The study of the spark ignition engine operation at fuelling with n-butanol-gasoline blends

Cristian Sandu; Constantin Pană; Niculae Negurescu; Alexandru Cernat; Cristian Nuţu; Rareş Georgescu

doi:10.1051/e3sconf/202018001010

All issues

Volume 180 (2020)

E3S Web Conf., 180 (2020) 01010

References

Open Access

Issue		E3S Web Conf. Volume 180, 2020 9^th International Conference on Thermal Equipments, Renewable Energy and Rural Development (TE-RE-RD 2020)


Article Number		01010
Number of page(s)		10
Section		Thermal Equipments and Processes
DOI		https://doi.org/10.1051/e3sconf/202018001010
Published online		24 July 2020

Gautam M., Martin II D.W. (2000) Combustion characteristics of higheralcohol/gasoline blends, Proceedings of the IMechE Part A: J. Power and Energy 214, 5, 497-511. Yoon J, Ryu J and Lim K B 2005 A novel reconfigurable ankle rehabilitation robot for various exercises Proceedings of the 2005 IEEE International Conference on Robotics and Automation ICRA 2005 pp 2290-2295 [CrossRef] [Google Scholar]
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Yacoub Y., Bata R., Gautam M. (1998) The performance and emission characteristics of C1-C5 alcohol-gasoline blends with matched oxygen content in a single-cylinder spark-ignition engine, Proceedings of the IMechE Part A: J. Power and Energy 212, 5, 363-379. [CrossRef] [Google Scholar]
Wu M, Wang M, Liu J, Huo H. Assessment of potential life-cycle energy and greenhouse gas emission effects 293 from using corn‐based butanol as a transportation fuel. Biotechnol Progr 2008; 24: 1204-1214 [Google Scholar]
Jin C, Yao M, Liu H, Lee CF, Ji J. Progress in the production and application of nbutanol as a biofuel, Renew Sust Energ Rev 2011; 15: 4080-4106. [CrossRef] [Google Scholar]
Doğan O. The influence of n-butanol/diesel fuel blends utilization on a small diesel engine performance and emissions. Fuel 2011; 90: 2467–2472. [Google Scholar]
H, Huo M, Liu Y, Wang X, Wang H, Yao M, Lee CF. Time-resolved spray, flame, soot quantitative measurement fueling n-butanol and soybean biodiesel in a constant volume chamber under various ambient temperatures. Fuel 2014; 133: 317-325. [Google Scholar]
Liu H, Bi X, Huo M, Lee CF, Yao M. Soot Emissions of Various Oxygenated Biofuels in Conventional Diesel Combustion and Low-Temperature Combustion Conditions. Energ Fuel 2012; 26: 1900-1911. [CrossRef] [Google Scholar]
Liu H, Li S, Zheng Z, Xu J, Yao M. Effects of n-butanol, 2-butanol, and methyl octynoate addition to diesel fuel on combustion and emissions over a wide range of exhaust gas recirculation (EGR) rates. Appl Energ 2013; 112: 246-256. [CrossRef] [Google Scholar]
Yuqiang L, Lei M, Karthik N, Timoty H L, Yilu L, Shengming L, Chia-Fon L, Combustion, performance and emissions characteristics of a spark-ignition engine fueled with isopropanol-n-butanol-ethanol and gasoline blends. Elsevier 2016; 184: 864-872. [Google Scholar]
Serras-Pereira J, Aleiferis P.G, Richardson D. An Analysis of the Combustion Behavior of Ethanol, Butanol, Iso-Octane, Gasoline, and Methane in a Direct-Injection Spark-Ignition Research Engine. Combustion Science and Technology (2013), 185:3, 484-513. [CrossRef] [Google Scholar]
He B-Q, Yuan J, Liu M-B, Zhao H. Combustion and emission characteristics of a nbutanol HCCI engine. Fuel 2014; 115: 758–64. [CrossRef] [Google Scholar]
Zheng M, Han X, Asad U, Wang J. Investigation of butanol-fuelled HCCI combustion on a high efficiency diesel engine. Energy Convers Manage 2015; 98: 215–24.b [CrossRef] [Google Scholar]
Alasfour F.N. (1997) Butanol-A single-cylinder engine study: Availability analysis, Appl. Therm. Eng. 17, 6, 537-549. [Google Scholar]
Alasfour F.N. (1998) NOx emission from a spark-ignition engine using 30% isobutanol – gasoline blend: Part 1: Preheating inlet air, Appl. Therm. Eng. 18, 5, 245-256. [Google Scholar]
Alasfour F.N. (1998) NOx emission from a spark-ignition engine using 30% isobutanol – gasoline [Google Scholar]

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[1] Gautam M., Martin II D.W. (2000) Combustion characteristics of higheralcohol/gasoline blends, Proceedings of the IMechE Part A: J. Power and Energy 214, 5, 497-511. Yoon J, Ryu J and Lim K B 2005 A novel reconfigurable ankle rehabilitation robot for various exercises Proceedings of the 2005 IEEE International Conference on Robotics and Automation ICRA 2005 pp 2290-2295 [CrossRef] [Google Scholar]

[2] Gautam M., Martin II D.W., Carder D. (2000) Emission characteristics of higheralcohol/gasoline blends, Proceedings of the IMechE Part A: J. Power and Energy 214, 2, 165-182. [CrossRef] [Google Scholar]

[3] Yacoub Y., Bata R., Gautam M. (1998) The performance and emission characteristics of C1-C5 alcohol-gasoline blends with matched oxygen content in a single-cylinder spark-ignition engine, Proceedings of the IMechE Part A: J. Power and Energy 212, 5, 363-379. [CrossRef] [Google Scholar]

[4] Wu M, Wang M, Liu J, Huo H. Assessment of potential life-cycle energy and greenhouse gas emission effects 293 from using corn‐based butanol as a transportation fuel. Biotechnol Progr 2008; 24: 1204-1214 [Google Scholar]

[5] Jin C, Yao M, Liu H, Lee CF, Ji J. Progress in the production and application of nbutanol as a biofuel, Renew Sust Energ Rev 2011; 15: 4080-4106. [CrossRef] [Google Scholar]

[6] Doğan O. The influence of n-butanol/diesel fuel blends utilization on a small diesel engine performance and emissions. Fuel 2011; 90: 2467–2472. [Google Scholar]

[7] H, Huo M, Liu Y, Wang X, Wang H, Yao M, Lee CF. Time-resolved spray, flame, soot quantitative measurement fueling n-butanol and soybean biodiesel in a constant volume chamber under various ambient temperatures. Fuel 2014; 133: 317-325. [Google Scholar]

[8] Liu H, Bi X, Huo M, Lee CF, Yao M. Soot Emissions of Various Oxygenated Biofuels in Conventional Diesel Combustion and Low-Temperature Combustion Conditions. Energ Fuel 2012; 26: 1900-1911. [CrossRef] [Google Scholar]

[9] Liu H, Li S, Zheng Z, Xu J, Yao M. Effects of n-butanol, 2-butanol, and methyl octynoate addition to diesel fuel on combustion and emissions over a wide range of exhaust gas recirculation (EGR) rates. Appl Energ 2013; 112: 246-256. [CrossRef] [Google Scholar]

[10] Yuqiang L, Lei M, Karthik N, Timoty H L, Yilu L, Shengming L, Chia-Fon L, Combustion, performance and emissions characteristics of a spark-ignition engine fueled with isopropanol-n-butanol-ethanol and gasoline blends. Elsevier 2016; 184: 864-872. [Google Scholar]

[11] Serras-Pereira J, Aleiferis P.G, Richardson D. An Analysis of the Combustion Behavior of Ethanol, Butanol, Iso-Octane, Gasoline, and Methane in a Direct-Injection Spark-Ignition Research Engine. Combustion Science and Technology (2013), 185:3, 484-513. [CrossRef] [Google Scholar]

[12] He B-Q, Yuan J, Liu M-B, Zhao H. Combustion and emission characteristics of a nbutanol HCCI engine. Fuel 2014; 115: 758–64. [CrossRef] [Google Scholar]

[13] Zheng M, Han X, Asad U, Wang J. Investigation of butanol-fuelled HCCI combustion on a high efficiency diesel engine. Energy Convers Manage 2015; 98: 215–24.b [CrossRef] [Google Scholar]

[14] Alasfour F.N. (1997) Butanol-A single-cylinder engine study: Availability analysis, Appl. Therm. Eng. 17, 6, 537-549. [Google Scholar]

[15] Alasfour F.N. (1998) NOx emission from a spark-ignition engine using 30% isobutanol – gasoline blend: Part 1: Preheating inlet air, Appl. Therm. Eng. 18, 5, 245-256. [Google Scholar]

[16] Alasfour F.N. (1998) NOx emission from a spark-ignition engine using 30% isobutanol – gasoline [Google Scholar]