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Energy Sources, Part A: Recovery, Utilization, and Environmental Effects Volume 42, 2020 - Issue 16
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Articles

Prediction and optimization of engine characteristics of a DI diesel engine fueled with cyclohexanol/diesel blends

Kaliyaperumal GopalDepartment of Mechanical Engineering, Jeppiaar Engineering College, Chennai, Tamil Nadu, India;Department of Mechanical Engineering, Annamalai University, Chidambaram, Tamil Nadu, India
,
A.P. SathiyagnanamDepartment of Mechanical Engineering, Annamalai University, Chidambaram, Tamil Nadu, India
,
B. Rajesh KumarDepartment of Mechanical Engineering, Sri Venkateswara College of Engineering, Chennai, Tamil Nadu, India;Department of Industrial Technology, Jordan College of Agricultural Sciences and Technology, California State University, Fresno, California, USACorrespondence[email protected]
,
D. DamodharanDepartment of Mechanical Engineering, Jeppiaar Engineering College, Chennai, Tamil Nadu, India
,
Melvin Victor De PouresDepartment of Mechanical Engineering, Jeppiaar Engineering College, Chennai, Tamil Nadu, India
,
S. SaravananDepartment of Mechanical Engineering, Sri Venkateswara College of Engineering, Chennai, Tamil Nadu, India
,
D. RanaDepartment of Chemical and Biological Engineering, University of Ottawa, Ottawa, Ontario, Canada
&
Balaji SethuramasamyrajaDepartment of Industrial Technology, Jordan College of Agricultural Sciences and Technology, California State University, Fresno, California, USA
 show all
Pages 2006-2017 | Received 24 Jul 2018, Accepted 04 Apr 2019, Published online: 30 Apr 2019

References

  • Abas, N., A. Kalair, and N. Khan. 2015. Review of fossil fuels and future energy technologies. Futures 69:31–49. doi:10.1016/j.futures.2015.03.003.
  • Atmanlı, A., B. Yüksel, E. Ileri, and A. D. Karaoglan. 2015. Response surface methodology based optimization of diesel–N-butanol–Cotton oil ternary blend ratios to improve engine performance and exhaust emission characteristics. Energy Conversion and Management 90:383–94. doi:10.1016/j.enconman.2014.11.029.
  • Baukal, C. 2005. Everything you need to know about NOx. Metal Finishing 103:18–24. doi:10.1016/S0026-0576(05)80816-5.
  • Benbrahim-Tallaa, L., R. A. Baan, Y. Grosse, B. Lauby-Secretan, F. El Ghissassi, V. Bouvard, N. Guha, D. Loomis, and K. Straif. 2012. Carcinogenicity of diesel-engine and gasoline-engine exhausts and some nitroarenes. Lancet Oncology 13:663–64. doi:10.1016/S1470-2045(12)70140-7.
  • Boot, M., P. Frijters, C. Luijten, B. Somers, R. Baert, A. Donkerbroek, R. J. H. Klein-Douwel, and N. Dam. 2009. Cyclic oxygenates: A new class of second-generation biofuels for diesel engines? Energy & Fuels 23:1808–17. doi:10.1021/ef8003637.
  • Boot, M. D., P. J. M. Frijters, R. J. H. Klein-Douwel, and R. S. G. Baert. 2007. Oxygenated Fuel Composition Impact on Heavy-Duty Diesel Engine Emissions. SAE Technical Paper Series No. 2007-01-2018. doi:10.4271/2007-01-2018.
  • Calderon-Garciduenas, L., W. Reed, and R. R. Maronpot. 2004. Brain inflammation and Alzheimer‘s-like pathology in individuals exposed to severe air pollution. Toxicology and Pathology 32:650–58. doi:10.1080/01926230490520232.
  • Chock, D. P., A. M. Dunker, S. Kumar, and C. S. Sloane. 1981. Effect of nitrogen oxides (NOx) emission rates on smog formation in the California South Coast Air Basin. Environmental Science and Technology 15:933–39. doi:10.1021/es00090a009.
  • Choudhary, S. 2016. India‘s dependence on crude oil imports on rise as consumption increases. Economic times. Accessed July 24, 2018. http://economictimes.indiatimes.com/industry/energy/oil-gas/indias-dependence-on-crude-oil-imports-on-rise-as-consumption-increases/articleshow/51934359.cms.
  • Cruts, B., L. van Etten, H. Tornqvist, A. Blomberg, T. Sandstrom, N. L. Mills, and P. J. Borm. 2008. Exposure to diesel exhaust induces changes in EEG in human volunteers. Particle Fibre Toxicology 5:4. doi:10.1186/1743-8977-5-4.
  • Dhinesh, B., and M. Annamalai. 2018. A study on performance, combustion and emission behaviour of diesel engine powered by novel nano nerium oleander biofuel. Journal of Cleaner Production 196, September 20: 74–83. doi:10.1016/j.jclepro.2018.06.002.
  • Dhinesh, B., Y. M. A. Raj, C. Kalaiselvan, and R. KrishnaMoorthy. 2018. A numerical and experimental assessment of a coated diesel engine powered by high-performance nano biofuel. Energy Conversion and Management 171:815–24. doi:10.1016/j.enconman.2018.06.039.
  • Donaldson, K., V. Stone, P. J. Borm, L. A. Jimenez, P. S. Gilmour, R. P. Schins, A. M. Knaapen, I. Rahman, S. P. Faux, D. M. Brown, et al. 2003. Oxidative stress and calcium signaling in the adverse effects of environmental particles (PM 10). Free Radical Biology and Medicine 34:1369–82.
  • Elder, A., R. Gelein, V. Silva, T. Feikert, L. Opanashuk, J. Carter, R. Potter, A. Maynard, Y. Ito, J. Finkelstein, et al. 2006. Translocation of inhaled ultrafine manganese oxide particles to the central nervous system. Environmental Health Perspectives 114:1172. doi:10.1289/ehp.9030.
  • Ghosh, S. 2011. Examining crude oil price – Exchange rate nexus for India during the period of extreme oil price volatility. Applied Energy 88:1886–89. doi:10.1016/j.apenergy.2010.10.043.
  • Giles, L. V., C. Carlsten, and M. S. Koehle. 2012. The effect of pre-exercise diesel exhaust exposure on cycling performance and cardio-respiratory variables. Inhalation Toxicology 24:783–89. doi:10.3109/08958378.2012.717649.
  • Glaude, P. A., W. J. Pitz, and M. J. Thomson. 2005. Chemical kinetic modeling of dimethyl carbonate in an opposed-flow diffusion flame. Proceedings of the Combustion Institute 30:1111–18.
  • Halliwell, B. 2006. Oxidative stress and neurodegeneration: Where are we now? Journal of Neurochemistry 97:1634–58. doi:10.1111/jnc.2006.97.issue-6.
  • Harrison, R. M., and R. E. Hester, Eds. 2009. Air quality in urban environments. Issues in Environmental Science and Technology 28. Royal Society of Chemistry. doi:10.1039/9781847559654.
  • Herreros, J. M., A. Jones, E. Sukjit, and A. Tsolakis. 2014. Blending lignin-derived oxygenate in enhanced multi-component diesel fuel for improved emissions. Applied Energy 116:58–65. doi:10.1016/j.apenergy.2013.11.022.
  • Huang, J., Y. Wang, S. Li, A. P. Roskilly, H. Yu, and H. Li. 2009. Experimental investigation on the performance and emissions of a diesel engine fuelled with ethanol–Diesel blends. Applied Thermal Engineering 29:2484–90. doi:10.1016/j.applthermaleng.2008.12.016.
  • Innes, W. B. 1981. Effect of nitrogen oxide emissions on ozone levels in metropolitan regions. Environmental Science and Technology 15:904–12. doi:10.1021/es00090a003.
  • Jedrychowski, W. A., F. P. Perera, U. Maugeri, R. Majewska, J. Spengler, E. Mroz, E. Flak, M. Klimaszewska‐Rembiasz, and D. Camman. 2015. Antihistamine medication may alleviate negative effects of prenatal exposure to polycyclic aromatic hydrocarbons (PAH) on lung function in children. Birth cohort prospective study. Pediatric Pulmonology 50:469–78. doi:10.1002/ppul.23104.
  • Klein-Douwel, R. J. H., A. J. Donkerbroek, A. P. van Vliet, M. D. Boot, L. M. T. Somers, R. S. G. Baert, and J. J. Meulen. 2009. Soot and chemiluminescence in diesel combustion of bio-derived, oxygenated and reference fuels. Proceedings of the Combustion Institute 32:2817–25.
  • Krishna Moorthy, R., K. Annamalai, S. Lingesan, B. Dhinesh, and J. Paul. 2018. An assessment of combustion, performance characteristics and emission control strategy by adding anti-oxidant additive in emulsified fuel. Atmospheric Pollution Research. doi:10.1016/j.apr.2018.02.007.
  • Mahmudul, H. M., F. Y. Hagos, R. Mamat, A. A. Adam, W. F. W. Ishak, and R. Alenezi. 2017. Production, characterization and performance of biodiesel as an alternative fuel in diesel engines–A review. Renewable and Sustainable Energy Reviews 72:497–509. doi:10.1016/j.rser.2017.01.001.
  • Mills, A., and S. Elouali. 2015. The nitric oxide ISO photocatalytic reactor system: Measurement of NOx removal activity and capacity. Journal of Photochemistry and Photobiology A: Chemistry 305:29–36. doi:10.1016/j.jphotochem.2015.03.002.
  • Narayanasamy, B., and N. Jeyakumar. 2019. Performance and emission analysis of methyl ester of Azolla algae with TiO2 Nano additive for diesel engine. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 41 (12):1434–1445.
  • Nashawi, I. S., A. Malallah, and M. Al-Bisharah. 2010. Forecasting world crude oil production using multicyclic Hubbert model. Energy & Fuels 24:1788–800. doi:10.1021/ef901240p.
  • Prakoso, T., A. Tanaka, T. Hirotsu, P. Udomsap, N. Chollacoop, S. Goto, and A. Indarto. 2019. Oxidation stability of biodiesel fuel produced from Jatropha Curcas L using Rancimat and PetroOXY method. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 41 (4):501–06. doi:10.1080/15567036.2018.1520333.
  • Rajesh Kumar, B., S. Saravanan, D. Rana, V. Anish, and A. Nagendran. 2016a. Effect of a sustainable biofuel – N-octanol – On the combustion, performance and emissions of a DI diesel engine under naturally aspirated and exhaust gas recirculation (EGR) modes. Energy Conversion and Management 118:275–86. doi:10.1016/j.enconman.2016.04.001.
  • Rajesh Kumar, B., S. Saravanan, R. Niranjan Kumar, B. Nishanth, D. Rana, and A. Nagendran. 2016b. Effect of lignin-derived cyclohexanol on combustion, performance and emissions of a direct-injection agricultural diesel engine under naturally aspirated and exhaust gas recirculation (EGR) modes. Fuel 181:630–42. doi:10.1016/j.fuel.2016.05.052.
  • Sayin, C. 2010. Engine performance and exhaust gas emissions of methanol and ethanol–Diesel blends. Fuel 89:3410–15. doi:10.1016/j.fuel.2010.02.017.
  • Vera Candioti, L., M. M. De Zan, M. S. Cámara, and H. C. Goicoechea. 2014. Experimental design and multiple response optimization. Using the Desirability Function in Analytical Methods Development 124:123–38. Talanta.
  • Vigneswaran, R., K. Annamalai, B. Dhinesh, and R. Krishnamoorthy. 2018. Experimental investigation of unmodified diesel engine performance, combustion and emission with multipurpose additive along with water-in-diesel emulsion fuel. Energy Conversion and Management 172:370–80. doi:10.1016/j.enconman.2018.07.039.
  • Wang, X., C. S. Cheung, Y. Di, and Z. Huang. 2012. Diesel engine gaseous and particle emissions fuelled with diesel–oxygenate blends. Fuel 94:317–323.
  • Zhou, N., M. Huo, H. Wu, K. Nithyanandan, C. F. Lee, and Q. Wang. 2014. Low temperature spray combustion of acetone–Butanol–Ethanol (ABE) and diesel blends. Applied Energy 117:104–15. doi:10.1016/j.apenergy.2013.11.035.

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