022, Cilt: 5 Sayı: 2, 195 - 202, 30.11.2022

Öz

Biodiesel’s fuel properties affecting engine performance, combustion and emission characteristics significantly depend on the feedstock from which it is produced. The most important parameter which influences the feedstock properties is its fatty acid composition. Fatty acid chain length, unsaturation level, and the type of unsaturated bonds have significant impacts on the feedstock and therefore on biodiesel fuel properties. Biodiesel is generally divided into three generations, depending on its feedstock. In this experimental study, twelve different biodiesel fuels covering three generations were produced, their fatty acid distributions were determined and compared with each other. It has been determined that the biodiesel obtained from coconut oil had quite different fatty acid distribution compared to other biodiesel fuels. Coconut biodiesel, palm biodiesel and cottonseed oil biodiesel fuels were in the first three order in terms of saturated fatty acid content, while algal oil biodiesel had the lowest saturation level.

Kaynakça

  • 1. Keven A, Karaali R. Investigation of an Alternative Fuel for Diesel Engines. Acta Phys Pol A [Internet]. 2015 Aug [cited 2022 Nov 19];128(2B):B-282-B-286.
  • 2. Yaşar F. Comparision of fuel properties of biodiesel fuels produced from different oils to determine the most suitable feedstock type. Fuel [Internet]. 2020 Mar [cited 2022 Nov 19];264:116817.
  • 3. Alptekin E, Sanli H, Canakci M. Combustion and performance evaluation of a common rail DI diesel engine fueled with ethyl and methyl esters. Applied Thermal Engineering [Internet]. 2019 Feb [cited 2022 Nov 19];149:180–91.
  • 4. Hu J, Du Z, Li C, Min E. Study on the lubrication properties of biodiesel as fuel lubricity enhancers. Fuel [Internet]. 2005 Mar 17 [cited 2022 Nov 19];S0016236105000700.
  • 5. Hoekman SK, Robbins C. Review of the effects of biodiesel on NOx emissions. Fuel Processing Technology [Internet]. 2012 Apr [cited 2022 Nov 19];96:237–49.
  • 6. Sanli H. An experimental investigation on the usage of waste frying oil-diesel fuel blends with low viscosity in a Common Rail DI-diesel engine. Fuel [Internet]. 2018 Jun [cited 2022 Nov 19];222:434–43.
  • 7. Ahmad AL, Yasin NHM, Derek CJC, Lim JK. Microalgae as a sustainable energy source for biodiesel production: A review. Renewable and Sustainable Energy Reviews [Internet]. 2011 Jan [cited 2022 Nov 19];15(1):584–93.
  • 8. Sharma V, Hossain AK, Griffiths G, Duraisamy G, Jacob Thomas J. Investigation on yield, fuel properties, ageing and low temperature flow of fish oil esters. Energy Conversion and Management: X [Internet]. 2022 May [cited 2022 Nov 19];14:100217.
  • 9. Sanli H, Canakci M, Alptekin E. Predicting the higher heating values of waste frying oils as potential biodiesel feedstock. Fuel [Internet]. 2014 Jan [cited 2022 Nov 19];115:850–4.
  • 10. Mishra S, Anand K, Mehta PS. Predicting the Cetane Number of Biodiesel Fuels from Their Fatty Acid Methyl Ester Composition. Energy Fuels [Internet]. 2016 Dec 15 [cited 2022 Nov 19];30(12):10425–34.
  • 11. Marchetti JM. Biodiesel production technologies. New York: Nova, Nova Science Publishers, Inc; 2010. 166 p. ISBN: 978-1-61668-963-6.
  • 12. Barut Gök S, Pehli̇van EC, Aydin M, Erdoğdu Y. Silybum marianum L. tohumlarının yağ asidi kompozisyonu ile tohum yağı ve silymarin ekstraktının antimikrobiyal etkisi. GIDA / THE JOURNAL OF FOOD [Internet]. 2020 Dec 30 [cited 2022 Nov 19];110–8.
  • 13. Behr A, Gomes JP. The refinement of renewable resources: New important derivatives of fatty acids and glycerol. Eur J Lipid Sci Technol [Internet]. 2010 Jan [cited 2022 Nov 19];112(1):31–50.
  • 14. Graboski MS, McCormick RL. Combustion of fat and vegetable oil derived fuels in diesel engines. Progress in Energy and Combustion Science [Internet]. 1998 Jan [cited 2022 Nov 19];24(2):125–64.
  • 15. Canakci M, Sanli H. Biodiesel production from various feedstocks and their effects on the fuel properties. J Ind Microbiol Biotechnol [Internet]. 2008 May [cited 2022 Nov 19];35(5):431–41.
Toplam 15 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Kimya Mühendisliği
Bölüm Makaleler
Yazarlar

Hüseyin Şanlı 0000-0002-1297-2419

Fevzi Yaşar 0000-0003-3504-9157

Yayımlanma Tarihi 30 Kasım 2022
Gönderilme Tarihi 20 Ekim 2022
Kabul Tarihi 10 Kasım 2022
Yayımlandığı Sayı Yıl 2022 Cilt: 5 Sayı: 2

Kaynak Göster

APA Şanlı, H., & Yaşar, F. (2022). An Investigation on Fatty Acid Compositions of Three-Generation Biodiesel Fuels. Journal of the Turkish Chemical Society Section B: Chemical Engineering, 5(2), 195-202.

Creative Commons Lisansı
This piece of scholarly information is licensed under Creative Commons Atıf-GayriTicari-AynıLisanslaPaylaş 4.0 Uluslararası Lisansı.

J. Turk. Chem. Soc., Sect. B: Chem. Eng. (JOTCSB)