Combustion, Emission and Performance Characteristics of a Light Duty Diesel Engine Fuelled with Methanol Diesel Blends
Combustion, emission and performance
characterization of a single cylinder diesel engine using methanol
diesel blends was carried out. The blends were 5% (v/v) methanol in
diesel (MD05) and 10% (v/v) methanol in diesel (MD10). The
problem of solubility of methanol and diesel was addressed by an
agitator placed inside the fuel tank to prevent phase separation. The
results indicated that total combustion duration was reduced by15.8%
for MD05 and 31.27% for MD10compared to the baseline data.
Ignition delay was increased with increasing methanol volume
fraction in the test fuel. Total cyclic heat release was reduced by
1.5% for MD05 and 6.7% for MD10 as compared to diesel baseline.
Emissions of carbon monoxide, hydrocarbons along with smoke were
reduced and that of nitrogen oxides were increased with rising
methanol contents in the test fuel. Full load brake thermal efficiency
was marginally reduced with increased methanol composition in the
blend.
[1] L.J Wang, R.Z Song, H.B Zou, S.H Liu, L.B Zhou. "Study on
combustion characteristics of a methanol-diesel fuel compression
ignition engine". Proc Inst Mech Eng D - J Auto (2008); 222:619-27.
[2] R.H Thring. "Alternative fuels for spark-ignition engines". SAE
1983.Paper No. 831685. p. 4715-25.
[3] H. Bayraktar. "An experimental study on the performance parameters of
an experimental CI engine fueled withdiesel-methanol-dodecanol
blends". Fuel (2008); 87:158-164.
[4] T. Chmielniak, M. Sciazko. "Co-gasification of biomass and coal
formethanol synthesis". Applied Energy (2003); 74:393-403.
[5] A. Kowalewicz. "Methanol as a fuel for spark ignition engines: a
reviewand analysis". Proc Inst Mech Eng (1993); 207:43-52.
[6] C.H. Cheng, C.S. Cheung, T.L. Chan, S.C. Lee, C.D. Yao, K.S. Tsang.
"Comparison of emissions of a direct injection diesel engine operatingon
biodiesel with emulsified and fumigated methanol". Fuel (2008);
87:1870-1879.
[7] M.S Kumar, A. Ramesh, B. Nagalingam. "An experimental comparison
of methods to use methanol and Jatropha oil in a compressionignition
engine". Biomass Bioenergy (2003); 25:309-18.
[8] S.Y Liao., D.M Jiang, Q.Cheng, Z.H.Huang, Q.Wei. "Investigation of
the cold start combustion characteristics of ethanol-gasoline blends in a
constant-volume chamber". Energy and Fuels (2005); 19:813-819.
[9] J.L. Smith, J.P. Workman. "Alcohols for motor fuels". Colorado State
University and U.S. Department of Agriculture. Fact sheet no. 5.010.
[10] C. Sayin, K. Uslu, M. Canakci. Influence of injection timing on the
exhaustemissions of a dual-fuel CI engine. Renewable Energy (2008);
33:1314-23.
[11] C. Sayin, A.N Ozsezen,M. Canakci. "The influence of operating
parameters on the performance and emissionsof a DI diesel engine using
methanol-blended-diesel fuel". Fuel (2010); 89:1407-1414.
[12] T.O Wagner, D.S Gray, B.Y Zarah, A.A Kozinski. "Practicality
ofalcohols as motor fuel". SAE 1979. Paper No. 790429. pp. 1591-607.
[13] Z. Huang, H. Lu, D. Jiang, K. Zeng, B. Liu, J. Zhang, X. Wang.
"Combustion behavior of a compression ignition engine fueled with
diesel/methanol blends under various fuel delivery advance angles".
Bioresource Technology (2004); 95: 331-341.
[14] C. Sayin. "Engine performance and exhaust gas emissions of
methanoland ethanol-diesel blends". Fuel (2010); 89:3410-3415.
[15] M.R Chao, T.C Lina, H.R Chao, F.H Chang, C.B Chen. "Effects of
methanol-containing additive on emissioncharacteristics from a heavyduty
diesel engine". The Science of the Total Environment (2001);
279:167-179.
[16] C.H. Cheng, C.S. Cheung, T.L. Chan, S.C. Lee, C.D. Yao.
"Experimental investigation on the performance, gaseous and particulate
emissions of a methanol fumigated diesel engine". The Science of the
Total Environment (2008); 389: 115-124.
[17] Z.H. Zhang, C.S. Cheung, T.L. Chan, C.D. Yao. "Emission reduction
from diesel engine using fumigation methanol and dieseloxidation
catalyst". Science of the Total Environment (2009); 407:4497-4505.
[18] C. Yao, C.S. Cheung, C. Cheng Y. Wang, T.L. Chan, S.C. Lee. "Effect
of diesel/methanol compound combustion on dieselengine combustion
and emissions". Energy Conversion and Management (2008); 491:696-
1704.
[19] S.X Shi, K.H Zhao, M.L Fu, S.K Wang, Z.Y Sun. "An investigation of
using methanol as an alternative fuel for diesel engines". In: Proceedings
of the 15th International Congress on combustion engines; 1983.
[20] N.Yilmaz. "Effects of intake air preheat and fuel blend ratio on a diesel
engine operatingon biodiesel-methanol blends". Fuel (2012); 94:444-
447.
[21] N.Yilmaz. "Performance and emission characteristics of a diesel engine
fuelled with biodiesel-ethanol and biodiesel-methanol blends at
elevated airtemperatures". Fuel (2012); 94:440-443.
[22] L. Zhu, C.S. Cheung, W.G. Zhang, Z. Huang. "Effect of charge dilution
on gaseous and particulate emissions from a dieselengine fueled with
biodiesel and biodiesel blended with methanol and ethanol". Applied
Thermal Engineering (2011); 31:2271-2278.
[23] JFaletti, S. C. Sorenson, C. E. Goering. "Energy release rates from
hybrid fuels". Transactions of the ASAE (1984); 27(2): 322-325.
[24] Z.HHuang, D.MJiang, K. Zeng, B. Liu, Z.LYang. "Combustion
characteristics and heat release analysis of a DI compression ignition
engine fueled with diesel-dimethyl carbonate blends". Proc Inst Mech
Eng, Part D, J Automobile Eng (2003); 217(D7):595-606.
[25] Heywood JB. Internal combustion engine fundamentals. New York:
McGraw-Hill Book Company; 1988.
[26] D.H. Qi, H. Chen, L.M. Geng, Y.ZH. Bian, X.CH. Ren. "Performance
and combustion characteristics of biodiesel-diesel-methanolblend
fuelled engine". Applied Energy (2010); 87:1679-1686.
[27] A.N Ozsezen, M. Canakci, C.Sayin."Effects of biodiesel from used
frying palm oil on the exhaust emissions of an indirect injection (IDI)
diesel engine". EnergyFuel (2008); 22:2796-804.
[28] R.W Rice, A.K Sanyal, A.C Elrod, R.Bata."Exhaust gas emissions of
butanol, ethanol, and methanol-gasoline blends". J Eng Gas Turbines
Power (1991); 113(3):377-81.
[29] B. Challen, R.Baranescu. "Diesel engine reference book". 2nd ed.
Woburn,MA: SAE and Butterworth Heinemann; 1999.
[30] T.Wallner, S.AMiers, S. Mc Conell. "A comparison of ethanol and
butanol asoxygenates using a DI spark-ignition engine". J Eng Gas
Turbines Power2009; 131(3):1-9.
[31] G.HAlla, H.ASoliman, O.HBadr, M.FRabbo. "Effect of injection
timingon the performance of diesel engine". Energy Conv Manage 2002;
43:269-77.
[32] M.RChao, T.CLin, H.WChao, F.SChang, C.BChen. "Effects of
methanol-containingadditive on emission characteristics from a heavyduty
diesel engine". Sci TotalEnviron (2001); 279:167-79.
[33] R.Stone. "Introduction to internal combustion engines". 3rd ed.
Warrendale: SAEInc.; 1999.
[34] J.Song, K.Cheenkachorn, J.Wang, Perez J, A.LBoehman, P.JYoung.
"Effect ofoxygenated fuel on combustion and emissions in a light-duty
turbo dieselengine". Energy Fuel (2002); 16:294-301.
[35] J. Huang, Y.Wang, S.Li, A.PRoskilly, H.Yu, H.Li. "Experimental
investigation onthe performance and emissions of a diesel engine fuelled
with ethanol-dieselblends". ApplTherm Eng (2009); 29(11-12):2484-
90.
[36] M.Lapuerta, F.JMartos, M.DCardenas. "Determination of light
extinctionefficiency of diesel soot from smoke opacity measurement".
Meas Sci Technol (2005); 16:2048-55.
[37] H.HSchobert. "The chemistry of hydrocarbon fuels". England:
Butterworth-Heinemann; 1991.
[38] M.PPickett, D.LSiebers. "Soot in diesel fuel jets: effect of ambient
density, andinjection pressure". Combust Flame (2004); 138(1-2):114-
35.
[1] L.J Wang, R.Z Song, H.B Zou, S.H Liu, L.B Zhou. "Study on
combustion characteristics of a methanol-diesel fuel compression
ignition engine". Proc Inst Mech Eng D - J Auto (2008); 222:619-27.
[2] R.H Thring. "Alternative fuels for spark-ignition engines". SAE
1983.Paper No. 831685. p. 4715-25.
[3] H. Bayraktar. "An experimental study on the performance parameters of
an experimental CI engine fueled withdiesel-methanol-dodecanol
blends". Fuel (2008); 87:158-164.
[4] T. Chmielniak, M. Sciazko. "Co-gasification of biomass and coal
formethanol synthesis". Applied Energy (2003); 74:393-403.
[5] A. Kowalewicz. "Methanol as a fuel for spark ignition engines: a
reviewand analysis". Proc Inst Mech Eng (1993); 207:43-52.
[6] C.H. Cheng, C.S. Cheung, T.L. Chan, S.C. Lee, C.D. Yao, K.S. Tsang.
"Comparison of emissions of a direct injection diesel engine operatingon
biodiesel with emulsified and fumigated methanol". Fuel (2008);
87:1870-1879.
[7] M.S Kumar, A. Ramesh, B. Nagalingam. "An experimental comparison
of methods to use methanol and Jatropha oil in a compressionignition
engine". Biomass Bioenergy (2003); 25:309-18.
[8] S.Y Liao., D.M Jiang, Q.Cheng, Z.H.Huang, Q.Wei. "Investigation of
the cold start combustion characteristics of ethanol-gasoline blends in a
constant-volume chamber". Energy and Fuels (2005); 19:813-819.
[9] J.L. Smith, J.P. Workman. "Alcohols for motor fuels". Colorado State
University and U.S. Department of Agriculture. Fact sheet no. 5.010.
[10] C. Sayin, K. Uslu, M. Canakci. Influence of injection timing on the
exhaustemissions of a dual-fuel CI engine. Renewable Energy (2008);
33:1314-23.
[11] C. Sayin, A.N Ozsezen,M. Canakci. "The influence of operating
parameters on the performance and emissionsof a DI diesel engine using
methanol-blended-diesel fuel". Fuel (2010); 89:1407-1414.
[12] T.O Wagner, D.S Gray, B.Y Zarah, A.A Kozinski. "Practicality
ofalcohols as motor fuel". SAE 1979. Paper No. 790429. pp. 1591-607.
[13] Z. Huang, H. Lu, D. Jiang, K. Zeng, B. Liu, J. Zhang, X. Wang.
"Combustion behavior of a compression ignition engine fueled with
diesel/methanol blends under various fuel delivery advance angles".
Bioresource Technology (2004); 95: 331-341.
[14] C. Sayin. "Engine performance and exhaust gas emissions of
methanoland ethanol-diesel blends". Fuel (2010); 89:3410-3415.
[15] M.R Chao, T.C Lina, H.R Chao, F.H Chang, C.B Chen. "Effects of
methanol-containing additive on emissioncharacteristics from a heavyduty
diesel engine". The Science of the Total Environment (2001);
279:167-179.
[16] C.H. Cheng, C.S. Cheung, T.L. Chan, S.C. Lee, C.D. Yao.
"Experimental investigation on the performance, gaseous and particulate
emissions of a methanol fumigated diesel engine". The Science of the
Total Environment (2008); 389: 115-124.
[17] Z.H. Zhang, C.S. Cheung, T.L. Chan, C.D. Yao. "Emission reduction
from diesel engine using fumigation methanol and dieseloxidation
catalyst". Science of the Total Environment (2009); 407:4497-4505.
[18] C. Yao, C.S. Cheung, C. Cheng Y. Wang, T.L. Chan, S.C. Lee. "Effect
of diesel/methanol compound combustion on dieselengine combustion
and emissions". Energy Conversion and Management (2008); 491:696-
1704.
[19] S.X Shi, K.H Zhao, M.L Fu, S.K Wang, Z.Y Sun. "An investigation of
using methanol as an alternative fuel for diesel engines". In: Proceedings
of the 15th International Congress on combustion engines; 1983.
[20] N.Yilmaz. "Effects of intake air preheat and fuel blend ratio on a diesel
engine operatingon biodiesel-methanol blends". Fuel (2012); 94:444-
447.
[21] N.Yilmaz. "Performance and emission characteristics of a diesel engine
fuelled with biodiesel-ethanol and biodiesel-methanol blends at
elevated airtemperatures". Fuel (2012); 94:440-443.
[22] L. Zhu, C.S. Cheung, W.G. Zhang, Z. Huang. "Effect of charge dilution
on gaseous and particulate emissions from a dieselengine fueled with
biodiesel and biodiesel blended with methanol and ethanol". Applied
Thermal Engineering (2011); 31:2271-2278.
[23] JFaletti, S. C. Sorenson, C. E. Goering. "Energy release rates from
hybrid fuels". Transactions of the ASAE (1984); 27(2): 322-325.
[24] Z.HHuang, D.MJiang, K. Zeng, B. Liu, Z.LYang. "Combustion
characteristics and heat release analysis of a DI compression ignition
engine fueled with diesel-dimethyl carbonate blends". Proc Inst Mech
Eng, Part D, J Automobile Eng (2003); 217(D7):595-606.
[25] Heywood JB. Internal combustion engine fundamentals. New York:
McGraw-Hill Book Company; 1988.
[26] D.H. Qi, H. Chen, L.M. Geng, Y.ZH. Bian, X.CH. Ren. "Performance
and combustion characteristics of biodiesel-diesel-methanolblend
fuelled engine". Applied Energy (2010); 87:1679-1686.
[27] A.N Ozsezen, M. Canakci, C.Sayin."Effects of biodiesel from used
frying palm oil on the exhaust emissions of an indirect injection (IDI)
diesel engine". EnergyFuel (2008); 22:2796-804.
[28] R.W Rice, A.K Sanyal, A.C Elrod, R.Bata."Exhaust gas emissions of
butanol, ethanol, and methanol-gasoline blends". J Eng Gas Turbines
Power (1991); 113(3):377-81.
[29] B. Challen, R.Baranescu. "Diesel engine reference book". 2nd ed.
Woburn,MA: SAE and Butterworth Heinemann; 1999.
[30] T.Wallner, S.AMiers, S. Mc Conell. "A comparison of ethanol and
butanol asoxygenates using a DI spark-ignition engine". J Eng Gas
Turbines Power2009; 131(3):1-9.
[31] G.HAlla, H.ASoliman, O.HBadr, M.FRabbo. "Effect of injection
timingon the performance of diesel engine". Energy Conv Manage 2002;
43:269-77.
[32] M.RChao, T.CLin, H.WChao, F.SChang, C.BChen. "Effects of
methanol-containingadditive on emission characteristics from a heavyduty
diesel engine". Sci TotalEnviron (2001); 279:167-79.
[33] R.Stone. "Introduction to internal combustion engines". 3rd ed.
Warrendale: SAEInc.; 1999.
[34] J.Song, K.Cheenkachorn, J.Wang, Perez J, A.LBoehman, P.JYoung.
"Effect ofoxygenated fuel on combustion and emissions in a light-duty
turbo dieselengine". Energy Fuel (2002); 16:294-301.
[35] J. Huang, Y.Wang, S.Li, A.PRoskilly, H.Yu, H.Li. "Experimental
investigation onthe performance and emissions of a diesel engine fuelled
with ethanol-dieselblends". ApplTherm Eng (2009); 29(11-12):2484-
90.
[36] M.Lapuerta, F.JMartos, M.DCardenas. "Determination of light
extinctionefficiency of diesel soot from smoke opacity measurement".
Meas Sci Technol (2005); 16:2048-55.
[37] H.HSchobert. "The chemistry of hydrocarbon fuels". England:
Butterworth-Heinemann; 1991.
[38] M.PPickett, D.LSiebers. "Soot in diesel fuel jets: effect of ambient
density, andinjection pressure". Combust Flame (2004); 138(1-2):114-
35.
@article{"International Journal of Mechanical, Industrial and Aerospace Sciences:60451", author = "Mishra Chinmaya and Pal Anuj and Tomar Vishvendra Singh and Kumar Naveen", title = "Combustion, Emission and Performance Characteristics of a Light Duty Diesel Engine Fuelled with Methanol Diesel Blends", abstract = "Combustion, emission and performance
characterization of a single cylinder diesel engine using methanol
diesel blends was carried out. The blends were 5% (v/v) methanol in
diesel (MD05) and 10% (v/v) methanol in diesel (MD10). The
problem of solubility of methanol and diesel was addressed by an
agitator placed inside the fuel tank to prevent phase separation. The
results indicated that total combustion duration was reduced by15.8%
for MD05 and 31.27% for MD10compared to the baseline data.
Ignition delay was increased with increasing methanol volume
fraction in the test fuel. Total cyclic heat release was reduced by
1.5% for MD05 and 6.7% for MD10 as compared to diesel baseline.
Emissions of carbon monoxide, hydrocarbons along with smoke were
reduced and that of nitrogen oxides were increased with rising
methanol contents in the test fuel. Full load brake thermal efficiency
was marginally reduced with increased methanol composition in the
blend.", keywords = "Combustion, diesel engine, emission, methanol,performance.", volume = "7", number = "5", pages = "889-11", }
