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Articles

Investigating and optimizing the mixture of hydrogen-biodiesel and nano-additive on emissions of the engine equipped with exhaust gas recirculation

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Pages 473-484 | Received 07 Jul 2022, Accepted 13 Nov 2022, Published online: 04 Jan 2023

References

  • Xue J, Grift TE, Hansen AC. Effect of biodiesel on engine performances and emissions. Renewable Sustainable Energy Rev. 2011;15(2):1098–1116.
  • Yaliwal VS, Banapurmath NR, Gaitonde VN, et al. Simultaneous optimization of multiple operating engine parameters of a biodiesel-producer gas operated compression ignition (CI) engine coupled with hydrogen using response surface methodology. Renewable Energy. 2019;139:944–959.
  • Adu-Mensah D, Mei D, Zuo L, et al. A review on partial hydrogenation of biodiesel and its influence on fuel properties. Fuel. 2019;251:660–668.
  • Akcay M, Yilmaz IT, Feyzioglu A. Effect of hydrogen addition on performance and emission characteristics of a common-rail CI engine fueled with diesel/waste cooking oil biodiesel blends. Energy. 2020;212:118538.
  • Ababneh H, Hameed B. Electrofuels as emerging new green alternative fuel: a review of recent literature. Energy Convers Manage. 2022;254:115213.
  • Wang Q, Wu S, Cui D, et al. Co-hydrothermal carbonization of organic solid wastes to hydrochar as potential fuel: a review. Sci Total Environ. 2022;850:158034.
  • Barik D, Murugan S. Simultaneous reduction of NOx and smoke in a dual fuel DI diesel engine. Energy Convers Manage. 2014;84:217–226.
  • Elkelawy M, Alm-Eldin Bastawissi H, El Shenawy EA, et al. Study of performance, combustion, and emissions parameters of DI-diesel engine fueled with algae biodiesel/diesel/n-pentane blends. Energy Conversion and Management: x. 2021;10:100058.
  • Kumar BR, et al. 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 Convers Manage. 2016;118:275–286.
  • Akar MA, Kekilli E, Bas O, et al. Hydrogen enriched waste oil biodiesel usage in compression ignition engine. Int J Hydrogen Energy. 2018;43(38):18046–18052.
  • Loganathan M, Thanigaivelan V, Madhavan VM, et al. The synergetic effect between hydrogen addition and EGR on cashew nut shell liquid biofuel-diesel operated engine. Fuel. 2020;266:117004.
  • Lilik GK, Zhang H, Herreros JM, et al. Hydrogen assisted diesel combustion. Int J Hydrogen Energy. 2010;35(9):4382–4398.
  • Tüccar G, Uludamar E. Emission and engine performance analysis of a diesel engine using hydrogen enriched pomegranate seed oil biodiesel. Int J Hydrogen Energy. 2018;43(38):18014–18019.
  • Qin Y, Xi B, Sun X, et al. Methane emission reduction and biological characteristics of landfill cover soil amended with hydrophobic biochar. Front Bioeng Biotechnol. 2022;10:905466.
  • Ağbulut Ü, Sarıdemir S. A general view to converting fossil fuels to cleaner energy source by adding nanoparticles. Int J Ambient Energy. 2021;42(13):1569–1574.
  • Wang B, Li W, Ma C, et al. Synergistic effect on the co-gasification of petroleum coke and carbon-based feedstocks: a state-of-the-art review. J Inst Energy. 2022;102:1–13.
  • Chinnasamy C, Tamilselvam P, Ranjith R. Environmental effects of adding aluminum oxide nano-additives on diesel engine fueled with pyrolyzed biomass oil–biomass blends. Energy Sources Part A. 2018;40(22):2735–2744.
  • Dhahad HA, Chaichan MT. The impact of adding nano-Al2O3 and nano-ZnO to Iraqi diesel fuel in terms of compression ignition engines’ performance and emitted pollutants. Therm Sci Eng Prog. 2020;18:100535.
  • Kumar MS, et al. Evaluation of metal oxide nano particles in lemongrass biodiesel for engine performance, emission and combustion characteristics. Mater Today: Proc. 2021;44:3657–3665.
  • Soudagar MEM, Nik-Ghazali N-N, Abul Kalam M, et al. The effect of nano-additives in diesel-biodiesel fuel blends: a comprehensive review on stability, engine performance and emission characteristics. Energy Convers Manage. 2018;178:146–177.
  • Ramesh DK, Dhananjaya Kumar JL, Hemanth Kumar SG, et al. Study on effects of alumina nanoparticles as additive with poultry litter biodiesel on performance, combustion and emission characteristic of diesel engine. Mater Today: proc. 2018;5(1):1114–1120.
  • Anchupogu P, Rao LN, Banavathu B. Effect of alumina nano additives into biodiesel-diesel blends on the combustion performance and emission characteristics of a diesel engine with exhaust gas recirculation. Environ Sci Pollut Res Int. 2018;25(23):23294–23306.
  • Sher E. Handbook of air pollution from internal combustion engines: pollutant formation and control. USA: Academic Press; 1998.
  • Ganesan S. Effect of EGR & nanoparticles on performance and emission characteristics of a diesel engine fuelled with palm biodiesel and diesel blends. J Oil Palm Res. 2019;31(1):130–137.
  • Agarwal D, Singh SK, Agarwal AK. Effect of exhaust gas recirculation (EGR) on performance, emissions, deposits and durability of a constant speed compression ignition engine. Appl Energy. 2011;88(8):2900–2907.
  • Rao GP, Prasad LSV. Combined influence of compression ratio and exhaust gas recirculation on the diverse characteristics of the diesel engine fueled with novel palmyra biodiesel blend. Energy Convers Manag: X. 2022;100185.
  • Karagöz Y, Köten H, Tunçer E, et al. Effect of Al2O3 addition to an internal combustion engine coolant on heat transfer performance. Case Stud Therm Eng. 2022;31:101847.
  • Solero G. Experimental analysis of the influence of inert nano-additives upon combustion of diesel sprays. NN. 2012;2(4):129–133.
  • Jamrozik A, Tutak W, Pyrc M, et al. Experimental investigations on combustion, performance, and emission characteristics of stationary CI engine fueled with diesel–methanol and biodiesel–methanol blends. Environ Prog Sustainable Energy. 2017;36(4):1151–1163.
  • Sogbesan O, Garner CP, Davy MH. The effects of increasing FAME biodiesel content on combustion characteristics and HC emissions in high-EGR low temperature combustion. Fuel. 2021;302:121055.
  • Tutak W, Grab-Rogaliński K, Jamrozik A. Combustion and emission characteristics of a biodiesel-hydrogen dual-fuel engine. Appl Sci. 2020;10(3):1082.
  • Wu H-W, Wu Z-Y. Using taguchi method on combustion performance of a diesel engine with diesel/biodiesel blend and port-inducting H2. Appl Energy. 2013;104:362–370.
  • Karagöz Y, Sandalcı T, Yüksek L, et al. Effect of hydrogen–diesel dual-fuel usage on performance, emissions and diesel combustion in diesel engines. Adv Mech Eng. 2016;8(8):168781401666445.
  • De Serio D, de Oliveira A, Sodré JR. Effects of EGR rate on performance and emissions of a diesel power generator fueled by B7. J Braz Soc Mech Sci Eng. 2017;39(6):1919–1927.
  • Xia C, Brindhadevi K, Elfasakhany A, et al. Performance, combustion and emission analysis of castor oil biodiesel blends enriched with nanoadditives and hydrogen fuel using CI engine. Fuel. 2021;306:121541.
  • Qi D, Leick M, Liu Y, et al. Effect of EGR and injection timing on combustion and emission characteristics of split injection strategy DI-diesel engine fueled with biodiesel. Fuel. 2011;90(5):1884–1891.
  • Ghosh S, Dutta D. The effects of EGR on the performance and exhaust emissions of a diesel engine operated on diesel oil and pongamia pinata methyl ester (PPME). Int J Eng Invent. 2012;112:39–44.
  • Serin H, Yıldızhan Ş. Hydrogen addition to tea seed oil biodiesel: performance and emission characteristics. Int J Hydrogen Energy. 2018;43(38):18020–18027.
  • Shadidi B, Najafi G, Yusaf T. A review of hydrogen as a fuel in internal combustion engines. Energies. 2021;14(19):6209.
  • Salek F, Babaie M, Hosseini SV, et al. Multi-objective optimization of the engine performance and emissions for a hydrogen/gasoline dual-fuel engine equipped with the port water injection system. Int J Hydrogen Energy. 2021;46(17):10535–10547.
  • Bari S, Esmaeil MM. Effect of H2/O2 addition in increasing the thermal efficiency of a diesel engine. Fuel. 2010;89(2):378–383.
  • Nour M, EL-Seesy AI, Abdel-Rahman AK, et al. Influence of adding aluminum oxide nanoparticles to diesterol blends on the combustion and exhaust emission characteristics of a diesel engine. Exp Therm Fluid Sci. 2018;98:634–644.
  • Ikegami M, Miwa K, Shioji M. A study of hydrogen fuelled compression ignition engines. Int J Hydrogen Energy. 1982;7(4):341–353.
  • Dimitriou P, Tsujimura T, Suzuki Y. Adopting biodiesel as an indirect way to reduce the NOx emission of a hydrogen fumigated dual-fuel engine. Fuel. 2019;244:324–334.
  • Kolodnytska R, Kravchenko O, Gerlici J, et al. The effects of biodiesel on NOx emissions for automotive transport. Komunikácie. 2022;24(1):B59–B66.
  • Mirhashemi FS, Sadrnia H. NOX emissions of compression ignition engines fueled with various biodiesel blends: a review. J Inst Energy. 2020;93(1):129–151.
  • Vellaiyan S, Subbiah A, Chockalingam P. Multi-response optimization to improve the performance and emissions level of a diesel engine fueled with ZnO incorporated water emulsified soybean biodiesel/diesel fuel blends. Fuel. 2019;237:1013–1020.
  • Nayak S, Shet VB, Rao CV, et al. Performance evaluation and emission characteristics of a 4 stroke diesel engine using green synthesized silver nanoparticles blended biodiesel. Mater Today: Proc. 2018;5(2):7889–7897.
  • Shirneshan A, Bagherzadeh SA, Najafi G, et al. Optimization and investigation the effects of using biodiesel-ethanol blends on the performance and emission characteristics of a diesel engine by genetic algorithm. Fuel. 2021;289:119753.

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