Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2019, , 76 - 82, 20.09.2019
https://doi.org/10.18245/ijaet.535081

Öz

Kaynakça

  • 1. J.B. Heywood. Internal combustion engine fundamentals. Mcgraw-Hill New York 1988.
  • 2. A. Taghizadeh-Alisaraei, B. Ghobadian, T. Tavakoli-Hashjin, S.S. Mohtasebi. Vibration analysis of a diesel engine using biodiesel and petrodiesel fuel blends. fuel. 102 (2012) 414-22.
  • 3. B. Safgönül, M. Ergeneman, H.E. Arslan, C. Soruşbay. İçten yanmalı motorlar. Birsen Yayınevi 2013.
  • 4. M. Gürü, A. Koca, Ö. Can, C. Çınar, F. Şahin. Biodiesel production from waste chicken fat based sources and evaluation with Mg based additive in a diesel engine. Renew Energ. 35 (2010) 637-43.
  • 5. D.J.P. Selvam, K. Vadivel. An experimental investigation on performance, emission, and combustion characteristics of a diesel engine fueled with methyl esters of waste pork lard and diesel blends. Int J Green Energy. 10 (2013) 908-23.
  • 6. E. Alptekin, M. Canakci, A.N. Ozsezen, A. Turkcan, H. Sanli. Using waste animal fat based biodiesels–bioethanol–diesel fuel blends in a DI diesel engine. Fuel. 157 (2015) 245-54.
  • 7. S. Awad, K. Loubar, M. Tazerout. Experimental investigation on the combustion, performance and pollutant emissions of biodiesel from animal fat residues on a direct injection diesel engine. Energy. 69 (2014) 826-36.
  • 8. A. Gharehghani, M. Mirsalim, R. Hosseini. Effects of waste fish oil biodiesel on diesel engine combustion characteristics and emission. Renew Energ. 101 (2017) 930-6.
  • 9. E. Uludamar, E. Tosun, K. Aydın. Experimental and regression analysis of noise and vibration of a compression ignition engine fuelled with various biodiesels. Fuel. 177 (2016) 326-33.
  • 10. S. Saridemir, N. Alcelik, I. Uygur. Investigating the effect of biodiesel and petrodiesel fuel blends on diesel engine vibration. Electronic Journal of Machine Technologies. 13 (2016) 103-10.
  • 11. Z. Didar. A comparative study of biodiesel production from beef bone marrow. Journal of Food Biosciences and Technology. 5 (2015) 61-6.
  • 12. S. Aydın, C. Sayın. Impact of thermal barrier coating application on the combustion, performance and emissions of a diesel engine fueled with waste cooking oil biodiesel–diesel blends. Fuel. 136 (2014) 334-40.
  • 13. A. Ramadhas, S. Jayaraj, C. Muraleedharan. Characterization and effect of using rubber seed oil as fuel in the compression ignition engines. Renew Energ. 30 (2005) 795-803.
  • 14. M. Shahabuddin, A. Liaquat, H. Masjuki, M. Kalam, M. Mofijur. Ignition delay, combustion and emission characteristics of diesel engine fueled with biodiesel. Renew Sust Energ Rev. 21 (2013) 623-32.
  • 14. M. Shahabuddin, A. Liaquat, H. Masjuki, M. Kalam, M. Mofijur. Ignition delay, combustion and emission characteristics of diesel engine fueled with biodiesel. Renew Sust Energ Rev. 21 (2013) 623-32.
  • 15. G.P. Merker, C. Schwarz, R. Teichmann. Combustion engines development: mixture formation, combustion, emissions and simulation. Springer Science & Business Media (2011).
  • 16. M.F. Brunt, K.C. Platts. Calculation of heat release in direct injection diesel engines. SAE transactions. (1999) 161-75.

Combustion Analysis of Biodiesel Derived from Bone Marrow in a Diesel Generator at Low Loads

Yıl 2019, , 76 - 82, 20.09.2019
https://doi.org/10.18245/ijaet.535081

Öz

In this
study, biodiesel was produced from bone marrow by transesterification method.
The vast majority of animal bones cannot be collected and recycled. This
experimental study was carried out to incorporate unused resources in the
economy. In this study, the effects of biodiesel produced from bone marrow on
combustion characteristics of diesel engine were investigated.  The B20 (mixing 20% of biodiesel and 80%
diesel) and diesel (D2) were used as fuel in the tests.
The tests were carried out at constant speed
(1500 rpm) and different engine loads (20% and 40% of the maximum power output)
of a diesel engine with direct injection, four-cylinder, and four-stroke. The combustion characteristics of the engine, such as
cylinder gas pressure, heat release rate, cumulative heat release, and mean gas
temperature were determined using combustion analysis software (FEBRIS) under
3.6 and 7.2 kW loads.
The maximum points
of cylinder gas pressures have been very close in both fuels (D2, B20) at the
3.6 kW power output.
The peak pressure of the B20 raised with the
increase of the engine load. The oxygen in the content and higher cetane number
of the biodiesel has raised the peak point of the heat release rate.

Kaynakça

  • 1. J.B. Heywood. Internal combustion engine fundamentals. Mcgraw-Hill New York 1988.
  • 2. A. Taghizadeh-Alisaraei, B. Ghobadian, T. Tavakoli-Hashjin, S.S. Mohtasebi. Vibration analysis of a diesel engine using biodiesel and petrodiesel fuel blends. fuel. 102 (2012) 414-22.
  • 3. B. Safgönül, M. Ergeneman, H.E. Arslan, C. Soruşbay. İçten yanmalı motorlar. Birsen Yayınevi 2013.
  • 4. M. Gürü, A. Koca, Ö. Can, C. Çınar, F. Şahin. Biodiesel production from waste chicken fat based sources and evaluation with Mg based additive in a diesel engine. Renew Energ. 35 (2010) 637-43.
  • 5. D.J.P. Selvam, K. Vadivel. An experimental investigation on performance, emission, and combustion characteristics of a diesel engine fueled with methyl esters of waste pork lard and diesel blends. Int J Green Energy. 10 (2013) 908-23.
  • 6. E. Alptekin, M. Canakci, A.N. Ozsezen, A. Turkcan, H. Sanli. Using waste animal fat based biodiesels–bioethanol–diesel fuel blends in a DI diesel engine. Fuel. 157 (2015) 245-54.
  • 7. S. Awad, K. Loubar, M. Tazerout. Experimental investigation on the combustion, performance and pollutant emissions of biodiesel from animal fat residues on a direct injection diesel engine. Energy. 69 (2014) 826-36.
  • 8. A. Gharehghani, M. Mirsalim, R. Hosseini. Effects of waste fish oil biodiesel on diesel engine combustion characteristics and emission. Renew Energ. 101 (2017) 930-6.
  • 9. E. Uludamar, E. Tosun, K. Aydın. Experimental and regression analysis of noise and vibration of a compression ignition engine fuelled with various biodiesels. Fuel. 177 (2016) 326-33.
  • 10. S. Saridemir, N. Alcelik, I. Uygur. Investigating the effect of biodiesel and petrodiesel fuel blends on diesel engine vibration. Electronic Journal of Machine Technologies. 13 (2016) 103-10.
  • 11. Z. Didar. A comparative study of biodiesel production from beef bone marrow. Journal of Food Biosciences and Technology. 5 (2015) 61-6.
  • 12. S. Aydın, C. Sayın. Impact of thermal barrier coating application on the combustion, performance and emissions of a diesel engine fueled with waste cooking oil biodiesel–diesel blends. Fuel. 136 (2014) 334-40.
  • 13. A. Ramadhas, S. Jayaraj, C. Muraleedharan. Characterization and effect of using rubber seed oil as fuel in the compression ignition engines. Renew Energ. 30 (2005) 795-803.
  • 14. M. Shahabuddin, A. Liaquat, H. Masjuki, M. Kalam, M. Mofijur. Ignition delay, combustion and emission characteristics of diesel engine fueled with biodiesel. Renew Sust Energ Rev. 21 (2013) 623-32.
  • 14. M. Shahabuddin, A. Liaquat, H. Masjuki, M. Kalam, M. Mofijur. Ignition delay, combustion and emission characteristics of diesel engine fueled with biodiesel. Renew Sust Energ Rev. 21 (2013) 623-32.
  • 15. G.P. Merker, C. Schwarz, R. Teichmann. Combustion engines development: mixture formation, combustion, emissions and simulation. Springer Science & Business Media (2011).
  • 16. M.F. Brunt, K.C. Platts. Calculation of heat release in direct injection diesel engines. SAE transactions. (1999) 161-75.
Toplam 17 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Makine Mühendisliği
Bölüm Article
Yazarlar

Sinan Erdoğan 0000-0001-8844-0761

Mustafa Kemal Balki 0000-0001-9396-5239

Cenk Sayın 0000-0001-7286-472X

Yayımlanma Tarihi 20 Eylül 2019
Gönderilme Tarihi 4 Mart 2019
Yayımlandığı Sayı Yıl 2019

Kaynak Göster

APA Erdoğan, S., Balki, M. K., & Sayın, C. (2019). Combustion Analysis of Biodiesel Derived from Bone Marrow in a Diesel Generator at Low Loads. International Journal of Automotive Engineering and Technologies, 8(2), 76-82. https://doi.org/10.18245/ijaet.535081
AMA Erdoğan S, Balki MK, Sayın C. Combustion Analysis of Biodiesel Derived from Bone Marrow in a Diesel Generator at Low Loads. International Journal of Automotive Engineering and Technologies. Eylül 2019;8(2):76-82. doi:10.18245/ijaet.535081
Chicago Erdoğan, Sinan, Mustafa Kemal Balki, ve Cenk Sayın. “Combustion Analysis of Biodiesel Derived from Bone Marrow in a Diesel Generator at Low Loads”. International Journal of Automotive Engineering and Technologies 8, sy. 2 (Eylül 2019): 76-82. https://doi.org/10.18245/ijaet.535081.
EndNote Erdoğan S, Balki MK, Sayın C (01 Eylül 2019) Combustion Analysis of Biodiesel Derived from Bone Marrow in a Diesel Generator at Low Loads. International Journal of Automotive Engineering and Technologies 8 2 76–82.
IEEE S. Erdoğan, M. K. Balki, ve C. Sayın, “Combustion Analysis of Biodiesel Derived from Bone Marrow in a Diesel Generator at Low Loads”, International Journal of Automotive Engineering and Technologies, c. 8, sy. 2, ss. 76–82, 2019, doi: 10.18245/ijaet.535081.
ISNAD Erdoğan, Sinan vd. “Combustion Analysis of Biodiesel Derived from Bone Marrow in a Diesel Generator at Low Loads”. International Journal of Automotive Engineering and Technologies 8/2 (Eylül 2019), 76-82. https://doi.org/10.18245/ijaet.535081.
JAMA Erdoğan S, Balki MK, Sayın C. Combustion Analysis of Biodiesel Derived from Bone Marrow in a Diesel Generator at Low Loads. International Journal of Automotive Engineering and Technologies. 2019;8:76–82.
MLA Erdoğan, Sinan vd. “Combustion Analysis of Biodiesel Derived from Bone Marrow in a Diesel Generator at Low Loads”. International Journal of Automotive Engineering and Technologies, c. 8, sy. 2, 2019, ss. 76-82, doi:10.18245/ijaet.535081.
Vancouver Erdoğan S, Balki MK, Sayın C. Combustion Analysis of Biodiesel Derived from Bone Marrow in a Diesel Generator at Low Loads. International Journal of Automotive Engineering and Technologies. 2019;8(2):76-82.