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Year 2020, , 135 - 148, 26.06.2020
https://doi.org/10.17350/HJSE19030000182

Abstract

References

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  • Atabani AE, Silitonga AS, Badruddin IA, Mahlia TMI, Masjuki HH, Mekhilef S. A comprehensive review on biodiesel as an alternative energy resource and its characteristics. Renewable and Sustainable Energy Reviews 16(4) (2012) 2070–2093.
  • Lin L, Cunshan Z, Vittayapadung S, Xiangqian S, Mingdong D. Opportunities and challenges for biodiesel fuel. Applied Energy 88(4) (2011) 1020–1031.
  • Sharma YC, Singh B, Upadhyay SN. Advancements in development and characterization of biodiesel: A review. Fuel 87(12) (2008) 2355–2373.
  • Atzemi M, Lois E, Kosyfologou I. Effects of biodiesel and hydrotreated vegetable oil on the performance and exhaust emissions of a stationary diesel engine. IOSR Journal of Applied Chemistry 12(1) (2019) 44–54.
  • Ooi XY, Gao W, Ong HC, Lee HV, Juan JC, Chen WH, Lee KT. Overview on catalytic deoxygenation for biofuel synthesis using metal oxide supported catalysts. Renewable and Sustainable Energy Reviews 112 (2019) 834–852.
  • Yesilyurt MK, Yilbasi Z, Aydin M. The performance, emissions, and combustion characteristics of an unmodified diesel engine running on the ternary blends of pentanol/safflower oil biodiesel/diesel fuel. Journal of Thermal Analysis and Calorimetry (2020) 1-40.
  • Atmanli A, Ileri E, Yuksel B, Yilmaz N. Extensive analyses of diesel– vegetable oil–n-butanol ternary blends in a diesel engine. Applied Energy 145 (2015) 155–162.
  • Gülüm M, Bilgin A. A comprehensive study on measurement and prediction of viscosity of biodiesel-diesel-alcohol ternary blends. Energy 148 (2018) 341–361.
  • Ibrahim A. Performance and combustion characteristics of a diesel engine fuelled by butanol–biodiesel–diesel blends. Applied Thermal Engineering 103 (2016) 651–659.
  • Yilmaz N, Atmanli A, Vigil FM. Quaternary blends of diesel, biodiesel, higher alcohols and vegetable oil in a compression ignition engine. Fuel 212 (2018) 462–469.
  • Hulwan DB, Joshi SV. Performance, emission and combustion characteristic of a multicylinder DI diesel engine running on diesel– ethanol–biodiesel blends of high ethanol content. Applied Energy 88(12) (2011) 5042–5055.
  • Çelebi Y, Aydın H. An overview on the light alcohol fuels in diesel engines. Fuel 236 (2019) 890–911.
  • Ning L, Duan Q, Chen Z, Kou H, Liu B, Yang B, Zeng K. A comparative study on the combustion and emissions of a non- road common rail diesel engine fueled with primary alcohol fuels (methanol, ethanol, and n-butanol)/diesel dual fuel. Fuel 266 (2020) 117034.
  • Jamrozik A, Tutak W, Gnatowska R, Nowak Ł. Comparative analysis of the combustion stability of diesel-methanol and diesel-ethanol in a dual fuel engine. Energies 12(6) (2019) 971.
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  • Kwanchareon P, Luengnaruemitchai A, Jai-In S. Solubility of a diesel–biodiesel–ethanol blend, its fuel properties, and its emission characteristics from diesel engine. Fuel 86(7-8) (2007) 1053–1061.
  • Shahir SA, Masjuki HH, Kalam MA, Imran A, Fattah IR, Sanjid A. Feasibility of diesel–biodiesel–ethanol/bioethanol blend as existing CI engine fuel: An assessment of properties, material compatibility, safety and combustion. Renewable and Sustainable Energy Reviews 32 (2014) 379–395.
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  • Yilmaz N, Vigil FM, Benalil K, Davis SM, Calva A. Effect of biodiesel–butanol fuel blends on emissions and performance characteristics of a diesel engine. Fuel 135 (2014) 46–50.
  • Işık MZ, Bayındır H, Iscan B, Aydın H. The effect of n-butanol additive on low load combustion, performance and emissions biodiesel-diesel blend in a heavy duty diesel power generator. of the Energy Institute 90(2) (2017) 174–184. of Journal
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  • Santhosh K, Kumar GN. Effect of 1-pentanol addition and EGR on the combustion, performance and emission characteristic of a CRDI diesel engine. Renewable Energy 145 (2020) 925–936.
  • Sridhar R, Jeevahan J, Chandrasekaran M. Effect of the addition of 1-pentanol on engine performance and emission characteristics of diesel and biodiesel fuelled single cylinder diesel engine. International Journal of Ambient Energy 41(1) (2020) 58–63.
  • Ghadikolaei MA, Cheung CS, Yung KF. Study of combustion, performance and emissions of diesel engine fueled with diesel/ biodiesel/alcohol blends having the same oxygen concentration. Energy 157 (2018) 258–269. Yilmaz N, Ileri E, Atmanli A. Performance of biodiesel/higher alcohols blends in a diesel engine. International Journal of Energy Research 40(8) (2016) 1134–1143.
  • Atmanli A, Yilmaz N. An experimental assessment on semi-low temperature combustion using waste oil biodiesel/C3-C5 alcohol blends in a diesel engine. Fuel 260 (2020) 116357.
  • Yesilyurt MK, Aydin M. Experimental investigation on the performance, combustion and exhaust emission characteristics of a compression-ignition engine fueled with cottonseed oil biodiesel/diethyl ether/diesel fuel blends. Energy Conversion and Management 205 (2020) 112355.
  • Verma P, Dwivedi G, Behura AK, Patel DK, Verma TN, Pugazhendhi A. Experimental investigation of diesel engine fuelled with different alkyl esters of Karanja oil. Fuel 275 (2020) 117920.
  • Shrivastava P, Salam S, Verma TN, Samuel OD. Experimental and empirical analysis of an IC engine operating with ternary blends of diesel, karanja and roselle biodiesel. Fuel 262 (2020) 116608.
  • Shrivastava P, Verma TN, Pugazhendhi A. An experimental evaluation of engine performance and emisssion characteristics of CI engine operated with Roselle and Karanja biodiesel. Fuel 254 (2019) 115652.
  • Singh TS, Verma TN. Taguchi design approach for extraction of methyl ester from waste cooking oil using synthesized CaO as heterogeneous catalyst: Response surface methodology optimization. Energy Conversion and Management 182 (2019) 383–397.
  • Rajak U, Nashine P, Singh TS, Verma TN. Numerical investigation of performance, combustion and emission characteristics of various biofuels. Energy Conversion and Management 156 (2018) 235–252.
  • Rajak U, Nashine P, Verma TN, Pugazhendhi A. Alternating the environmental benefits of Aegle-diesel blends used in compression ignition. Fuel 256 (2019) 115835.
  • Rakopoulos DC, Rakopoulos CD, Giakoumis EG, Dimaratos AM, Kyritsis DC. Effects of butanol–diesel fuel blends on the performance and emissions of a high-speed DI diesel engine. Energy Conversion and Management 51(10) (2010) 1989–1997.
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  • Leite D, Santos RF, Bassegio D, de Souza SNM, Secco D, Gurgacz F, da Silva TRB. Emissions and performance of a diesel engine affected by soybean, linseed, and crambe biodiesel. Industrial Crops and Products 130 (2019) 267–272.
  • Yesilyurt MK, Eryilmaz T, Arslan M. A comparative analysis of the engine performance, exhaust emissions and combustion behaviors of a compression ignition engine fuelled with biodiesel/diesel/1- butanol (C4 alcohol) and biodiesel/diesel/n-pentanol (C5 alcohol) fuel blends. Energy 165 (2018) 1332–1351.
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  • Balan KN, Yashvanth U, Booma Devi P, Arvind T, Nelson H, Devarajan Y. Investigation on emission characteristics of alcohol biodiesel blended diesel engine. Energy Sources Part A 41(15) (2019) 1879–1889.
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  • Imdadul HK, Masjuki HH, Kalam MA, Zulkifli NWM, Alabdulkarem A, Rashed MM, Teoh YH, How HG. Higher alcohol-biodiesel-diesel blends: An approach for improving the performance, emission, and combustion of a light-duty diesel engine. Energy Conversion and Management 111 (2016) 174–185. Imdadul HK, Masjuki HH, Kalam MA, Zulkifli NWM, Alabdulkarem A, Kamruzzaman M, Rashed MM. A comparative study of C4 and C5 alcohol treated diesel-biodiesel blends in terms of diesel engine performance and exhaust emission. Fuel 179 (2016) 281–288.
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An Experimental Study On The Performance And Exhaust Emission Characteristics Of A CI Engine Powered By Alcohol/Biodiesel/Diesel Fuel Blends Containing Different Types Of Alcohol Isopropanol-C3, 1-Butanol-C4, And Isopentanol-C5

Year 2020, , 135 - 148, 26.06.2020
https://doi.org/10.17350/HJSE19030000182

Abstract

Alcohols are significant alternative and renewable fuel candidates for the utilization in the internal combustion engines due to encouraging favorable environmental and economic outputs. Long-chain alcohols have various advantages over short-chain alcohols because of their larger energy content, elevated cetane number CN and preferable blending properties, etc. The objective of the present experimental research deal with the exploring and compare the influence of the ternary fuel mixtures of petroleum-based diesel fuel, cottonseed oil methyl ester COME and long-chain alcohols of isopropanol Pr , 1-butanol Bt , and isopentanol Pt on the performance and emission characteristics of a single-cylinder, four-stroke, naturally-aspirated, direct-injection compression-ignition CI engine. As the prepared tested fuel samples, four different blends were as follows on a volume basis: B20 20% COME + %80 diesel fuel , B20Pr20 20% COME + %20 isopropanol + %80 diesel fuel , B20Bt20 20% COME + %20 1-butanol + %80 diesel fuel , and B20Pt20 20% COME + %20 isopentanol + %80 diesel fuel . The engine trials were carried out at various loads 0-1250 W and under a constant speed 3000 rpm to observe the aforementioned behaviors. Based on the experimental outcomes, brake specific fuel consumption BSFC values of B20Pr20 exhibited higher than those of other ternary blends at all loads. Brake thermal efficiency BTE values for B20Pt20 were observed as larger than those of ternary blends. B20Pt20 had higher exhaust gas temperature EGT values than those of B20Bt20 and B20Pr20. The infusion of long-chain alcohols to COME/diesel blend caused to reduce NOX emissions meanwhile isopropanol, 1-butanol, and isopentanol were the most to least influential alcohol types, respectively. Besides, with the addition of alcohol, a substantial decrement was noticed in smoke opacity at entire loads owing to the excess amount of oxygen content and lesser ratio of C/H of the alcohols. However, CO and HC emissions rose by infusion of long-chain alcohols to the blends. Finally, it can be concluded that higher alcohols could be a possible fuel additive for the fractional replacement for petroleum-based diesel fuel and biodiesel in the blends for CI engine practices.

References

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  • Atabani AE, Silitonga AS, Badruddin IA, Mahlia TMI, Masjuki HH, Mekhilef S. A comprehensive review on biodiesel as an alternative energy resource and its characteristics. Renewable and Sustainable Energy Reviews 16(4) (2012) 2070–2093.
  • Lin L, Cunshan Z, Vittayapadung S, Xiangqian S, Mingdong D. Opportunities and challenges for biodiesel fuel. Applied Energy 88(4) (2011) 1020–1031.
  • Sharma YC, Singh B, Upadhyay SN. Advancements in development and characterization of biodiesel: A review. Fuel 87(12) (2008) 2355–2373.
  • Atzemi M, Lois E, Kosyfologou I. Effects of biodiesel and hydrotreated vegetable oil on the performance and exhaust emissions of a stationary diesel engine. IOSR Journal of Applied Chemistry 12(1) (2019) 44–54.
  • Ooi XY, Gao W, Ong HC, Lee HV, Juan JC, Chen WH, Lee KT. Overview on catalytic deoxygenation for biofuel synthesis using metal oxide supported catalysts. Renewable and Sustainable Energy Reviews 112 (2019) 834–852.
  • Yesilyurt MK, Yilbasi Z, Aydin M. The performance, emissions, and combustion characteristics of an unmodified diesel engine running on the ternary blends of pentanol/safflower oil biodiesel/diesel fuel. Journal of Thermal Analysis and Calorimetry (2020) 1-40.
  • Atmanli A, Ileri E, Yuksel B, Yilmaz N. Extensive analyses of diesel– vegetable oil–n-butanol ternary blends in a diesel engine. Applied Energy 145 (2015) 155–162.
  • Gülüm M, Bilgin A. A comprehensive study on measurement and prediction of viscosity of biodiesel-diesel-alcohol ternary blends. Energy 148 (2018) 341–361.
  • Ibrahim A. Performance and combustion characteristics of a diesel engine fuelled by butanol–biodiesel–diesel blends. Applied Thermal Engineering 103 (2016) 651–659.
  • Yilmaz N, Atmanli A, Vigil FM. Quaternary blends of diesel, biodiesel, higher alcohols and vegetable oil in a compression ignition engine. Fuel 212 (2018) 462–469.
  • Hulwan DB, Joshi SV. Performance, emission and combustion characteristic of a multicylinder DI diesel engine running on diesel– ethanol–biodiesel blends of high ethanol content. Applied Energy 88(12) (2011) 5042–5055.
  • Çelebi Y, Aydın H. An overview on the light alcohol fuels in diesel engines. Fuel 236 (2019) 890–911.
  • Ning L, Duan Q, Chen Z, Kou H, Liu B, Yang B, Zeng K. A comparative study on the combustion and emissions of a non- road common rail diesel engine fueled with primary alcohol fuels (methanol, ethanol, and n-butanol)/diesel dual fuel. Fuel 266 (2020) 117034.
  • Jamrozik A, Tutak W, Gnatowska R, Nowak Ł. Comparative analysis of the combustion stability of diesel-methanol and diesel-ethanol in a dual fuel engine. Energies 12(6) (2019) 971.
  • Dabas N, Dubey V, Chhabra M, Dwivedi G. Performance analysis of an IC engine using methanol, ethanol, and its blend with gasoline and diesel as a fuel. In Advances in Fluid and Thermal Engineering (2019) 223–232.
  • Kwanchareon P, Luengnaruemitchai A, Jai-In S. Solubility of a diesel–biodiesel–ethanol blend, its fuel properties, and its emission characteristics from diesel engine. Fuel 86(7-8) (2007) 1053–1061.
  • Shahir SA, Masjuki HH, Kalam MA, Imran A, Fattah IR, Sanjid A. Feasibility of diesel–biodiesel–ethanol/bioethanol blend as existing CI engine fuel: An assessment of properties, material compatibility, safety and combustion. Renewable and Sustainable Energy Reviews 32 (2014) 379–395.
  • Lei J, Shen L, Bi Y, Chen H. A novel emulsifier for ethanol–diesel blends and its effect on performance and emissions of diesel engine. Fuel 93 (2012) 305–311. Al-Hassan M, Mujafet H, Al-Shannag M. An Experimental study on the solubility of a diesel-ethanol blend and on the performance of a diesel engine fueled with diesel-biodiesel-ethanol blends. Jordan Journal of Mechanical & Industrial Engineering 6(2) (2012) 147–153.
  • Muthaiyan P, Gomathinayagam S. Combustion characteristics of a diesel engine using propanol diesel fuel blends. Journal of the Institution of Engineers (India): Series C 97(3) (2016) 323–329.
  • Ganesh D, Ayyappan PR, Murugan R. Experimental investigation of iso-butanol/diesel reactivity controlled compression ignition combustion in a non-road diesel engine. Applied Energy 242 (2019) 1307–1319.
  • Wei M, Li S, Xiao H, Guo G. Combustion performance and pollutant emissions analysis using diesel/gasoline/iso-butanol blends in a diesel engine. Energy Conversion and Management 149 (2017) 381–391.
  • Zhang ZH, Balasubramanian R. Physicochemical and toxicological characteristics of particulate matter emitted from a non-road diesel engine: Comparative evaluation of biodiesel-diesel and butanol- diesel blends. Journal of Hazardous Materials 264 (2014) 395–402.
  • Yilmaz N, Vigil FM, Benalil K, Davis SM, Calva A. Effect of biodiesel–butanol fuel blends on emissions and performance characteristics of a diesel engine. Fuel 135 (2014) 46–50.
  • Işık MZ, Bayındır H, Iscan B, Aydın H. The effect of n-butanol additive on low load combustion, performance and emissions biodiesel-diesel blend in a heavy duty diesel power generator. of the Energy Institute 90(2) (2017) 174–184. of Journal
  • Campos-Fernández J, Arnal JM, Gómez J, Dorado MP. A comparison of performance of higher alcohols/diesel fuel blends in a diesel engine. Applied Energy 95 (2012) 267–275.
  • Li L, Wang J, Wang Z, Xiao J. Combustion and emission characteristics of diesel engine fueled with diesel/biodiesel/ pentanol fuel blends. Fuel 156 (2015) 211–218.
  • Li L, Wang J, Wang Z, Liu H. Combustion and emissions of compression ignition in a direct injection diesel engine fueled with pentanol. Energy 80 (2015) 575–581.
  • Yang K, Wei L, Cheung CS, Tang C, Huang Z. The effect of pentanol addition on the particulate emission characteristics of a biodiesel operated diesel engine. Fuel 209 (2017) 132–140.
  • Santhosh K, Kumar GN. Effect of 1-pentanol addition and EGR on the combustion, performance and emission characteristic of a CRDI diesel engine. Renewable Energy 145 (2020) 925–936.
  • Sridhar R, Jeevahan J, Chandrasekaran M. Effect of the addition of 1-pentanol on engine performance and emission characteristics of diesel and biodiesel fuelled single cylinder diesel engine. International Journal of Ambient Energy 41(1) (2020) 58–63.
  • Ghadikolaei MA, Cheung CS, Yung KF. Study of combustion, performance and emissions of diesel engine fueled with diesel/ biodiesel/alcohol blends having the same oxygen concentration. Energy 157 (2018) 258–269. Yilmaz N, Ileri E, Atmanli A. Performance of biodiesel/higher alcohols blends in a diesel engine. International Journal of Energy Research 40(8) (2016) 1134–1143.
  • Atmanli A, Yilmaz N. An experimental assessment on semi-low temperature combustion using waste oil biodiesel/C3-C5 alcohol blends in a diesel engine. Fuel 260 (2020) 116357.
  • Yesilyurt MK, Aydin M. Experimental investigation on the performance, combustion and exhaust emission characteristics of a compression-ignition engine fueled with cottonseed oil biodiesel/diethyl ether/diesel fuel blends. Energy Conversion and Management 205 (2020) 112355.
  • Verma P, Dwivedi G, Behura AK, Patel DK, Verma TN, Pugazhendhi A. Experimental investigation of diesel engine fuelled with different alkyl esters of Karanja oil. Fuel 275 (2020) 117920.
  • Shrivastava P, Salam S, Verma TN, Samuel OD. Experimental and empirical analysis of an IC engine operating with ternary blends of diesel, karanja and roselle biodiesel. Fuel 262 (2020) 116608.
  • Shrivastava P, Verma TN, Pugazhendhi A. An experimental evaluation of engine performance and emisssion characteristics of CI engine operated with Roselle and Karanja biodiesel. Fuel 254 (2019) 115652.
  • Singh TS, Verma TN. Taguchi design approach for extraction of methyl ester from waste cooking oil using synthesized CaO as heterogeneous catalyst: Response surface methodology optimization. Energy Conversion and Management 182 (2019) 383–397.
  • Rajak U, Nashine P, Singh TS, Verma TN. Numerical investigation of performance, combustion and emission characteristics of various biofuels. Energy Conversion and Management 156 (2018) 235–252.
  • Rajak U, Nashine P, Verma TN, Pugazhendhi A. Alternating the environmental benefits of Aegle-diesel blends used in compression ignition. Fuel 256 (2019) 115835.
  • Rakopoulos DC, Rakopoulos CD, Giakoumis EG, Dimaratos AM, Kyritsis DC. Effects of butanol–diesel fuel blends on the performance and emissions of a high-speed DI diesel engine. Energy Conversion and Management 51(10) (2010) 1989–1997.
  • Silitonga AS, Masjuki HH, Ong HC, Sebayang AH, Dharma S, Kusumo F, Siswantoro J, Milano J, Daud K, Mahlia TMI, Chen WH, Sugiyanto B. Evaluation of the engine performance and exhaust emissions of biodiesel-bioethanol-diesel blends using kernel-based extreme learning machine. Energy 159 (2018) 1075–1087.
  • Leite D, Santos RF, Bassegio D, de Souza SNM, Secco D, Gurgacz F, da Silva TRB. Emissions and performance of a diesel engine affected by soybean, linseed, and crambe biodiesel. Industrial Crops and Products 130 (2019) 267–272.
  • Yesilyurt MK, Eryilmaz T, Arslan M. A comparative analysis of the engine performance, exhaust emissions and combustion behaviors of a compression ignition engine fuelled with biodiesel/diesel/1- butanol (C4 alcohol) and biodiesel/diesel/n-pentanol (C5 alcohol) fuel blends. Energy 165 (2018) 1332–1351.
  • Žaglinskis J, Lukács K, Bereczky Á. Comparison of properties of a compression ignition engine operating on diesel–biodiesel blend with methanol additive. Fuel 170 (2016) 245–253. Rakopoulos CD, Antonopoulos KA, Rakopoulos DC. Experimental heat release analysis and emissions of a HSDI diesel engine fueled with ethanol–diesel fuel blends. Energy 32(10) (2007) 1791–1808.
  • Ashok B, Jeevanantham AK, Nanthagopal K, Saravanan B, Kumar MS, Johny A, Mohan A, Kaisan MU, Abubakar S. An experimental analysis on the effect of n-pentanol-Calophyllum Inophyllum Biodiesel binary blends in CI engine characteristcis. Energy 173 (2019) 290–305.
  • Joy N, Devarajan Y, Nagappan B, Anderson A. Exhaust emission study on neat biodiesel and alcohol blends fueled diesel engine. Energy Sources Part A 40(1) (2018) 115–119.
  • Balan KN, Yashvanth U, Booma Devi P, Arvind T, Nelson H, Devarajan Y. Investigation on emission characteristics of alcohol biodiesel blended diesel engine. Energy Sources Part A 41(15) (2019) 1879–1889.
  • Nabi MN, Zare A, Hossain FM, Bodisco TA, Ristovski ZD, Brown RJ. A parametric study on engine performance and emissions with neat diesel and diesel-butanol blends in the 13-Mode European Stationary Cycle. Energy Conversion and Management 148 (2017) 251–259.
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There are 64 citations in total.

Details

Primary Language English
Journal Section Research Article
Authors

Murat Kadir Yesilyurt This is me

Publication Date June 26, 2020
Published in Issue Year 2020

Cite

Vancouver Yesilyurt MK. An Experimental Study On The Performance And Exhaust Emission Characteristics Of A CI Engine Powered By Alcohol/Biodiesel/Diesel Fuel Blends Containing Different Types Of Alcohol Isopropanol-C3, 1-Butanol-C4, And Isopentanol-C5. Hittite J Sci Eng. 2020;7(2):135-48.

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