References
- X. Wang, B. Sun and Q. Luo, Energy and exergy analysis of a turbocharged hydrogen internal combustion engine. Int. J. Hydrogen Energy 44 (2019), pp. 5551–5563.
- N. Gheraissa, F. Bouras, F. Khaldi, A. Hidouri, F. Rehouma and A. Dogga, A comparative study of the combustion supplied by multi-fuels: Computational analysis. Energy Reports 7 (2021), pp. 3819–3832.
- J.A. Caton, On the destruction of availability (exergy) due to combustion processes – with specific application to internal-combustion engines. Energy 25 (2000), pp. 1097–1117.
- Ü. Ağbulut, Understanding the role of nanoparticle size on energy, exergy, thermoeconomic, exergoeconomic, and sustainability analyses of an IC engine: A thermodynamic approach. Fuel Process Technol 225 (2022), pp. 1060.
- H. Caliskan and K. Mori, Thermodynamic, environmental and economic effects of diesel and biodiesel fuels on exhaust emissions and nano-particles of a diesel engine. Transport. Res. Part D 56 (2017), pp. 203–221.
- H. Shang, L. Zhang, Z. Tang, B. Du and X. Chen, Adjusting mixture composition of alcohol-based fuels for improving combustion in a 0.99cc miniature IC engine. Chem. Eng. Process: Process Intensification 153 (2020), pp. 107988.
- H.K. Imdadul, H.H. Masjuki, M.A. Kalam, N.W.M. Zulkifli, A. Alabdulkarem, M.M. Rashed, Y.H. Teoh and H.G. How, Higher alcohol–biodiesel–diesel blends: An approach for improving the performance, emission, and combustion of a light-duty diesel engine. Energy Convers Manage 111 (2016), pp. 174–185.
- T. Sakurai, S. Yuasa, T. Honda and S. Shimotori, Heat loss reduction and hydrocarbon combustion in ultra-micro combustors for ultra-micro gas turbines. Proc Combust Inst 32 (2009), pp. 3067–3073.
- M.Z. Yilmazoğlu and E. Amirabedin, Second law and sensitivity analysis of a combined cycle power plant in Turkey. Isı BilimiveTekniğiDergisi 31(2) (2011), pp. 41–50.
- C. Chang Xing, X. Chen, P. Qiu, L. Liu, X. Yu, Y. Zhao, L. Zhang, J. Liu and Q. Hu, Effect of fuel flexibility on combustion performance of a micro-mixing gas turbine combustor at different fuel temperatures. J Energy Inst 102 (2022), pp. 100–117.
- F. Bouras and A. Soudani, Impact of the equivalence ratio and the mass flow rate on turbulent lean premixed prevaporized combustion. Energy Procedia 6 (2011), pp. 251–260.
- S. Chakchak, A. Zaidaoui, A. Hidouri, G. Godard and T. Boushaki, Oxygen enrichment effects on CH4-air turbulent flow characteristics in a coaxial swirl burner. Combust, Sci. Technol. 6 (2022), pp. 159–179.
- A. Ben Ali, M. Karkoub and M. Chrigui, Numerical investigation of turbulent premixed combustion of methane / air in low swirl burner under elevated pressures and temperatures. Intern. J. Heat Technol. 39 (2021), pp. 155–160.
- A. Sadiki and K. Hutter, On thermodynamics of turbulence: Development of first order closure models and critical evaluation of existing models. J. Non-Equilib. Thermodyn 25 (2000), pp. 131–160.
- F. Bouras and F. Khaldi, Probability density function modeling of turbulence/ chemistry interactions in the methane flame enrichment by hydrogen. Theor. Found Chem. Eng 52 (2018), pp. 1019–1028.
- F. Bouras, A. Soudani and M. Si Ameur, Thermochemistry study of internal combustion engine. Energy Procedia 18 (2012), pp. 1086–1095.
- S.K. Som and A. Datta, Thermodynamic irreversibilities and exergy balance in combustion processes. Prog. Energy Combust. Sci 34 (2008), pp. 351–376.
- F. Bouras and F. Khaldi, Computational modeling of thermodynamic irreversibilities in turbulent non-premixed combustion. Heat Mass Transfer 52 (2016), pp. 671–681.
- F. Bouras, M.E.H. Attia and F. Khaldi, Entropy generation optimization in internal combustion engine. Environ. Process. 2(1) (2015), pp. 233–242.
- B. Ma, A. Yao, C. Yao, T. Wu, B. Wang, J. Gao and C. Chao, Exergy loss analysis on diesel methanol dual fuel engine under different operating parameters. Appl Energy 261 (2020), pp. 114483.
- F. Bouras and F. Khaldi, Numerical analysis of entropy generation in a turbulent diffusion flame. J Appl Mech Tech Phys 57 (2016), pp. 20–26.
- Y. Li, M. Jia, Y. Chang, S.L. Kokjohn and R.D. Reitz, Thermodynamic energy and exergy analysis of three different engine combustion regimes. Appl Energy 180 (2016), pp. 849–858.
- H. Taniguchi, K. Mouri, T. Nakahara and N. Arai, Exergy analysis on combustion and energy conversion processes. Energy 30 (2005), pp. 111–117.
- A.L. Rispoli, N. Verdone and G. Vilardi, Green fuel production by coupling plastic waste oxy-combustion and PtG technologies: Economic, energy, exergy and CO2-cycle analysis. Fuel Process Technol 221 (2021), pp. 106922.
- M.N. Nabi, M.G. Rasul, M. Anwar and B.J. Mullins, Energy, exergy, performance, emission and combustion characteristics of diesel engine using new series of non-edible biodiesels. Renew. Energy 140 (2019), pp. 647–657.
- S. Agrebi, L. Drebler, H. Nicolai, F. Ries, K. Nishad and A. Sadiki, Analysis of local exergy losses in combustion systems using a hybrid filtered eulerian stochastic field coupled with detailed chemistry tabulation: Cases of flames D and E. Energies 14 (2021), pp. 6315–2021.
- F. Ries, Y. Li, K. Nishad, J. Janicka and A. Sadiki, Entropy generation analysis and thermodynamic optimization of jet impingement cooling using large eddy simulations. Entropy 21 (2019), pp. 129.
- F. Safari and I. Dincer, Development and analysis of a novel biomass-based integrated system for multigeneration with hydrogen production. Int J Hydrog Energy 44 (2019), pp. 3511–3526.
- M. Safari, F. Hadi and M. Sheikhi, Progress in the prediction of entropy generation in turbulent reacting flows using large eddy simulation. Entropy 16 (2014), pp. 5159–5177.
- M. Mehdi Safari, R.H. Sheikhi, M. Janbozorgi and H. Metghalchi, Entropy transport equation in large eddy simulation for exergy analysis of turbulent combustion systems. Entropy 12 (2010), pp. 434–444.
- S. Agrebi, L. Dreßler and K. Nishad, The exergy losses analysis in adiabatic combustion systems including the exhaust gas exergy. Entropy 24 (2022), pp. 564.
- F. Bouras, F. Kaldi and B. Agoudjil, Exergetic analysis of combustion processes including chemical variables materials today. Proc AMIA Annu Fall Symp 51 (2022), pp. 2096–2104.
- F. Bouras and P. Moin, Numerical study of the turbulent flow inside an ORACLES configuration. J. Appl. Mech, Trans. ASME 79(5) (2012), pp. 51014.
- D. Veynante and L. Vervisch, Turbulent combustion modeling. Prog Energy Combust Sci 28 (2002), pp. 193–266.
- M.S. Kanga, H.J. Jeong, M.M. Farid and J. Hwang, Effect of staged combustion on low NOx emission from an industrial-scale fuel oil combustor in South Korea. Fuel 210 (2017), pp. 282–289.
- C. Schluckner, C. Gaber, M. Landfahrer, M. Demuth and C. Hochenauer, Fast and accurate CFD-model for NOx emission prediction during oxy-fuel combustion of natural gas using detailed chemical kinetics. Fuel 264 (2020), pp. 116841.
- Y. Wang and Y. Zhou, Numerical optimization of the influence of multiple deep air-staged combustion on the NOx emission in an opposed firing utility boiler using lean coal. Fuel 269 (2020), pp. 116996.
- R. Sui, J. Mantzaras and R. Bombach, H2 and CO heterogeneous kinetic coupling during combustion of H2/CO/O2/N2 mixtures over rhodium. Combust Flame 202 (2019), pp. 292–302.
- K.P. Shrestha, S. Eckart, A.M. Elbaz, B.R. Giri, C. Fritsche, L. Seidel, W.L. Roberts, H. Krause and F. Mauss, A comprehensive kinetic model for dimethyl ether and dimethoxymethane oxidation and NOx interaction utilizing experimental laminar flame speed measurements at elevated pressure and temperature. Combust Flame 218 (2020), pp. 57–74.
- B.G. Sanli, M. Özcanli and H. Serin, Assessment of thermodynamic performance of an IC engine using microalgae biodiesel at various ambient temperatures. Fuel 277 (2020), pp. 118108.
- F.K. Owen, L.J. Spadaccini and C.T. Bowman, Pollutant formation and energy release in confined turbulent diffusion flames. Proc. Combust. Inst 16 (1976), pp. 105–117.
- Z. Li, L. Zeng-wen and W. Zhan-xue, Numerical study of influence of biofuels on the combustion characteristics and performance of aircraft engine system. Appl Therm Eng 91 (2015), pp. 399–407.
- M.C. Cameretti, R. Tuccillo and R. Piazzesi, Study of an exhaust gas recirculation equipped micro gas turbine supplied with bio-fuels. Appl Therm Eng 59 (2013), pp. 162–173.
- M.N.A. Ali and I. Dincer, Development and analysis of an integrated gas turbine system with compressed air energy storage for load leveling and energy management. Energy 163 (2018), pp. 604–617.