Thermodynamic Analysis and Comparison of Performances of Air Standard Atkinson, Otto, and Diesel Cycles with Heat Transfer Considerations

Abstract: This paper focuses on the overall performances of Otto, Atkinson, and Diesel air standard cycles. This study compares performance of these cycles with regard to parameters such as variable specific heat ratio, heat transfer loss, frictional loss, and internal irreversibility based on finite-time thermodynamics. The relationship between thermal efficiency and compression ratio, and between power output and compression ratio of these cycles are obtained by numerical examples. In this study, it is assumed that du… Show more

“…The LS-HPDF engines work on a Diesel cycle in gas mode. Diesel cycle is operated at high temperature and pressure, compared to Otto cycle [30]. Since the formation of NOx emissions, which comprise mainly NO and NO2, are highly sensitive to the temperature and gas injection pressure (300 bar) in combustion chambers, NOx emission levels with Diesel cycle are normally greater than that with Otto cycle engines [31].…”

Demystifying the lifecycle environmental benefits and harms of LNG as marine fuel

“…The LS-HPDF engines work on a Diesel cycle in gas mode. Diesel cycle is operated at high temperature and pressure, compared to Otto cycle [30]. Since the formation of NOx emissions, which comprise mainly NO and NO2, are highly sensitive to the temperature and gas injection pressure (300 bar) in combustion chambers, NOx emission levels with Diesel cycle are normally greater than that with Otto cycle engines [31].…”

Demystifying the lifecycle environmental benefits and harms of LNG as marine fuel

Performance analysis and multi-objective optimization of irreversible Diesel cycle with non-ideal gas working fluid

Optimization of the power, efficiency and ecological function for an air-standard irreversible Dual-Miller cycle