Review
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Year 2023, , 25 - 52, 01.07.2023
https://doi.org/10.51354/mjen.1074008

Abstract

References

  • Yoon SH, Cha JP Lee CS. An investigation of the effects of spray angle and injection strategy on dimethyl ether (DME) combustion and exhaust emission characteristics in a common-rail diesel engine. Fuel Processing Technology 2010; 91: 1364-1372.
  • Youn IM, Park SH, Roh HG, Lee CS. Investigation on the fuel spray and emission reduction characteristics for dimethyl ether (DME) fueled multi-cylinder diesel engine with common-rail injection system. Fuel Processing Technology 2011; 92: 1280-1287.
  • Alam M, Kajitani S. DME as an alternative fuel for direct injection diesel engine. 4th International Conference on Mechanical Engineering 2001; 87-92.
  • Maji S, Ahmed S, Siddiqui WA, Kumar A. Impact of di-methyl ether (DME) as an additive fuel for compression ignition engine in reduction of urban air pollution. International Journal of Innovative Research in Science, Engineering and Technology 2014; 3(11): 17221-17228.
  • Park SH, Lee CS. Applicability of dimethyl ether (DME) in a compression ignition engine as an alternative fuel. Energy Conversion and Management 2014; 86: 848-863.
  • Wattanavichien K. Implementation of DME in a small direct injection diesel engine. International Journal of Renewable Energy 2009; 4(2): 1-12.
  • Duan J, Sun Y, Yang Z, Sun Z. Combustion and emissions characteristics of diesel engine operating on composite combustion mode of DME and diesel. Proceedings of International Conference on Mechanical Engineering and Material Science 2012; 27: 463-466.
  • Kowalewicz A, Wojtyniak M. Alternative fuels and their application to combustion engines. Journal of Automobile Engineering 2005; 219: 103-125.
  • Azizi Z, Rezaeimanesh M, Tohidian T, Rahimpour MR. Dimethyl ether: A review of technologies and production challenges. Chemical Engineering and Processing 2014; 82: 150-172.
  • Huang Z, Qiao X, Zhang W, Wu J, Zhang J. Dimethyl ether as alternative fuel for CI engine and vehicle. Frontiers of Energy and Power Engineering in China 2009; 3(1): 99-108.
  • Lecksiwilai N, Gheewala SH, Sagisaka M, Yamaguchi K. Net energy ratio and life cycle greenhouse gases (GHG) assessment of bio-dimethyl ether (DME) produced from various agricultural residues in Thailand. Journal of Cleaner Production 2016; 134: 523-531.
  • Inayat A, Ghenai C, Naqvi M, Ammar M, Ayoub M, Hussin MNB. Parametric study for production of dimethyl ether (DME) as a fuel from palm wastes. Energy Procedia 2017; 105: 1242-1249.
  • Park SH, Lee CS. Combustion performance and emission reduction characteristics of automotive DME engine system,” Progress in Energy and Combustion Science 2013; 39: 147-168.
  • Teng H, McCandless JC, Jeffrey BS. Thermochemical characteristics of dimethyl ether alternative fuel for compression-ignition. Society of Automotive Engineers 2001; Paper no 2001-01-0154.
  • Maji S, Ahmed S, Siddiqui WA, Aggarwal S, Kumar A. Impact of di-methyl ether (DME) as an additive fuel for compression ignition engine in reduction of urban air pollution. American Journal of Environmental Protection 2015; 3(2): 48-52.
  • Guangxin G, Zhulin Y, Apeng Z, Shenghua L, Yanju W. Effects of fuel temperature on injection process and combustion of dimethyl ether engine. Journal of Energy Resources Technology 2013; 135: 1-5.
  • Jalanapurkar M, Patel K, Patel T, Rathod G, Granipa H. A literature review on combine effect of di-methyl ether (DME) as an additive & the injection pressure on the performance & emission of 4 stroke C.I engine. International Journal of Advance Engineering and Research Development 2015; 2(1): 262-266.
  • Kim HJ, Park SH, Lee KS, Lee CS. A study of spray strategies on improvement of engine performance and emissions reduction characteristics in a DME fueled diesel engine. Energy 2011; 36: 1802-1813.
  • Xu S, Wang Y, Zhang X, Zhen X, Tao C. Development of a novel common-rail type dimethyl ether (DME) injector. Applied Energy 2012; 94: 1-12.
  • Lim OT, Iida N. A study on the spray and engine combustion characteristics of diesel-dimethyl ether fuel blends. Journal of Automobile Engineering 2015; 229(6): 782-792.
  • Suh HK, Lee CS. Experimental and analytical study on the spray characteristics of dimethyl ether (DME) and diesel fuels within a common-rail injection system in a diesel engine. Fuel 2008; 87: 925-932.
  • Genbao L, Jianming C, Minglong L, Yuhua Q, Zhaoyang C. Experimental study on the size distribution characteristics of spray droplets of DME/diesel blended fuels. Fuel Processing Technology 2012; 104: 352-355.
  • Mohan B, Yang W, Yu W, Tay KL. Numerical analysis of spray characteristics of dimethyl ether and diethyl ether fuel. Applied Energy 2017; 185: 1403-1410.
  • El-Hagar MME-G. Effect of diethyl ether and dimethyl ether with liquefied petroleum gas on combustion and emissions characteristics of diesel engine. International Journal of Computer Science and Engineering 2014; 2(3): 193-198.
  • Wang Y, Xiao F, Zhao Y, Li D, Lei X. Study on cycle-by-cycle variations in a diesel engine with dimethyl ether as port premixing fuel. Applied Energy 2015; 143: 58-70.
  • Jeon J, Kwon S, Park YH, Oh Y, Park S. Visualizations of combustion and fuel/air mixture formation processes in a single cylinder engine fueled with DME. Applied Energy 2014; 113: 294-301.
  • Baskaran R. Analysis on synthesis, storage & combustion characteristics of DME as fuel in CI engines. International Journal for Research in Applied Science & Engineering Technology 2015; 3(1): 133-140.
  • Park S. Optimization of combustion chamber geometry and engine operating conditions for compression ignition engines fueled with dimethyl ether. Fuel 2012; 97: 61-71.
  • Benajes J, Novella R, Pastor JM, Hernández-López A, Kokjohn SL. Computational optimization of the combustion system of a heavy duty direct injection diesel engine operating with dimethyl-ether. Fuel 2018; 218: 127-139.
  • Oda Y, Osafune Y, Ueda H, Fujimura K. Clean combustion technology in diesel engines operated with dimethyl ether. Mitsubishi Heavy Industries Ltd. Technical Review 2004; 40(6): 1-5.
  • Song J, Huang Z, Qiao X, Wang W. Performance of a controllable premixed combustion engine fueled with dimethyl ether. Energy Conversion and Management 2004; 45: 2223-2232.
  • Khunaphan S, Hartley UW, Theinnoi K. Characterization and potential of dimethyl ether (DME) as dual fuel combustion in a compression ignition engine. International Journal of Engineering Science and Innovative Technology 2013; 2(3): 79-85.
  • Lamani VT, Yadav AK, Narayanappa KG. Influence of low-temperature combustion and dimethyl ether-diesel blends on performance, combustion, and emission characteristics of common rail diesel engine: a CFD study. Environmental Science and Pollution Research 2017; 24: 15500-15509.
  • Chapman EM, Boehman AL. Pilot ignited premixed combustion of dimethyl ether in a turbodiesel engine. Fuel Processing Technology 2008; 89: 1262-1271.
  • Ying W, Longbao Z, Zhongji Y, Hongyi D. Study on combustion and emission characteristics of a vehicle engine fuelled dimethyl ether. Journal of Automotive Engineering 2005; 219: 263-269.
  • Benajes J, Novella R, Pastor JM, Hernández-López A, Kokjohn S. Computational optimization of a combustion system for a stoichiometric DME fueled compression ignition engine. Fuel 2018; 223: 20-31.
  • Kropiwnicki J, Dominiczak P, Kneba Z. Analysis of the possibilities of using of DME fuel in motor boat drive systems. Combustion Engines 2017; 171(4): 74-80.
  • Smolec R, Idzior M, Karpiuk W, Kozak M. Assessment of the potential of dimethyl ether as an alternative fuel for compression ignition engines. Combustion Engines 2017; 169(2): 181-186.
  • Namasivayam AM, Korakianitis T, Crookes RJ, Bob-Manuel KDH, Olsen J. Biodiesel, emulsified biodiesel and dimethyl ether as pilot fuels for natural gas fuelled engines. Applied Energy 2010; 87: 769-778.
  • Jang J, Bae C. Effects of valve events on the engine efficiency in a homogeneous charge compression ignition engine fueled by dimethyl ether. Fuel 2009; 88: 1228-1234.
  • Ryu K, Zacharakis-Jutz GE, Kong S-C. Performance characteristics of compression- ignition engine using high concentration of ammonia mixed with dimethyl ether. Applied Energy 2014; 113: 488-499.
  • Semelsberger TA, Borup RL, Grene HL. Dimethyl ether (DME) as an alternative fuel. Journal of Power Sources 2006; 156: 497-511.
  • Li G. Dimethyl ether (DME): a new alternative fuel for diesel vehicle. Advanced Materials Research 2011; 156-157: 1014-1018.
  • Sezer I. Thermodynamic, performance and emission investigation of a diesel engine running on dimethyl ether and diethyl ether. International Journal of Thermal Sciences 2011; 50: 1594-1603.
  • Wang Y, Zhao Y, Yang Z. Dimethyl ether energy ratio effects in a dimethyl ether-diesel dual fuel premixed charge compression ignition engine. Applied Thermal Engineering 2013; 54: 481-487.
  • Ying W, Li H, Longbao Z, Wei L. Effects of DME pilot quantity on the performance of a DME PCCI-DI engine. Energy Conversion and Management 2010; 51: 648-654.
  • Chen Z, Konno M, Kajitani S. Performance and emissions of DI compression ignition engines fueled with dimethyl ether. JSME International Journal 2000; 43(1): 82-88.
  • Arcoumanis C, Bae C, Crookes R, Kinoshita E. The potential of di-methyl ether (DME) as an alternative fuel for compression-ignition engines: A review. Fuel 2008; 87(7): 1014-1030.
  • Taghavifar H, Khalilarya S, Mirhasani S, Jafarmadar S. Numerical energetic and exergetic analysis of CI diesel engine performance for different fuels of hydrogen, dimethyl ether, and diesel under various engine speeds. International Journal of Hydrogen Energy 2014; 39: 9515-9526.
  • Patil KR, Thipse SS. A comparative study of performance and exhaust emissions of CI engine fuelled by neat DME and DME/DEE-diesel blends. Proceedings of International Conference on Advances in Mechanical Engineering 2013; 1-8.
  • Vispute KM, Pawar TJ. Study and prospects of di-methyl ether as an alternative fuel in C.I. engine: review. International Journal of Trend in Research and Development 2016; 3(4): 134-138.
  • Theinnoi K, Suksompong P, Temwutthikun W. Engine performance of dual fuel operation with in-cylinder injected diesel fuels and in-port injected DME. Energy Procedia 2017; 142: 461-467.
  • Deepak KM, Karthick M, Dineshbabu D, Srikanth P, Ramachandran MG. Investigation on the effect of dimethyl ether in compression ignition engine. International Journal of Innovative Research in Science, Engineering and Technology 2015; 4(2): 401-407.
  • Kajitani S. A study of low compression ratio diesel engines operated with neat dimethyl ether (DME). JSME TED Newsletter 2004; 42: 1-14.
  • Hewu W, Longbao Z. Performance of a direct injection diesel engine fuelled with a dimethyl ether/diesel blend. Journal of Automobile Engineering 2003; 217(9): 819-824.
  • Prabhakaran B, Thennarasu P, Karthick S. Performance and characteristics of a CI engine using DME (Dimethyl Ether). International Journal of Innovative Research in Science, Engineering and Technology 2015; 4(2): 31-34.
  • Kajitani S, Chen Z. Fundamental research on next generation fuel (dimethyl ether) engines. Journal of Scientific & Industrial Research 2003; 62: 133-144.
  • Abhishek, Rahul K, Santosh K, Martha O. Blending impacts of biogas and dimethyl ether (DME) on compressed ignition engine. International Research Journal of Engineering and Technology 2017; 4(4): 2174-2177.
  • Loganathan M, Anbarasu A, Velmurugan A. Emission characteristics of jatropha-ethanol and jatropha- dimethyl ether fuel blends on a DI diesel engine. Journal of Mechanical Engineering 2012; 42(1): 38-46.
  • Kim HJ, Park SH. Optimization study on exhaust emissions and fuel consumption in a dimethyl ether (DME) fueled diesel engine. Fuel 2016; 182: 541-549.
  • Park SH, Shin D, Park J. Effect of ethanol fraction on the combustion and emission characteristics of a dimethyl ether-ethanol dual-fuel reactivity controlled compression ignition engine. Applied Energy 2016; 182: 243-252.
  • Geng P, Cao E, Tan Q, Wie L. Effects of alternative fuels on the combustion characteristics and emission products from diesel engines: A review. Renewable and Sustainable Energy Reviews 2017; 71: 523-534.
  • Loganathan M, Anbarasu A, Velmurugan A. Emission characteristics of jatropha-dimethyl ether fuel blends on a DI diesel engine. International Journal of Scientific & Technology Research 2012; 1(8): 28-32.
  • Zhao Y, Wang Y, Li D, Lei X, Liu S. Combustion and emission characteristics of a DME (dimethyl ether)-diesel dual fuel premixed charge compression ignition engine with EGR (exhaust gas recirculation). Energy 2014; 72: 608-617.
  • Hou J, Wen Z, Jiang Z, Qiao X. Study on combustion and emissions of a turbocharged compression ignition engine fueled with dimethyl ether and biodiesel blends. Journal of the Energy Institute 2014; 87: 102-113.
  • Ying W, Longbao Z, Hewu W. Diesel emission improvements by the use of oxygenated DME/diesel blend fuels. Atmospheric Environment 2006; 40: 2313-2320.
  • Xinling L, Zhen H. Emission reduction potential of using gas-to-liquid and dimethyl ether fuels on a turbocharged diesel engine. Science of the Total Environment 2009; 407: 2234-2244.
  • Kim HJ, Park SH. Optimization study on exhaust emissions and fuel consumption in a dimethyl ether (DME) fueled diesel engine. Fuel 2016; 182: 541-549.
  • Park SH, Shin D, Park J. Effect of ethanol fraction on the combustion and emission characteristics of a dimethyl ether-ethanol dual-fuel reactivity controlled compression ignition engine. Applied Energy 2016; 182: 243-252.
  • Yanju W, Kun W, Wenrui W, Shenghua L, Xiao C, Yajing Y, Shanwen B. Comparison study on the emission characteristics of diesel- and dimethyl ether-originated particulate matters. Applied Energy 2014; 130, 357-369.
  • Wang Y, Zhao Y, Xiao F, Li D. Combustion and emission characteristics of a diesel engine with DME as port premixing fuel under different injection timing. Energy Conversion and Management 2014; 77: 52-60.
  • Park SH, Kim HJ, Lee CS. Effects of dimethyl-ether (DME) spray behavior in the cylinder on the combustion and exhaust emissions characteristics of a high speed diesel engine. Fuel Processing Technology 2010; 91: 504-513.
  • Thomas G, Feng B, Veeraragavan A, Cleary MJ, Drinnan N. Emissions from DME combustion in diesel engines and their implications on meeting future emission norms: A review. Fuel Processing Technology 2014; 119: 286-304.
  • Yoon SH, Han SC, Lee CS. Effects of high EGR rate on dimethyl ether (DME) combustion and pollutant emission characteristics in a direct injection diesel engine. Energies 2013; 6: 5157-5167.
  • Roh HG, Lee D, Lee CS. Impact of DME-biodiesel, diesel-biodiesel and diesel fuels on the combustion and emission reduction characteristics of a CI engine according to pilot and single injection strategies. Journal of the Energy Institute 2015; 88: 376-385.
  • Zhu Z, Li DK, Liu J, Wei YJ, Liu SH. Investigation on the regulated and unregulated emissions of a DME engine under different injection timing. Applied Thermal Engineering 2012; 35: 9-14.
  • Park SH, Yoon SH, Cha J, Lee CS. Mixing effects of biogas and dimethyl ether (DME) on combustion and emission characteristics of DME fueled high-speed diesel engine. Energy 2014; 66: 413-422.
  • Bogdan J, Nicolae B, Călin I, Vlad BN. Study of emissions for a compression ignition engine fueled with a mix of DME and diesel. Materials Science and Engineering 2017; 252: 1-9.
  • Kim HJ, Park SW, Lee CS. Numerical and experimental study on the combustion and emission characteristics of a dimethyl ether (DME) fueled compression ignition engine. Oil & Gas Science and Technology 2012; 67(3): 479-489.
  • Wang HW, Zhou LB, Jiang DM, Huang ZH. Study on the performance and emissions of a compression ignition engine fuelled with dimethyl ether. Journal of Automotive Engineering 2000; 214: 101-106.

A review study on the use of dimethyl ether in diesel engines: effects on CO2 emissions

Year 2023, , 25 - 52, 01.07.2023
https://doi.org/10.51354/mjen.1074008

Abstract

Emissions from vehicles and other fuel combustion systems can alter the composition of the atmosphere and augment its capacity to absorb heat. These gases, which are effective at trapping heat, are known as greenhouse gases and include all gases found in vehicle emissions. Reducing the emissions of carbon dioxide (CO2) has become an urgent necessity around the world, and many countries have imposed limits on their CO2 output. Using biofuels in automotive engines is an effective way of reducing greenhouse gas emissions. The CO2 emissions emitted from the combustion of biofuels are absorbed as trees and plants grow. Biofuels can be used either as pure fuels or blended with conventional fuels. Most research has declared that the most effective way to reduce greenhouse emissions is the use of various biofuels. Therefore, it is essential to assess the outcomes of research regarding alternate fuels or fuel additives to determine their proper utilization. Using of diesel engines can also help reduce CO2 emissions as they emit less CO2 emissions than gasoline engines. This review study investigates the effects the using of dimethyl ether on CO2 emissions in diesel engines. The results showed that CO2 emissions decrease when using the pure DME and DME blends with diesel and LPG fuels due to the oxygen content and the lower carbon to hydrogen ratio of DME. The decrements in CO2 emissions for pure DME, diesel–DME blends and LPG–DME blend are about 5.2–18.3%, 3–41.6% and 10.6–16.4%, respectively.

References

  • Yoon SH, Cha JP Lee CS. An investigation of the effects of spray angle and injection strategy on dimethyl ether (DME) combustion and exhaust emission characteristics in a common-rail diesel engine. Fuel Processing Technology 2010; 91: 1364-1372.
  • Youn IM, Park SH, Roh HG, Lee CS. Investigation on the fuel spray and emission reduction characteristics for dimethyl ether (DME) fueled multi-cylinder diesel engine with common-rail injection system. Fuel Processing Technology 2011; 92: 1280-1287.
  • Alam M, Kajitani S. DME as an alternative fuel for direct injection diesel engine. 4th International Conference on Mechanical Engineering 2001; 87-92.
  • Maji S, Ahmed S, Siddiqui WA, Kumar A. Impact of di-methyl ether (DME) as an additive fuel for compression ignition engine in reduction of urban air pollution. International Journal of Innovative Research in Science, Engineering and Technology 2014; 3(11): 17221-17228.
  • Park SH, Lee CS. Applicability of dimethyl ether (DME) in a compression ignition engine as an alternative fuel. Energy Conversion and Management 2014; 86: 848-863.
  • Wattanavichien K. Implementation of DME in a small direct injection diesel engine. International Journal of Renewable Energy 2009; 4(2): 1-12.
  • Duan J, Sun Y, Yang Z, Sun Z. Combustion and emissions characteristics of diesel engine operating on composite combustion mode of DME and diesel. Proceedings of International Conference on Mechanical Engineering and Material Science 2012; 27: 463-466.
  • Kowalewicz A, Wojtyniak M. Alternative fuels and their application to combustion engines. Journal of Automobile Engineering 2005; 219: 103-125.
  • Azizi Z, Rezaeimanesh M, Tohidian T, Rahimpour MR. Dimethyl ether: A review of technologies and production challenges. Chemical Engineering and Processing 2014; 82: 150-172.
  • Huang Z, Qiao X, Zhang W, Wu J, Zhang J. Dimethyl ether as alternative fuel for CI engine and vehicle. Frontiers of Energy and Power Engineering in China 2009; 3(1): 99-108.
  • Lecksiwilai N, Gheewala SH, Sagisaka M, Yamaguchi K. Net energy ratio and life cycle greenhouse gases (GHG) assessment of bio-dimethyl ether (DME) produced from various agricultural residues in Thailand. Journal of Cleaner Production 2016; 134: 523-531.
  • Inayat A, Ghenai C, Naqvi M, Ammar M, Ayoub M, Hussin MNB. Parametric study for production of dimethyl ether (DME) as a fuel from palm wastes. Energy Procedia 2017; 105: 1242-1249.
  • Park SH, Lee CS. Combustion performance and emission reduction characteristics of automotive DME engine system,” Progress in Energy and Combustion Science 2013; 39: 147-168.
  • Teng H, McCandless JC, Jeffrey BS. Thermochemical characteristics of dimethyl ether alternative fuel for compression-ignition. Society of Automotive Engineers 2001; Paper no 2001-01-0154.
  • Maji S, Ahmed S, Siddiqui WA, Aggarwal S, Kumar A. Impact of di-methyl ether (DME) as an additive fuel for compression ignition engine in reduction of urban air pollution. American Journal of Environmental Protection 2015; 3(2): 48-52.
  • Guangxin G, Zhulin Y, Apeng Z, Shenghua L, Yanju W. Effects of fuel temperature on injection process and combustion of dimethyl ether engine. Journal of Energy Resources Technology 2013; 135: 1-5.
  • Jalanapurkar M, Patel K, Patel T, Rathod G, Granipa H. A literature review on combine effect of di-methyl ether (DME) as an additive & the injection pressure on the performance & emission of 4 stroke C.I engine. International Journal of Advance Engineering and Research Development 2015; 2(1): 262-266.
  • Kim HJ, Park SH, Lee KS, Lee CS. A study of spray strategies on improvement of engine performance and emissions reduction characteristics in a DME fueled diesel engine. Energy 2011; 36: 1802-1813.
  • Xu S, Wang Y, Zhang X, Zhen X, Tao C. Development of a novel common-rail type dimethyl ether (DME) injector. Applied Energy 2012; 94: 1-12.
  • Lim OT, Iida N. A study on the spray and engine combustion characteristics of diesel-dimethyl ether fuel blends. Journal of Automobile Engineering 2015; 229(6): 782-792.
  • Suh HK, Lee CS. Experimental and analytical study on the spray characteristics of dimethyl ether (DME) and diesel fuels within a common-rail injection system in a diesel engine. Fuel 2008; 87: 925-932.
  • Genbao L, Jianming C, Minglong L, Yuhua Q, Zhaoyang C. Experimental study on the size distribution characteristics of spray droplets of DME/diesel blended fuels. Fuel Processing Technology 2012; 104: 352-355.
  • Mohan B, Yang W, Yu W, Tay KL. Numerical analysis of spray characteristics of dimethyl ether and diethyl ether fuel. Applied Energy 2017; 185: 1403-1410.
  • El-Hagar MME-G. Effect of diethyl ether and dimethyl ether with liquefied petroleum gas on combustion and emissions characteristics of diesel engine. International Journal of Computer Science and Engineering 2014; 2(3): 193-198.
  • Wang Y, Xiao F, Zhao Y, Li D, Lei X. Study on cycle-by-cycle variations in a diesel engine with dimethyl ether as port premixing fuel. Applied Energy 2015; 143: 58-70.
  • Jeon J, Kwon S, Park YH, Oh Y, Park S. Visualizations of combustion and fuel/air mixture formation processes in a single cylinder engine fueled with DME. Applied Energy 2014; 113: 294-301.
  • Baskaran R. Analysis on synthesis, storage & combustion characteristics of DME as fuel in CI engines. International Journal for Research in Applied Science & Engineering Technology 2015; 3(1): 133-140.
  • Park S. Optimization of combustion chamber geometry and engine operating conditions for compression ignition engines fueled with dimethyl ether. Fuel 2012; 97: 61-71.
  • Benajes J, Novella R, Pastor JM, Hernández-López A, Kokjohn SL. Computational optimization of the combustion system of a heavy duty direct injection diesel engine operating with dimethyl-ether. Fuel 2018; 218: 127-139.
  • Oda Y, Osafune Y, Ueda H, Fujimura K. Clean combustion technology in diesel engines operated with dimethyl ether. Mitsubishi Heavy Industries Ltd. Technical Review 2004; 40(6): 1-5.
  • Song J, Huang Z, Qiao X, Wang W. Performance of a controllable premixed combustion engine fueled with dimethyl ether. Energy Conversion and Management 2004; 45: 2223-2232.
  • Khunaphan S, Hartley UW, Theinnoi K. Characterization and potential of dimethyl ether (DME) as dual fuel combustion in a compression ignition engine. International Journal of Engineering Science and Innovative Technology 2013; 2(3): 79-85.
  • Lamani VT, Yadav AK, Narayanappa KG. Influence of low-temperature combustion and dimethyl ether-diesel blends on performance, combustion, and emission characteristics of common rail diesel engine: a CFD study. Environmental Science and Pollution Research 2017; 24: 15500-15509.
  • Chapman EM, Boehman AL. Pilot ignited premixed combustion of dimethyl ether in a turbodiesel engine. Fuel Processing Technology 2008; 89: 1262-1271.
  • Ying W, Longbao Z, Zhongji Y, Hongyi D. Study on combustion and emission characteristics of a vehicle engine fuelled dimethyl ether. Journal of Automotive Engineering 2005; 219: 263-269.
  • Benajes J, Novella R, Pastor JM, Hernández-López A, Kokjohn S. Computational optimization of a combustion system for a stoichiometric DME fueled compression ignition engine. Fuel 2018; 223: 20-31.
  • Kropiwnicki J, Dominiczak P, Kneba Z. Analysis of the possibilities of using of DME fuel in motor boat drive systems. Combustion Engines 2017; 171(4): 74-80.
  • Smolec R, Idzior M, Karpiuk W, Kozak M. Assessment of the potential of dimethyl ether as an alternative fuel for compression ignition engines. Combustion Engines 2017; 169(2): 181-186.
  • Namasivayam AM, Korakianitis T, Crookes RJ, Bob-Manuel KDH, Olsen J. Biodiesel, emulsified biodiesel and dimethyl ether as pilot fuels for natural gas fuelled engines. Applied Energy 2010; 87: 769-778.
  • Jang J, Bae C. Effects of valve events on the engine efficiency in a homogeneous charge compression ignition engine fueled by dimethyl ether. Fuel 2009; 88: 1228-1234.
  • Ryu K, Zacharakis-Jutz GE, Kong S-C. Performance characteristics of compression- ignition engine using high concentration of ammonia mixed with dimethyl ether. Applied Energy 2014; 113: 488-499.
  • Semelsberger TA, Borup RL, Grene HL. Dimethyl ether (DME) as an alternative fuel. Journal of Power Sources 2006; 156: 497-511.
  • Li G. Dimethyl ether (DME): a new alternative fuel for diesel vehicle. Advanced Materials Research 2011; 156-157: 1014-1018.
  • Sezer I. Thermodynamic, performance and emission investigation of a diesel engine running on dimethyl ether and diethyl ether. International Journal of Thermal Sciences 2011; 50: 1594-1603.
  • Wang Y, Zhao Y, Yang Z. Dimethyl ether energy ratio effects in a dimethyl ether-diesel dual fuel premixed charge compression ignition engine. Applied Thermal Engineering 2013; 54: 481-487.
  • Ying W, Li H, Longbao Z, Wei L. Effects of DME pilot quantity on the performance of a DME PCCI-DI engine. Energy Conversion and Management 2010; 51: 648-654.
  • Chen Z, Konno M, Kajitani S. Performance and emissions of DI compression ignition engines fueled with dimethyl ether. JSME International Journal 2000; 43(1): 82-88.
  • Arcoumanis C, Bae C, Crookes R, Kinoshita E. The potential of di-methyl ether (DME) as an alternative fuel for compression-ignition engines: A review. Fuel 2008; 87(7): 1014-1030.
  • Taghavifar H, Khalilarya S, Mirhasani S, Jafarmadar S. Numerical energetic and exergetic analysis of CI diesel engine performance for different fuels of hydrogen, dimethyl ether, and diesel under various engine speeds. International Journal of Hydrogen Energy 2014; 39: 9515-9526.
  • Patil KR, Thipse SS. A comparative study of performance and exhaust emissions of CI engine fuelled by neat DME and DME/DEE-diesel blends. Proceedings of International Conference on Advances in Mechanical Engineering 2013; 1-8.
  • Vispute KM, Pawar TJ. Study and prospects of di-methyl ether as an alternative fuel in C.I. engine: review. International Journal of Trend in Research and Development 2016; 3(4): 134-138.
  • Theinnoi K, Suksompong P, Temwutthikun W. Engine performance of dual fuel operation with in-cylinder injected diesel fuels and in-port injected DME. Energy Procedia 2017; 142: 461-467.
  • Deepak KM, Karthick M, Dineshbabu D, Srikanth P, Ramachandran MG. Investigation on the effect of dimethyl ether in compression ignition engine. International Journal of Innovative Research in Science, Engineering and Technology 2015; 4(2): 401-407.
  • Kajitani S. A study of low compression ratio diesel engines operated with neat dimethyl ether (DME). JSME TED Newsletter 2004; 42: 1-14.
  • Hewu W, Longbao Z. Performance of a direct injection diesel engine fuelled with a dimethyl ether/diesel blend. Journal of Automobile Engineering 2003; 217(9): 819-824.
  • Prabhakaran B, Thennarasu P, Karthick S. Performance and characteristics of a CI engine using DME (Dimethyl Ether). International Journal of Innovative Research in Science, Engineering and Technology 2015; 4(2): 31-34.
  • Kajitani S, Chen Z. Fundamental research on next generation fuel (dimethyl ether) engines. Journal of Scientific & Industrial Research 2003; 62: 133-144.
  • Abhishek, Rahul K, Santosh K, Martha O. Blending impacts of biogas and dimethyl ether (DME) on compressed ignition engine. International Research Journal of Engineering and Technology 2017; 4(4): 2174-2177.
  • Loganathan M, Anbarasu A, Velmurugan A. Emission characteristics of jatropha-ethanol and jatropha- dimethyl ether fuel blends on a DI diesel engine. Journal of Mechanical Engineering 2012; 42(1): 38-46.
  • Kim HJ, Park SH. Optimization study on exhaust emissions and fuel consumption in a dimethyl ether (DME) fueled diesel engine. Fuel 2016; 182: 541-549.
  • Park SH, Shin D, Park J. Effect of ethanol fraction on the combustion and emission characteristics of a dimethyl ether-ethanol dual-fuel reactivity controlled compression ignition engine. Applied Energy 2016; 182: 243-252.
  • Geng P, Cao E, Tan Q, Wie L. Effects of alternative fuels on the combustion characteristics and emission products from diesel engines: A review. Renewable and Sustainable Energy Reviews 2017; 71: 523-534.
  • Loganathan M, Anbarasu A, Velmurugan A. Emission characteristics of jatropha-dimethyl ether fuel blends on a DI diesel engine. International Journal of Scientific & Technology Research 2012; 1(8): 28-32.
  • Zhao Y, Wang Y, Li D, Lei X, Liu S. Combustion and emission characteristics of a DME (dimethyl ether)-diesel dual fuel premixed charge compression ignition engine with EGR (exhaust gas recirculation). Energy 2014; 72: 608-617.
  • Hou J, Wen Z, Jiang Z, Qiao X. Study on combustion and emissions of a turbocharged compression ignition engine fueled with dimethyl ether and biodiesel blends. Journal of the Energy Institute 2014; 87: 102-113.
  • Ying W, Longbao Z, Hewu W. Diesel emission improvements by the use of oxygenated DME/diesel blend fuels. Atmospheric Environment 2006; 40: 2313-2320.
  • Xinling L, Zhen H. Emission reduction potential of using gas-to-liquid and dimethyl ether fuels on a turbocharged diesel engine. Science of the Total Environment 2009; 407: 2234-2244.
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There are 80 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Review Article
Authors

İsmet Sezer 0000-0001-7342-9172

Early Pub Date June 23, 2023
Publication Date July 1, 2023
Published in Issue Year 2023

Cite

APA Sezer, İ. (2023). A review study on the use of dimethyl ether in diesel engines: effects on CO2 emissions. MANAS Journal of Engineering, 11(1), 25-52. https://doi.org/10.51354/mjen.1074008
AMA Sezer İ. A review study on the use of dimethyl ether in diesel engines: effects on CO2 emissions. MJEN. July 2023;11(1):25-52. doi:10.51354/mjen.1074008
Chicago Sezer, İsmet. “A Review Study on the Use of Dimethyl Ether in Diesel Engines: Effects on CO2 Emissions”. MANAS Journal of Engineering 11, no. 1 (July 2023): 25-52. https://doi.org/10.51354/mjen.1074008.
EndNote Sezer İ (July 1, 2023) A review study on the use of dimethyl ether in diesel engines: effects on CO2 emissions. MANAS Journal of Engineering 11 1 25–52.
IEEE İ. Sezer, “A review study on the use of dimethyl ether in diesel engines: effects on CO2 emissions”, MJEN, vol. 11, no. 1, pp. 25–52, 2023, doi: 10.51354/mjen.1074008.
ISNAD Sezer, İsmet. “A Review Study on the Use of Dimethyl Ether in Diesel Engines: Effects on CO2 Emissions”. MANAS Journal of Engineering 11/1 (July 2023), 25-52. https://doi.org/10.51354/mjen.1074008.
JAMA Sezer İ. A review study on the use of dimethyl ether in diesel engines: effects on CO2 emissions. MJEN. 2023;11:25–52.
MLA Sezer, İsmet. “A Review Study on the Use of Dimethyl Ether in Diesel Engines: Effects on CO2 Emissions”. MANAS Journal of Engineering, vol. 11, no. 1, 2023, pp. 25-52, doi:10.51354/mjen.1074008.
Vancouver Sezer İ. A review study on the use of dimethyl ether in diesel engines: effects on CO2 emissions. MJEN. 2023;11(1):25-52.

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