Effect of Higher Content N-Butanol Blends on Combustion, Exhaust Emissions and Catalyst Performance of an Unmodified SI Vehicle Engine

Technical Paper

2012-01-1594

ISSN: 0148-7191, e-ISSN: 2688-3627

DOI: https://doi.org/10.4271/2012-01-1594

Published September 10, 2012 by SAE International in United States

Sector:

Automotive

Event: SAE 2012 International Powertrains, Fuels & Lubricants Meeting

Language: English

Abstract

To reduce exhaust emissions and dependency on petroleum-based fuels, various alcohols have been considered as gasoline substitutes for spark ignition engines. In the existing vehicle fleet, the use of ethanol, the most widely used alcohol, is practically limited to blends in relatively small concentrations with gasoline, due to its hygroscopicity, aggressivity, substantially lower heat content, and high latent heat. Butanol has relatively low toxicity, can be produced from biomass, and has higher energy density, lower latent heat, lower hygroscopicity and lower aggressivity than ethanol. In this study, the effects of blends of 30% and 50% of n-butanol (1-butanol) with gasoline on combustion process, engine control unit adaptation and exhaust emissions before and after a three-way catalyst were examined on a 1.2-liter, three-cylinder, four-valves-per-cylinder, naturally aspirated port-fuel-injected Skoda 1.2 HTP spark ignition engine coupled to an engine dynamometer. The adaptation of engine control unit and its effects on the fuel injection rates and air-fuel ratio, along with in-cylinder indicated pressures, exhaust gas temperatures and gaseous emissions were investigated at thirteen steady-state operating points. Where the engine maintained stoichiometric air-fuel ratio on gasoline, the engine control unit has adapted relatively successfully: stoichiometric operation was observed on both butanol blends, with lower HC both before and after catalyst, comparable CO, and slightly higher engine-out NO_x and lower or higher NO_x after the catalyst. With increasing rpm and loads, the engine control unit has retarded the spark timing to prevent excessive knock. Compared to gasoline, the duration of the early combustion stage was for butanol blends slightly shorter and the length of the main phase of combustion was generally comparable. Flame propagation was faster with higher butanol content. Where the engine employed commanded enrichment, the fueling rate was comparable among fuels, resulting in relative enleanment when operating on blends, with lower HC and CO, higher NO_x, and higher exhaust gas temperatures by up to 50°C. Maximum engine torque has decreased by up to 3%. Changes in cycle-to-cycle variability were non-uniform. The findings were generally positive, and while limited to the one engine tested, suggest some opportunity for further investigation of the use of higher content n-butanol blends as candidate fuels for existing fleets.

Also In

References

Cascone, R. 2008 Biobutanol: a replacement for bioethanol? Chem. Eng. Prog. 104 S4 S9
Patakova, P. Maxa, D. Rychtera, M. Linhova, L. Fribert, P. Muzikova, Z. Lipovsky, J. Paulova, L. Pospisil, M. Sebor, G. Melzoch, K. Perspectives of biobutanol production and use Biofuel's engineering process technology Bernandes, M.A.D.S. 978-953-307-480-1 243 266 InTech Rijeka, Croatia 2011
Jones, B. Mead, G. Steevens, P. 2008 The Effects of E20 on Plastic Automotive Fuel System Components https://www.mda.state.mn.us/news/publications/renewable/ethanol/e20onplastics.pdf March 30 2012
Bailey, B. Performance of Ethanol as a Transportation Fuel Handbook on Bioethanol: Production and Utilization Wyman, C. E. http://infohouse.p2ric.org/ref/36/35015.pdf March 30 2012
1-Butanol as a Gasoline Blending Bio-component, BP, March 28, 2007, Mobile Sources, Technical Review Subcommittee http://nsdi.epa.gov/air/caaac/mstrs/March2007/Wolf.pdf
Cairns, A. Todd, A. Aleiferis, P. Fraser, N. et al. “A Study of Alcohol Blended Fuels in an Unthrottled Single Cylinder Spark Ignition Engine,” SAE Technical Paper 2010-01-0618 2010 10.4271/2010-01-0618
Sehr, A. Thewes, M. Müther, M. Brassat, A. et al. “Analysis of the Effect of Bio-Fuels on the Combustion in a Downsized DI SI Engine,” SAE Int. J. Fuels Lubr. 5 1 274 288 2012 10.4271/2011-01-1991
Merola, S. Tornatore, C. Valentino, G. Marchitto, L. et al. “Optical Investigation of the Effect on the Combustion Process of Butanol-Gasoline Blend in a PFI SI Boosted Engine,” SAE Technical Paper 2011-24-0057 2011 10.4271/2011-24-0057
Gu, X. Huang, Z. Cai, J. Gong, J. Lee, Ch. Emission characteristics of a spark-ignition engine fuelled with gasoline-n-butanol blends in combination with EGR Fuel 2012 93 611 617
Tashiro, Y. Sonomoto, K. Advances in butanol production by clostridia Current Research, Technology and Education Topics in Applied Microbiology and Microbial Biotechnology (Microbiology Book Series, Volume 2) Vilas, Antonio Mendez 978-84-614-6195-0 Formatex Research Center Badajoz, Spain 1383 1394 2010
Baba, S. Tashiro, Y. Shinto, H. Sonomoto, K. Development of high-speed and highly efficient butanol production systems from butyric acid with high density of living cells of Clostridium saccharoperbutylacetonicum Journal of Biotechnology 157 4 605 612 2012
Jin, Ch. Yao, M. Liu, H. Lee, Ch. F. Ji, J. Renewable and Sustainable Energy Reviews 15 8 4080 4106 2011
Lin, S. Lee, W. Lee, Ch. F. Wu, Y. Reduction in emissions of nitrogen oxides, particulate matter, and polycyclic aromatic hydrocarbon by adding water-containing butanol into a diesel-fueled engine generator Fuel 93 364 372 2012
Rakopoulos, D. C. Rakopoulos, C. D. Hountalas, D. T. Kakaras, E. C. Giakoumis, E. G. Papagiannakis, R.G. Investigation of the performance and emissions of bus engine operating on butanol/diesel fuel blends Fuel 89 10 2781 2790 2010
Weiskirch, C. Kaack, M. Blei, I. Eilts, P. “Alternative Fuels for Alternative and Conventional Diesel Combustion Systems,” SAE Technical Paper 2008-01-2507 2008 10.4271/2008-01-2507
Wasil, J. Johnson, J. Singh, R. “Alternative Fuel Butanol: Preliminary Investigation on Performance and Emissions of a Marine Two-Stroke Direct Fuel Injection Engine,” SAE Int. J. Fuels Lubr. 3 2 1071 1080 2010 10.4271/2010-32-0054
Zoldy, M. Hollo, A. Thernesz, A. “Butanol as a Diesel Extender Option for Internal Combustion Engines,” SAE Technical Paper 2010-01-0481 2010 10.4271/2010-01-0481
Smith, J. Sick, V. “The Prospects of Using Alcohol-Based Fuels in Stratified-Charge Spark-Ignition Engines,” SAE Technical Paper 2007-01-4034 2007 10.4271/2007-01-4034
He, X. Ireland, J. Zigler, B. Ratcliff, M. et al. “The Impacts of Mid-level Biofuel Content in Gasoline on SIDI Engine-out and Tailpipe Particulate Matter Emissions,” SAE Technical Paper 2010-01-2125 2010 10.4271/2010-01-2125
Yang, J. Wang, Y. Feng, R. “The Performance Analysis of an Engine Fueled with Butanol-Gasoline Blend,” SAE Technical Paper 2011-01-1191 2011 10.4271/2011-01-1191
Alasfour, F. N. Butanol - a single cylinder engine study: engine performance Int. J. of Energy Research 12 21 32 1997
Alasfour, F.N. NOx emission from a spark ignition engine using 30% iso-butanol-gasoline blend: Part 1 - Preheating inlet air Appl Therm Eng 1998 18 245 56
Wallner, T. Ickes, A. Shidore, N. Impact of ethanol and butanol as oxygenates on SIDI engine efficiency and emissions using steady-state and transient test procedures DEER 2010 Detroit, Michigan September 27 30 2010
Szwaja, S. Naber, J. D. Combustion of n-butanol in a spark-ignition SI engine Fuel 89 7 1573 1582 2010
Dernotte, J Mounaim-Rousselle, C Halter, F Seers, P Evaluation of butanol-gasoline blends in a port fuel-injection, spark-ignition engine Oil Gas Sci Technol - Rev IFP 2010 65 345 51
Wigg, B. Coverdill, R. Lee, C. Kyritsis, D. “Emissions Characteristics of Neat Butanol Fuel Using a Port Fuel-Injected, Spark-Ignition Engine,” SAE Technical Paper 2011-01-0902 2011 10.4271/2011-01-0902
Wallner, T. Frazee, R. “Study of Regulated and Non-Regulated Emissions from Combustion of Gasoline, Alcohol Fuels and their Blends in a DI-SI Engine,” SAE Technical Paper 2010-01-1571 2010 10.4271/2010-01-1571
Kelly, N.A. Groblicki, P.J. Real-world emissions from a modern production vehicle driven in Los Angeles Journal of the Air & Waste Management Association 43 1993 1351 7
St. Denis, M.J. Cicero-Fernandez, P. Winer, A.M. Effects of in-use driving conditions and vehicle/engine operating parameters on ‘off-cycle’ events. Comparison with FTP conditions Journal of the Air & Waste Management Association 44 1994 31 38
Holm, T. Aspects of the mechanism of the flame ionization detector Journal of Chromatography A 842 1999 221 227

Journal Article	Water Injection to Enhance Performance and Emissions of a Turbocharged Gasoline Engine under High Load Condition
Journal Article	LPL EGR and D-EGR® Engine Concept Comparison Part 2: High Load Operation
Journal Article	High Pressure Gasoline Direct Injection in Spark Ignition Engines - Efficiency Optimization through Detailed Process Analyses

Citation
	(MAC / WIN)
	(MAC / WIN)
	(MAC / WIN)
	(MAC / WIN)

File Format:	Number of Results:
Select Fields to Export
Item Number	Content Type
Title	Author(s)
Affiliation(s)	Publisher
Publish Date	Abstract/scope
Citation	DOI

Effect of Higher Content N-Butanol Blends on Combustion, Exhaust Emissions and Catalyst Performance of an Unmodified SI Vehicle Engine

Abstract

Recommended Content

Authors

Topic

Citation

Also In

References

Cited By