Analysis of Cycle-To-Cycle Combustion Variations in a Spark-Ignition Engine Operating under Various Biogas Compositions

Gupta, Sachin Kumar; Mittal, Mayank

doi:10.1021/acs.energyfuels.9b02344

Cited by 15 publications

(2 citation statements)

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“…3,4 Biogas (60%-70% methane) is one of the most valuable products that can be extracted from organic waste (plant, animal, and food waste) by anaerobic decomposition. 5,6 The higher percentage of carbon dioxide (30%-47%) in the biogas, however, reduces its calorific value and hence limits its application as fuel for internal combustion engines. 7,8 Predictions on methane to be a high-demand fuel in the future have increased the focus of industries on the development of gas processing technologies for biogas purification and also on improving the methane supply chain by developing effective transmission networks.…”

Section: Introductionmentioning

confidence: 99%

“…Among the various alternative fuels, biomethane or renewable natural gas (>95% methane) is very promising and highly attractive in the transportation sector 3,4 . Biogas (60%–70% methane) is one of the most valuable products that can be extracted from organic waste (plant, animal, and food waste) by anaerobic decomposition 5,6 . The higher percentage of carbon dioxide (30%–47%) in the biogas, however, reduces its calorific value and hence limits its application as fuel for internal combustion engines 7,8 .…”

Section: Introductionmentioning

confidence: 99%

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Effect of biomethane substitution on combustion noise and performance of a dual fuel common rail direct injection diesel engine

Hameed

Kurien

et al. 2022

Env Prog and Sustain Energy

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Rising pollution levels and stringent emission regulations have raised the requirement for the utilization of alternative green fuels as a sustainable energy source for engine applications. The economic and environmental benefits of using biomethane or renewable natural gas (>95% methane) in diesel engines have made it a promising solution. Sound levels caused by combustion noise, however, is an area of concern in the early stages of engine development process, and to the best of our knowledge studies related to the impact of gaseous fuel energy share on combustion noise in dual fuel diesel engines have not been reported in the literature. In the present work, experimental research on the combustion noise of a biomethane augmented dual fuel common‐rail direct injection (CRDI) diesel engine has been carried out with a correlational design of its performance and combustion characteristics at various engine operating conditions. Comparative results on combustion and performance characteristics of different fuel compositions at various engine loads revealed that there is a better utilization of gaseous fuel at full load conditions resulting in improved power output and reduced heat transfer losses. Cylinder pressure spectra derived from recorded in‐cylinder pressure were used for carrying out the quantitative analysis of sound levels. The results suggested that an increment in methane share is effective in controlling the sound pressure levels to 95 dB (at 1.5 Newton‐meter [Nm] and 13.5 Nm loading conditions) and it is lower than the diesel‐only operational levels at all loading conditions.

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