This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
Experimental Investigation on Combined Performance Improvement and Emission Reduction in a MENO Fuelled CI Engine with Oxygenated and Antioxidant Additives
Technical Paper
2018-28-0020
ISSN: 0148-7191, e-ISSN: 2688-3627
This content contains downloadable datasets
Annotation ability available
Sector:
Language:
English
Abstract
Experimental investigation on simultaneous performance improvement and emission reduction of MENO (Methyl ester of neem oil) as test fuel in diesel engine with oxygenated (Diethyl ether) and antioxidant (P-phenylenediamine) additives is reported in this paper. 10% DEE blend by volume with MENO gives better performance and emissions except NO emissions based on the previous work. So the oxygenated additive DEE is blended by 10% by volume with MENO for better performance. Similarly the P200 antioxidant blend with MENO seems optimal blend to suppress the NO emissions based on the previous work. Based on this P200 antioxidant additive is further added to MENO+DEE10 blend to suppress the NO emissions. Performance, combustion and emission analysis were done in a single cylinder, four stroke, 3.5 kW diesel engine. Investigation results showed that the combined effect of oxygenated and antioxidant additive increases the performance and reduces the emissions simultaneously with MENO blend.
Recommended Content
Authors
Topic
Citation
Gnanasikamani, B., Kumar, S., and Marimuthu, C., "Experimental Investigation on Combined Performance Improvement and Emission Reduction in a MENO Fuelled CI Engine with Oxygenated and Antioxidant Additives," SAE Technical Paper 2018-28-0020, 2018, https://doi.org/10.4271/2018-28-0020.Data Sets - Support Documents
Title | Description | Download |
---|---|---|
Unnamed Dataset 1 | ||
Unnamed Dataset 2 | ||
Unnamed Dataset 3 |
Also In
References
- Aninidita Karmakar , A. , Subrata Karmakar , B. , and Mukherjee , S. Properties of Various Plants and Animals Feedstock for Biodiesel Production Bioresour. Technol. 101 7201 7210 2010
- Barnwal , B.K. and Sharma , M.P. Prospects of Biodiesel Production from Vegetable Oils in India Renew. Sustain. Energy Rev. 9 363 378 2005
- Demirbas , A. Importance of Biodiesel as T Fuel Energy Policy 35 4661 4670 2007
- Sivalakshmi , S. and Balusamy , T. Effect of Biodiesel and Its Blend with Diethyl Ether on the Combustion, Performance and Emissions from a Diesel Engine Fuel 106 106 110 2013
- Anand , R. and Mahalakshmi , N.V. Simultaneous Reduction of NO x and Smoke from a Direct-Injection Diesel Engine with Exhaust Gas Recirculation and Diethyl Ether J. Autom. Eng. 221 109 116 2007
- Imtenan , S. , Masjuki , H.H. , Varman , M. , Kalam , M.A. et al. Impact of Oxygenated Additives to Palm and Jatropha Biodiesel Blends in the Context of Performance and Emissions Characteristics of a Light-Duty Diesel Engine Energy Convers. Manag. 83 149 158 2014
- Edwin Geo , V. , Nagarajan , G. , Kamalakannan , J. , and Nagalingam , B. Experimental Investigations to Study the Characteristics of Rubber-Seed-Oil-Fueled Diesel Engine Supplemented with Diethyl Ether Energy Fuels 23 533 538 2009
- Purushothaman , K. and Nagarajan , G. Experimental Investigation on a C.I. Engine Using Orange Oil and Orange Oil with DEE Fuel 88 1732 1740 2009
- Qi , D.H. , Chen , H. , Geng , L.M. , and Bian , Y.Z. Effect of Diethyl Ether and Ethanol Additives on the Combustion and Emission Characteristics of Biodiesel-Diesel Blended Fuel Engine Renewable Energy 36 1252 1258 2011
- Demirbas , A. Progress and Recent Trends in Biodiesel Fuels Energy Convers. Manag. 50 14 34 2009
- Xuea , J. , Grift , T.E. , and Hansena , A.C. Effect of Biodiesel on Engine Performances and Emission Renew. Sustain. Energy Rev 15 1098 1116 2011
- Varatharajan , K. , Cheralathan , M. , and Velraj , R. Mitigation of NOx Emissions from a Jatropha Biodiesel Fuelled DI Diesel Engine Using Antioxidant Additives Fuel 90 2721 2725 2011
- Balaji , G. and Cheralathan , M. Experimental Investigation to Reduce Emissions of CI Engine Fuelled with Methyl Ester of Cottonseed Oil Using Antioxidant International Journal of Ambient Energy 35 13 19 2013
- Balaji , G. and Cheralathan , M. Potential of Various Sources for Biodiesel Production Energy Sources, Part A: Recovery, Utiliz., Environm. Effects 35 831 839 2013
- Ragit , S.S. , Mohapatra , S.K. , Kundu , K. , and Gill , P. Optimization of Neem Methyl Ester from Transesterification Process and Fuel Characterization as a Diesel Substitute Biomass and Bioenergy 35 1138 1144 2011
- El Kinawy , O.S. and Zaher FA Studies on Esterification Kinetics of Short Chain Alcohols with Fatty Acids to Produce Biodiesel Fuel Energy Sources, Part A: Recovery, Utiliz., Environm. Effects 34 662 670 2012
- Balaji , G. and Cheralathan , M. Experimental Reduction of NOx and HC Emissions in a CI Engine Fuelled with Methyl Ester of Neem Oil Using p-Phenylenediamine Antioxidant Journal of Scientific & Industrial Research 73 3 177 180 2014
- Varatharajan , K. and Cheralathan , M. Influence of Fuel Properties and Composition on NOx Emissions from Biodiesel Powered Diesel Engines: A Review Renew. Sustain. Energy Rev. 16 3702 3710 2012
- Balaji , G. and Cheralathan , M. Experimental Investigation of Antioxidant Effect on Oxidation Stability and Emissions in a Methyl Ester of Cotten Seed Oil Fueled DI Diesel Engine Renewable Energy 74 910 916 2015
- Balaji , G. and Cheralathan , M. Effect of CNT as Additive with Biodiesel on the Performance and Emission Characteristics of a DI Diesel Engine International Journal of Chem Tech Research 7 1230 1236 2014-2015
- Senthil , R. , Sivakumar , E. , and Silambarasan , R. Effect of Diethyl Ether on the Performance and Emission Characteristics of a Diesel Engine Using Biodiesel-Eucalyptus Oil Blends RSC Adv 65 54019 54027 2015