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Porous Medium Combustion in Diesel Engine with Biodiesel Blends - Future Low Emission Engine – A Review

Kannan Chidambaram*, P. Tamilporai**

*Senior Lecturer ,Department of Automobile Engineering ,Sri venkateswara college of Engineering ,Pennalur,SriPerumpudhur,Tamilnadu,India.

**Professor&Head ,IC Engines Division ,Department of Mechanical Engineering ,Anna University ,Chennai,Tamilnadu,India.

Periodicity:February - April'2008
DOI : https://doi.org/10.26634/jfet.3.3.646

Abstract

At present, the emissions of internal combustion engine can only be improved by catalytic treatments of the exhaust gases. However, such treatments result in high cost and relatively low conversion efficiency [1]. Out of the pollutants from diesel engines, the Nitric Oxide (NOx) emission seriously threatens the environment. The vehicle manufacturers are trying various combinations of technologies such as EGR (homogeneous & stratified), water-diesel fuel emulsion injection, charge stratification, high pressure injection, pilot injection, variable compression ratio etc. to reduce or control the NOx emission [1]. The usage of biodiesel blends in Direct Injection (DI) diesel engine shows its potential to reduce the exhaust emissions. But still, the NOx emissions from those engines are found to be higher with a subsequent reduction in thermal efficiency [2]. This necessitates a further improvement either in the combustion process or post-combustion processes of those engines fuelled with biodiesel blends. This paper suggests a new combustion technique called Porous Medium (PM) combustion, which could be used to reduce the NOx emissions with a remarkable improvement in the thermal efficiency of a diesel engine operated on biodiesel blends.

Keywords

Combustion, Porous media, biodiesel blends.

How to Cite this Article?

Kannan Chidambaram and P. Tamilporai (2008). Porous Medium Combustion in Diesel Engine with Biodiesel Blends - Future Low Emission Engine – A Review. i-manager’s Journal on Future Engineering and Technology, 3(3), 29-40. https://doi.org/10.26634/jfet.3.3.646

References

[1]. Durst, F., Weclas, M. (2001), "A new type of internal combustion engine based on the porous medium combustion technique", Proc. Instn Meeh Engrs, Vol 215 Part D, pp.63-81.

[2]. Lakshmi Narayana Rao, G., Sampath.S., Rajagopal.K (2007). "Experimental studies on the combustion and emission characteristics of a diesel engine fuelled with used cooking oil methyl ester and its blends". International Journal of Applied Science, Engineering and Technology,Vol.4, No. 2, pp.66- 70.

[3]. Bone, W.A. (1912), "Surface combustion". J.Franklin Inst. State Penn., 173 (2), pp.101 -131.

[4]. Durst, F., Weclas, M. (1999), "Direct Injection 1C engine with combustion in porous medium: a new concept for a near zero emission engine". International Congress on Engine Combustion Processes, HDT Essen, 16-17 March.

[5]. McCormick, A. Williams, J. Ireland, Brimhall, R.R. Hayes (2006), "Effects of biodiesel blends on vehicle emissions". National Renewable Energy Laboratory, Milestone Report, NREL/MP-540-40554.

[6]. Zhang, Y., Van Gerpen, J. (1996), "Combustion Analysis of Esters of Soybean Oil in a Diesel Engine", SAE Technical Paper No. 960-765.

[7]. McCormick, R., Ross, J., Graboski, M. (1997), "Effect of Several Oxygenates on Regulated Emissions from Heavy-Duty Diesel Engines", Environmental Science & Technology 31, pp. 1144-1150.

[8]. Cheng, A., Upatnieks, A., Mueller, C. (2006), "Investigation of the Impact of Biodiesel Fuelling On NOX Emissions Using an Optical Direct Injection Diesel Engine", International Journal of Engine Research Vol. 7, No. 4, pp. 297-319.

[9]. Jon Van Gerpen (1996), "Comparison of the Engine Performance and Emissions Characteristics of Vegetable Oil-Based and Animal Fat-Based Biodiesel", Iowa State University.

[10]. N. Stalin, H. J. Prabhu (2007), "Performance Test of 1C Engine using Karanja Biodiesel blending with Diesel", ARPN Journal of Engineering and Applied Sciences, Vol 2, No. 5, ISSN 1819-6608.

[11]. Miroslaw Weclas, "Potential of porous medium combustion technology as applied to internal combustion engines", Sonderdrunck Schriftenreihe der Georg-Simon-Ohm- Fachhochschule Numberg Nr.32, ISSN 1616-0762.

[12]. Miroslaw Weclas (2004), "Strategy for intelligent internal combustion engine with homogenous combustion in cylinder", Sonderdrunck Schriftenreihe der Georg- Simon-Ohm-Fachhochschule Numberg Nr.26, ISSN 1616-0762.

[13]. Deepak Agarwal, Shailendra Sinha, Avinash Kumar Agarwal (2006), "Experimental investigation of control of NOX emissions in bio-diesel fuelled compression ignition engine". Renewable Energy 31, pp. 2356-2369.

[14]. StumppG., BanzhafW., "An exhaust gas recirculation system for diesel engines", SAE paper 780222.

[15]. Abd- Alla G.1-1.(2002), "Using exhaust gas recirculation in internal combustion engines: a review". Energy Convers Manage 2002:43:1027-42.

[16]. G. L. N. Rao, S. Saravanan, S. Sampath, and K. Rajgopal (2006), "Emission characteristics of a direct injection diesel engine fuelled with bio-diesel and its blends". Proceedings of the International Conf, on Resource Utilization and Intelligent Systems, India. Allied publishers private limited, pp.353-356.

[17]. A. S. Ramadhas, S. Jayaraj, and C. Muraleedharan (2005), "Performance and emission evaluation of a diesel engine fueled with methyl esters of rubber seed oil". Renewable Energy, Vol. 30, pp. 1789-2000.

[18]. Bob McCormick (2005), "Effects of biodiesel on NOX emissions", National Renewable Energy Laboratory, Golden, Colorado, June 8.

[19], W.G. Wang, D.W.Lyons, N.N. Clark and M.Gautam (2000), "Emissions from Nine Heavy Trucks Fueled by Diesel and Biodiesel Blend without Engine Modification", Environmental ScienceTechnologyVol.34, pp.933-939.

[20]. McCormick, R., Alvarez, J., Graboski, M., Tyson, K., Vertin, K. (2002), "Fuel Additive and Blending Approaches to Reducing NOx Emissions from Biodiesel", SAE Tech. Paper No. 2002-01-1658.

[21]. United States Environmental Protection Agency (2003), "The Effect of Cetane Number Increase Due to Additives on NOX Emissions from Heavy-Duty Highway Engines", Final Technical Report, EPA420-R-03-002.

[22]. Brenner, G., Pickenacker, K., Pickenacker, O., Trimis, D., Wawrzinek, K., and Weber, T. (2000), "Numerical and experimental investigation of matrix-stabilized methane/air combustion in porous inert media". Combustion and Flame Vol. 123, pp.201 -213.

[23]. Brenner, G., Pickenacker, K., Pickenacker, O., Trimis, D., Wawrzinek, K., and Weber, T. (1999), "Stabilized combustion and heat transfer in porous inert media: an experimental and numerical study". In Proceedings of the Fifth International Conference on Technologies and combustion, Vol. 1 (Ed.T. Hsiao), pp. 525-531.

[24]. Sahraoui, M. and Kaviany, M. (1994), "Direct simulation versus volume averaged treatment of adiabatic, premixed flame in porous medium", Int. J. Heat MassTrans., Vol. 37, No.l 8, pp.2817-2834.

[25]. Dimosthenis Trimis, Franz Durst, Olaf pickenacker and Karin Pickenacker, "Porous medium combustor versus combustion system with free flames",Lehrstuhl fur Stromungsmechanik, Universitat Erlagen- Nurnberg, Germany, Cauerstr.4, D-91058 Erlangen, pp.339-345.

[26]. Macek Jan, Polasek Milos, "Porous medium combustion in engines may contribute to lower NOX emissions", Joesef Bozek Research Center, Czech Technical University in Prague, Czech Republic, Paper code: F02V147.

[27]. Macek Jan, Polasek Milos, "Simulation of porous medium combustion", Joesef Bozek Research Center, Czech Technical University in Prague, Czech Republic.

[28]. S.Afsharvahid, P.J.Ashman, B.B.Dally (2007), "Investigation of NOX conversion characteristics in a porous medium". Combustion and Flame, Vol.06, pp.1-12.

[29]. Koji Yamane, Atsushi Ueta and Yuzuru Shimamoto (2001), "Influence of Physical and Chemical Properties of Biodiesel Fuel on Injection, Combustion and Exhaust Emission Characteristics in a DI-CI Engine", The fifth International Symposium on Diagnostics and Modeling of Combustion in Internal Combustion Engines, COMODIA, pp 402-409.

[30]. Zhou X.Y., Pereira J.C.F. (1997), "Numerical Study of Combustion and Pollutants Formation in Inert Nonhomogeneous Porous Media", Combust. Sci. and Tech., Vol. 130, pp. 335-364.

Porous Medium Combustion in Diesel Engine with Biodiesel Blends - Future Low Emission Engine – A Review

Abstract

Keywords

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References

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