PERFORMANCE AND EMISSIONS OF A VESSEL TURBINE FUELED WITH MARINE AND ASPIRE OIL METHYL ESTER MIXTURES

Yıl 2020, , 538 - 545, 30.01.2020

Burak Gökalp

https://doi.org/10.28948/ngumuh.681224

Öz

In this experimental case, a vessel G/T was run with marine fuel (MF)/aspires oil methyl ester (AME) mixtures. The blends tested were marine fuel (MF), 50 % of aspire oil methyl ester, 100 % of aspire oil methyl ester (AME), and 100 % of MF by volume. The G/T was operated at 4 loads, 20 %, 60 %, 80 % and 100 %. Turbine power generation and emissions performance were tested. The results that AME content in the fuel mixture increased, the fuel flow rate increased to maintain the constant speed operation and equivalence ratio reduced. The results of tested that turbine can operate with AME blends in MF without any modification. Exhaust gas temperatures reduced with increasing AME content. Higher AME blends resulted in lower CO2, CO emissions while NOx emissions increasing. Finally, various energetic performance parameters of the engine were evaluated and compared with each other. This study shows that a turbine engine can be operated successfully with marine fuel (MF) and aspire oil methyl ester (AME) mixtures.

Anahtar Kelimeler

Turbine, Marine fuel, Aspire oil methyl ester, Emission

Kaynakça

• [1] R. Lanzafame, P. F. Scandura, F. Famoso, P. Monforte, C. Oliveri, “Air quality data in Catania: Analysis and Investigation Case study years 2010 – 2011” Energy Procedia, vol. 45: pp. 681-690, 2014.
• [2] R. Lanzafame, P. F. Scandura, F. Famoso, P. Monforte, “NO2 concentration analysis in urban area of Catania” Energy Procedia, vol. 45: pp. 671-680, 2014.
• [3] P. A. Pilavachi, “Mini and Micro-Gas Turbines for Combined Heat and Power” Appl Therm Engineering, vol. 22: pp. 2003–2014, 2002.
• [4] M. H. Hassan, M. A. Kalam, “An Overview of Biofuel as a Renewable Energy Source: Development and Challenges” Procedia Engineering, vol. 56: pp. 39-53, 2010.
• [5] K. K. Gupta, A. Rehman and R. M. Sarviya, “Bio-fuels for the Gas Turbine: A review” Renewable and Sustainable Energy Reviews, vol. 14: pp. 2946–2955, 2010.
• [6] S. Brusca, V. Chiodo, A. Galvagno, R. Lanzafame, A. Marino Cugno Garrano, “Analysis of reforming gas combustion in Internal Combustion Engine” Energy Procedia, vol. 45: pp. 899-908, 2014.
• [7] N. N. A. N. Yusuf, S. K. Kamarudin and Z. Yaakub, “Overview on the Current Trends in Biodiesel Production” Energy Conversion and Management, vol. 52 (7): pp. 2741-2751, 2011.
• [8] Y. S. Kim, J. J. Lee, T. S. Kim, J. L. Sohn, “Effects of syngas type on the operation and performance of a gas turbine in integrated gasification combine cycle” Energy Conversion and Management, vol. 52: pp. 2262-2271, 2011.
• [9] D. Korres, D. Karonis, E. Lois, M. B. Linck, A. K. Gupta “Aviation fuel jet fuel and biodiesel on a diesel engine” Fuel, vol. 87: pp. 70-78, 2008.
• [10] P. Arkoudeas, S. Kalligeros, F. Zannikos, G. Anastopoulos, D. Karonis, E. Lois “Study of using JP-8 aviation fuel and biodiesel in CI engine” Energy Conversion & Management, vol. 44: pp. 1013-1025, 2003.
• [11] D. Chiaramonti, A. M. Rizzo, A. Spadi, M. Prussi, G. Riccio and F. Martelli, ”Exhaust Emissions from Liquid Fuel Micro Gas Turbine Fed with Diesel Oil, Biodiesel and Vegetable Oil” Applied Energy, vol. 101: pp. 349–356, 2013.
• [12] J. B. Heywood, “Internal combustion engine Fundamentals” McGraw-Hill: New York, 1988.
• [13] D. J. Patterson and N. A. Henein, “Emissions from Combustion Engines and Their Control” Ann Arbor Science Publishers: Ann Arbor: Michigan, USA, 1972.
• [14] R. Chacartegui, M. Torres, D. Sánchez, F. Jiménez, A. Muñoz, T. Sánchez, “Analysis of main gaseous emissions of heavy duty gas turbines burning several syngas fuels” Fuel Processing Technology, vol. 92: pp. 213-220, 2011.
• [15] M. S. Graboski and R. L. McCormick, “Combustion of fat and vegetable-oil derived fuels in diesel engines” Progress Energy Combustion Science, vol. 24: pp. 64-125, 1998.
• [16] R. Chacartegui, M. Torres, D. Sánchez, F. Jiménez, A. Muñoz, T. Sánchez “Analysis of main gaseous emissions of heavy duty gas turbines burning several syngas Fuels” Fuel Processing Technology, vol. 92: pp. 213-220, 2011.
• [17] Y. S. Kim, J. J. Lee, T. S. Kim, L. Sohn “Effects of syngas type on the operation and performance of a gas turbine in integrated gasification combine cycle” Energy Conversion and Management, vol. 52: pp. 2262-2271, 2011