The potential of di-methyl ether (DME) as an alternative fuel for compression-ignition engines: A review

Fuel - Tập 87 Số 7 - Trang 1014-1030 - 2008
C. Arcoumanis1, Choongsik Bae2, Roy J. Crookes3, Eiji Kinoshita4
1School of Engineering and Mathematical Sciences, The City University London, Northampton Square, London EC1V 0HB, United Kingdom
2Department of Mechanical Engineering, Korea Advanced Institute of Science and Technology, 373-1 Kusong-Dong, Yusong-Gu, Taejon 305-701, Republic of Korea
3Department of Engineering, Queen Mary, University of London, Mile End Road, London E1 4NS, United Kingdom
4Department of Mechanical Engineering, University of Kagoshima, 1-21-40 Korimoto, Kagoshima 890-0065, Japan

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Verbeek RP, Van Doom A, van Walwijk M. Global assessment of di-methyl ether as an automotive fuel. second ed., 96.OR.VM.029.1/RV, TNO Road-Vehicles Research Institute; 1996.

Arcoumanis, 2000, The second European Auto-Oil programme (AOLII), vol. 2

Fleisch TH, Meurer C. DME, The diesel fuel for the 21st Century? In: AVL conference engine and environment; 1995.

Verbeek R, Van der Weide J. Global assessment of di-methyl ether: comparison with other fuels. SAE Paper 971607;1997.

Kapus PE, Cartellieri WP. ULEV potential of a DI/TCI diesel passenger car engine operated on di-methyl ether. SAE Paper 952754;1995.

Basu A, Wainwright JM. DME as a power generation fuel: performance in gas turbines. In: PETROTECH-2001 conference; 2001.

Cocco, 2005, Performance evaluation of chemically recuperated gas turbine (CRGT) power plants fuelled by di-methyl-ether (DME), Energy, 31, 1446, 10.1016/j.energy.2005.05.015

Djebaı¨Li, 2001, Burning velocities of dimethyl ether and air, Combus Flame, 125, 1329, 10.1016/S0010-2180(01)00249-8

Kapus P, Ofner H. Development of fuel injection equipment and combustion system for DI diesels operated on di-methyl ether. SAE Paper 950062, SAE Trans J Fuel Lubr 1995;104(4):54–9.

Sorenson SC, Glensvig M, Abata D. Di-metyl ether in diesel fuel injection systems. SAE Paper 981159, SAE Trans J Fuel Lubr 1998;107(4):438–49.

Teng H, McCandless JC, Schneyer JB. Thermo-chemical characteristics of di-methyl ether – an alternative fuel for compression-ignition engines. SAE Paper 2001-01-0154, SAE Trans J Fuel Lubr 2001;110(4):96–106.

Edgar B, Dibble RW, Naegeli DW. Autoignition of di-methyl ether and di-methoxy methane sprays at high pressures. SAE Paper 971677, SAE Trans J Fuel Lubr 1997;106(4):625–639.

Francisco, 1999, On the competition between hydrogen abstraction versus C–O bond fission in initiating di-methyl ether combustion, Combus Flame, 177, 312, 10.1016/S0010-2180(99)00009-7

Masterton, 1997

Alex, 1994, Status and future opportunities for conversion of synthesis gas to liquid fuels, Fuel, 73, 1243, 10.1016/0016-2361(94)90301-8

Semelsberger, 2005, Dimethyl ether (DME) as an alternative fuel, J Power Sources, 156, 497, 10.1016/j.jpowsour.2005.05.082

Mii T, Uchida M. Fuel DME plant in East Asia. In: Proceedings of 15th Saudi–Japan joint symposium; 2005.

Tsuchiya T, Sato Y. Development of DME engine for heavy-duty truck. SAE Paper 2006-01-0052;2006.

Yu J, Bae C. Dimethyl ether (DME) spray characteristics compared to diesel in a common-rail fuel injection system. J Autom Eng Proc IMechE Pt D 2003;217:1135–44.

Zhao, 2005, Critical solubility of dimethyl ether (DME)+diesel fuel and dimethyl carbonate (DMC)+diesel fuel, Fuel, 84, 2380, 10.1016/j.fuel.2005.05.014

Goto S, Oguma M, Suzuki S. Research and development of a medium duty DME truck. SAE Paper 2005-01-2194;2005.

Egnell R. Comparison of heat release and NOx formation in a DI diesel engine running on DME and diesel fuel. SAE Paper 2001-01-0651, SAE Trans J Fuel Lubr 2001;110(4):492–506.

Kajitani S, Chen CL, Oguma M, Alam M, Rhee KT. Direct injection diesel engine operated with propane – DME blended fuel. SAE Paper 982536;1998.

Ofner H, Gill DW, Krotscheck C. Di-methyl ether as fuel for CI engines – a new technology and its environmental potential. SAE Paper 981158, SAE Trans J Fuel Lubr 1998;107(4):425–37.

Ikeda T, Ohmori Y, Takamura A, Sato Y, Jun L, Kamimoto T. Measurement of the rate of multiple fuel injection with diesel fuel and DME. SAE Paper 2001-01-0527, SAE Trans J Engine 2001;110(3):372–80.

McCandless JC, Teng H, Schneyer JB. Development of a liquid-DME fuel tank – a two-fluid thermodynamic pump. SAE Paper 2001-01-0652, SAE Trans J Fuel Lubr 2001;110(4):507–13.

Wakai K, Nishida K, Yoshizaki T, Hiroyasu H. Spray and ignition characteristics of di-methyl ether injected by a DI diesel injector. In: Proceedings of the fourth international symposium COMODIA’98;1998. p. 537–42.

Glensvig M. Sorenson SC, Abata DL. An investigation of the injection characteristics of di-methyl ether. ICE-vol. 29-3, ASME;1997.

Teng H, McCandless JC. Comparative study of characteristics of diesel-fuel and dimethyl-ether sprays in the engine. SAE Paper 2005-01-1723, SAE Trans J Engine 2005;114(3):1202–13.

Golovitchev VI, Nordin N, Chomiak J. Neat di-methyl ether: is it really diesel fuel of promise? SAE Paper 982537;1998.

Golovitchev VI, Nordin N, Chomiak J, Nishida N, Wakai K. Evaluation of ignition quality of DME at diesel engine conditions. In: Proceedings of the fourth international conference of internal combustion engines 99 (ICE99): experiments and modeling;1999. p. 299–306.

Zhao, 2004, Measurements of dimethyl ether/air mixture burning velocities by using particle image velocimetry, Combus Flame, 139, 52, 10.1016/j.combustflame.2004.06.009

Kajitani, 2002, A study of low-compression-ratio di-methyl ether diesel engines, Int J Engine Res, 2, 1, 10.1243/1468087021545496

Westbrook CK. Chemical kinetic modeling of oxygenated diesel fuels in advanced petroleum-based and alternative fuels. DOE Report;1999.

Ogawa H, Miyamoto N, Yagi M. Chemical-kinetic analysis on PAH formation mechanisms of oxygenated fuels. SAE Paper 2003-01-3190, SAE Trans J Fuel Lubr 2003;112(4):2413–21.

Miyamoto H, Ogawa H, Arima T, Miyakawa K. Improvement of diesel combustion and emissions with various oxygenated fuel additives. SAE Paper 962115;1996.

Curran EM, et al. Detailed chemical kinetic modeling of diesel combustion with oxygenated fuels. SAE Paper 2001-01-0653, SAE Trans J Fuel Lubr 2001;110(4):514–21.

Sidhu, 2001, Semi-volatile and particulate emissions from the combustion of alternative diesel fuel, Chemosphere, 42, 681, 10.1016/S0045-6535(00)00242-3

Kajitani S, Chen CL, Konno M. Engine performance and exhaust characteristics of direct-injection diesel engine operated with DME. SAE Paper 972973, SAE Trans J Fuel Lubr 1997;106(4):1568–77.

Longbao Z, Hewu W, Deming J, Zuohua H. Study of performance and combustion characteristics of a DME-fueled light-duty direct-injection diesel engine. SAE Paper 1999-01-3669;1999.

Cipolat D. Combustion aspects of a compression ignition engine fueled on DME. In: Proceedings of the seventh international conference on energy for a clean environment;2003. p. 156.

Konno M, Kajitani S, Oguma M, Iwasa T, Shima K. NO emission characteristics of a CI engine fueled with neat dimethyl ether. SAE Paper 1999-01-1116, SAE Trans J Fuel Lubr 1999;108(4):460–7.

Saeed A, Saeed K, Ahmed A, Malik KA. Multizones modeling of the combustion characteristics of oxygenated fuels in CI engines. SAE Paper 2006-01-0051;2006.

Teng H, McCandless JC, Schneyer JB. Compression ignition delay (physical+chemical) of di-methyl ether – an alternative fuel for compression-ignition engines. SAE Paper 2003-01-0759, SAE Trans J Fuel Lubr 2003;112(4):377–89.

Kinoshita K, Oguma M, Goto S, Sugiyama K, Mori M, Watanabe T. Effects of fuel injection conditions on driving performance of a DME diesel vehicle. SAE Paper 2003-01-3193;2003.

Teng H, McCandless JC. Can heavy-duty diesel engines fueled with DME meet US 2007/2010 emissions standard with a simplified aftertreatment system? SAE Paper 2006-01-0053;2006.

Teng H, Regner G. Fuel injection strategy for reducing NOx emissions from heavy-duty diesel engine fueled with DME. SAE Paper 2006-01-3324;2006.

Oguma M, Goto S, Hatsuzawa H, Konno M, Chen Z, Watanabe T. Chemiluminescence analysis from in-cylinder combustion of a DME-fueled DI diesel engine. SAE Paper 2003-01-3192;2003.

Crookes RJ, Bob-Manuel KDH. Di-methyl ether or rapeseed methyl ester: a preferred alternative fuel option for future diesel engine operation. In: Proceedings of the fifth international colloquium on fuels;2005. p. 181–7.

Mingfa Y, Zunquing Z, Sidu X, Maoling F. Experimental study on the combustion process of dimethyle ether (DME). SAE Paper 2003-01-3194, SAE Trans J Fuel Lubr 2003;112(4):2422–9.

Song, 2004, Performance of a controllable premixed combustion engine fueled with dimethyl ether, J. Energy Convers Manage, 45, 2223, 10.1016/j.enconman.2003.11.004

Sorenson SC, Mikkelsen S. Performance and emissions of a 0.273l direct injection diesel engine fuelled with neat dimethyl ether. SAE Paper 950064, SAE Trans J Fuel Lubr 1995;104(4):80–90.

Pana C, Negurescu N, Popa MG, Boboc G, Cernat Al. Performance of a DME fueled diesel engine. In: Proceedings of the fifth international colloquium on fuels;2005. p. 227–32.

Fleisch T, McCarthy C, Basu A, Udovich C, Charbonneau P, Slodowske W, Mikkelsen SE, McCandless JC. A new clean diesel technology: demonstration of ULEV emissions on a navistar diesel engine using a new alternative fuel. SAE Paper 950061, SAE Trans J Fuel Lubr 1995;104(4):42–53.

Oguma M, Shiotani H, Goto S, Suzuki S. Measurement of trace levels of harmful substances emitted from a DME DI diesel engine. SAE Paper 2005-01-2202;2005.

Kook S, Kong J, Min K, Bae C. Homogeneous charge compression ignition engine with two-stage diesel fuel injection. In: Proceedings of the THIESEL 2004 (thermo- and fluid dynamic processes in diesel engines);2004. p. 497–510.

Ogawa H, Miyamoto N, Kaneko N, Ando H. Combustion control and operating range expansion with direct injection of reaction suppressors in a premixed DME HCCI engine. SAE Paper 2003-01-0746;2003.

Shudo T, Kitahara S, Ogawa H. Influence of carbon dioxide on combustion in an HCCI engine with the ignition-control by hydrogen. SAE Paper 2006-01-3248;2006.

Takatsuto R, Igarashi T, Iida N. Autoignition and combustion of DME and n-butane–air mixtures in homogeneous charge compression ignition engine. In: Proceedings of the fourth international symposium COMODIA’98;1998. p. 185–90.

Sato S, Iida N. Analysis of DME homogeneous charge compression ignition combustion. SAE Paper 2003-01-1825;2003.

Kim H, Cho S, Min K. Reduced chemical kinetic model of DME for HCCI combustion. SAE Paper 2003-01-182522, SAE Trans J Fuel Lubr 2003;112(4):1180–7.

Kawahara N, Tomita E, Kagajyo H. Homogeneous charge compression ignition combustion with dimethyl ether – spectrum analysis of chemiluminescence. SAE Paper 2003-01-1828, SAE Trans J Fuel Lubr 2003;112(4):1214–21.

Yamada H, Goto Y. Analysis of reaction mechanisms controlling cool and thermal flame with DME fueled HCCI engines. SAE Paper 2006-01-3299;2006.

Chen Z, Konno M, Oguma M, Yanai T. Experimental study of CI natural-gas/DME homogeneous charge engine. SAE Paper 2000-01-0329, SAE Trans J Engine 2000;109(3):442–51.

Narioka Y, Yokoyama T, Lio S, Takagi Y. HCCI Combustion characteristics of hydrogen and hydrogen-rich natural gas reformate supported by DME supplement. SAE Paper 2006-01-0628;2006.

Crookes RJ. Biofuels performance in internal combustion engines. In: Proceedings of the fourth international colloquium on fuels;2003. p. 201–7.

Yeom, 2007, Homogeneous charge compression ignition of LPG and gasoline using variable valve timing in an engine, Fuel, 86, 494, 10.1016/j.fuel.2006.07.027

Yeom K, Bae C. Gasoline – di-methyl ether homogeneous charge compression ignition engine, energy and fuels, in press.

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Fuel

Tập 87 Số 7

1014-1030

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