Combustion Characteristics of a High Pressure Fuel Injected Single Cylinder Compression-Ignition Engine, Fuelled with Diesel–Ester Blends Under Various Fuel Injection Advance Angles

Alp Tekin Ergenc; Deniz Ozde Koca; Merve Abacioglu

Combustion Characteristics of a High Pressure Fuel Injected Single Cylinder Compression-Ignition Engine, Fuelled with Diesel–Ester Blends Under Various Fuel Injection Advance Angles

Year 2012, Volume: 2 Issue: 2, 236 - 242, 01.06.2012

Alp Tekin Ergenc Deniz Ozde Koca Merve Abacioglu

Abstract

In Diesel engines quality of combustion is depending on the formation fuel-air mixture. A high-quality of formation for combustion is achieved by mixing of pulverized fuel drops and the air inside the cylinder. In this matter, injection parameters such as timing and period of injection, injection pressure and the number of the injection beams affect quality of combustion and mixture formation.The main purpose of this work is to find the optimum injection advance angle for traditional diesel and diesel-ester blends in a direct injection (DI) compression ignition engine. Tests are conducted on an air cooled single cylinder, high pressured (600–1600 bar), plc controlled research engine. Engine torque, brake power and brake specific fuel consumption values associated with each of these fuel blends are collected under certain operating points. A piezo transducer is utilized to detect in-cylinder pressure and an incremental encoder for the relative position of the piston top to the dead center location.In the light of the obtained values, no negative impact was observed on the performance with the addition of ester up to 20% by volume and these results are concordant to the results of the other researches. It is seen that at suitable injection advance ester blended fuels capture the peak pressure value in less time for engine as given in the literature. Similar to the prior studies, biodiesel addition to diesel fuel raises heat output at premixed combustion phase, reduces the combustion at diffusion phase. On the other hand, when the injection advance had been closer to TDC, it caused a decrease in pre-phase peak value and an increase at the values of diffusion phase.

Keywords

Alternative fuel, diesel engine, pressure, ester, HRR

Year 2012, Volume: 2 Issue: 2, 236 - 242, 01.06.2012

Alp Tekin Ergenc Deniz Ozde Koca Merve Abacioglu

Abstract

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Details

Primary Language	English
Journal Section	Articles
Authors	Alp Tekin Ergenc This is me Deniz Ozde Koca This is me Merve Abacioglu This is me
Publication Date	June 1, 2012
Published in Issue	Year 2012 Volume: 2 Issue: 2

Cite

APA	Ergenc, A. T., Koca, D. O., & Abacioglu, M. (2012). Combustion Characteristics of a High Pressure Fuel Injected Single Cylinder Compression-Ignition Engine, Fuelled with Diesel–Ester Blends Under Various Fuel Injection Advance Angles. International Journal Of Renewable Energy Research, 2(2), 236-242.
AMA	Ergenc AT, Koca DO, Abacioglu M. Combustion Characteristics of a High Pressure Fuel Injected Single Cylinder Compression-Ignition Engine, Fuelled with Diesel–Ester Blends Under Various Fuel Injection Advance Angles. International Journal Of Renewable Energy Research. June 2012;2(2):236-242.
Chicago	Ergenc, Alp Tekin, Deniz Ozde Koca, and Merve Abacioglu. “Combustion Characteristics of a High Pressure Fuel Injected Single Cylinder Compression-Ignition Engine, Fuelled With Diesel–Ester Blends Under Various Fuel Injection Advance Angles”. International Journal Of Renewable Energy Research 2, no. 2 (June 2012): 236-42.
EndNote	Ergenc AT, Koca DO, Abacioglu M (June 1, 2012) Combustion Characteristics of a High Pressure Fuel Injected Single Cylinder Compression-Ignition Engine, Fuelled with Diesel–Ester Blends Under Various Fuel Injection Advance Angles. International Journal Of Renewable Energy Research 2 2 236–242.
IEEE	A. T. Ergenc, D. O. Koca, and M. Abacioglu, “Combustion Characteristics of a High Pressure Fuel Injected Single Cylinder Compression-Ignition Engine, Fuelled with Diesel–Ester Blends Under Various Fuel Injection Advance Angles”, International Journal Of Renewable Energy Research, vol. 2, no. 2, pp. 236–242, 2012.
ISNAD	Ergenc, Alp Tekin et al. “Combustion Characteristics of a High Pressure Fuel Injected Single Cylinder Compression-Ignition Engine, Fuelled With Diesel–Ester Blends Under Various Fuel Injection Advance Angles”. International Journal Of Renewable Energy Research 2/2 (June 2012), 236-242.
JAMA	Ergenc AT, Koca DO, Abacioglu M. Combustion Characteristics of a High Pressure Fuel Injected Single Cylinder Compression-Ignition Engine, Fuelled with Diesel–Ester Blends Under Various Fuel Injection Advance Angles. International Journal Of Renewable Energy Research. 2012;2:236–242.
MLA	Ergenc, Alp Tekin et al. “Combustion Characteristics of a High Pressure Fuel Injected Single Cylinder Compression-Ignition Engine, Fuelled With Diesel–Ester Blends Under Various Fuel Injection Advance Angles”. International Journal Of Renewable Energy Research, vol. 2, no. 2, 2012, pp. 236-42.
Vancouver	Ergenc AT, Koca DO, Abacioglu M. Combustion Characteristics of a High Pressure Fuel Injected Single Cylinder Compression-Ignition Engine, Fuelled with Diesel–Ester Blends Under Various Fuel Injection Advance Angles. International Journal Of Renewable Energy Research. 2012;2(2):236-42.