Multi-objective optimization of performance and emissions characteristics of a variable compression ratio diesel engine running with biogas-diesel fuel using response …
SK Mahla, SM Safieddin Ardebili… - Energy Sources, Part …, 2024 - Taylor & Francis
Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2024•Taylor & Francis
Rapidly intensifying necessitates of energy and depletion of accessible fossil resources has
made a remarkable interest in investigation of the alternative fuels. The current
investigational work was performed to examine the use of multi-objective optimization (MOP)
based on response surface methodology (RSM) to investigate the impact of compression
ratio (CR), biogas flow rate and engine load on the performance of dual-fuel engine. An
engine load of 80%, compression ratio of 18, and biogas flow rate of 2.8 kg/h were observed …
made a remarkable interest in investigation of the alternative fuels. The current
investigational work was performed to examine the use of multi-objective optimization (MOP)
based on response surface methodology (RSM) to investigate the impact of compression
ratio (CR), biogas flow rate and engine load on the performance of dual-fuel engine. An
engine load of 80%, compression ratio of 18, and biogas flow rate of 2.8 kg/h were observed …
Abstract
Rapidly intensifying necessitates of energy and depletion of accessible fossil resources has made a remarkable interest in investigation of the alternative fuels. The current investigational work was performed to examine the use of multi-objective optimization (MOP) based on response surface methodology (RSM) to investigate the impact of compression ratio (CR), biogas flow rate and engine load on the performance of dual-fuel engine. An engine load of 80%, compression ratio of 18, and biogas flow rate of 2.8 kg/h were observed to be optimal condition. According to these optimized parameters, the value of BTE, NOX, UHC, CO and smoke opacity were found to be 18.51(%), 13.5 (g/kW.hr), 0.49 (g/kW.hr), CO (0.08% vol.) and 23.6 (%), respectively. Compared with conventional diesel fuel, dual-fuel operational mode can improve brake specific energy consumption and reduce NOX as well as Smoke opacity, while producing higher emissions of CO and UHC.
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