Enhancing the combustion and emission parameters of a diesel engine fueled by waste cooking oil biodiesel and gasoline additives

Enhancing the combustion and emission parameters of a diesel engine fueled by waste cooking oil biodiesel and gasoline additives

•The engine combustion, emission, and exergy features examined running with gasoline-WCO blends.•The WCO produced via transesterification process using ultrasonic and mechanical dispersion devices.•Viscosity reduced by approximately 5%, 11%, and 21% for BG2, BG4, and BG8, respectively.•CO, UHC, NOx,...

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Veröffentlicht in:Fuel (Guildford) 2020-06, Vol.269, p.117466, Article 117466
Hauptverfasser: Gad, M.S., EL-Seesy, Ahmed I., Radwan, Ali, He, Zhixia
Format: Artikel
Sprache:eng
Schlagworte:
Additives
Biodiesel fuels
Biofuels
Combustion
Combustion and emission parameters
Cooking
Cooking oils
Diesel
Diesel engines
Emission
Exergy
Exergy analyses
Fuel additives
Gasoline
Gasoline additive
Gasoline engines
Internal combustion engines
Nitrogen oxides
Opacity
Thermodynamics
Transesterification
Viscosity
Volatility
Waste cooking oil
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creator Gad, M.S.
EL-Seesy, Ahmed I.
Radwan, Ali
He, Zhixia
description •The engine combustion, emission, and exergy features examined running with gasoline-WCO blends.•The WCO produced via transesterification process using ultrasonic and mechanical dispersion devices.•Viscosity reduced by approximately 5%, 11%, and 21% for BG2, BG4, and BG8, respectively.•CO, UHC, NOx, and smoke diminished by 25%, 30%, 20%, and 30% for WCO-gasoline blends.•It can be presumed that the BG8 is the recommended mixing ratio of gasoline-WCO mixtures. The main challenges of utilizing the Waste Cooking Oil (WCO) in diesel engines are that it released a large amount of NOx level, and it has a high viscosity, high pour point, and low volatility. Therefore, this study aims to scrutinize the impacts of adding gasoline as additives with WCO biodiesel on the combustion, emission, and exergy characteristics of a diesel engine run under various loads and a constant speed of 1500 rpm. The WCO biodiesel is produced employing the transesterification process with assisting of ultrasonic and mechanical dispersion devices, and it is characterized by applying GC–MS and FTIR analysis. The viscosity is diminished by approximately 5%, 11%, and 21% for BG2, BG4, and BG8, respectively. Three blending ratios of 2%, 4%, and 8% gasoline and 98%, 96%, and 92% WCO which are represented as BG2, BG4, and BG8, respectively. The results illustrate that the cylinder pressure and HRR are enlarged with the addition of gasoline with WCO. Fuel exergy rate and exergitic efficiency are heightened with adding gasoline. Engine emissions of CO, UHC, NOx, and smoke opacity are pointedly diminished by 25%, 30%, 20%, and 30% for WCO-gasoline blends compared to that of pure WCO. It can be deduced that the recommended mixing ratio of gasoline-WCO biodiesel blend is BG8 which achieved a considerable heightening in emission formations, principally NOx level and providing an acceptance value of fuel consumption.
doi_str_mv 10.1016/j.fuel.2020.117466
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The main challenges of utilizing the Waste Cooking Oil (WCO) in diesel engines are that it released a large amount of NOx level, and it has a high viscosity, high pour point, and low volatility. Therefore, this study aims to scrutinize the impacts of adding gasoline as additives with WCO biodiesel on the combustion, emission, and exergy characteristics of a diesel engine run under various loads and a constant speed of 1500 rpm. The WCO biodiesel is produced employing the transesterification process with assisting of ultrasonic and mechanical dispersion devices, and it is characterized by applying GC–MS and FTIR analysis. The viscosity is diminished by approximately 5%, 11%, and 21% for BG2, BG4, and BG8, respectively. Three blending ratios of 2%, 4%, and 8% gasoline and 98%, 96%, and 92% WCO which are represented as BG2, BG4, and BG8, respectively. The results illustrate that the cylinder pressure and HRR are enlarged with the addition of gasoline with WCO. Fuel exergy rate and exergitic efficiency are heightened with adding gasoline. Engine emissions of CO, UHC, NOx, and smoke opacity are pointedly diminished by 25%, 30%, 20%, and 30% for WCO-gasoline blends compared to that of pure WCO. 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The main challenges of utilizing the Waste Cooking Oil (WCO) in diesel engines are that it released a large amount of NOx level, and it has a high viscosity, high pour point, and low volatility. Therefore, this study aims to scrutinize the impacts of adding gasoline as additives with WCO biodiesel on the combustion, emission, and exergy characteristics of a diesel engine run under various loads and a constant speed of 1500 rpm. The WCO biodiesel is produced employing the transesterification process with assisting of ultrasonic and mechanical dispersion devices, and it is characterized by applying GC–MS and FTIR analysis. The viscosity is diminished by approximately 5%, 11%, and 21% for BG2, BG4, and BG8, respectively. Three blending ratios of 2%, 4%, and 8% gasoline and 98%, 96%, and 92% WCO which are represented as BG2, BG4, and BG8, respectively. The results illustrate that the cylinder pressure and HRR are enlarged with the addition of gasoline with WCO. 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Fuel exergy rate and exergitic efficiency are heightened with adding gasoline. Engine emissions of CO, UHC, NOx, and smoke opacity are pointedly diminished by 25%, 30%, 20%, and 30% for WCO-gasoline blends compared to that of pure WCO. It can be deduced that the recommended mixing ratio of gasoline-WCO biodiesel blend is BG8 which achieved a considerable heightening in emission formations, principally NOx level and providing an acceptance value of fuel consumption.</abstract><cop>Kidlington</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.fuel.2020.117466</doi></addata></record>
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1873-7153
language eng
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source Elsevier ScienceDirect Journals
subjects Additives
Biodiesel fuels
Biofuels
Combustion
Combustion and emission parameters
Cooking
Cooking oils
Diesel
Diesel engines
Emission
Exergy
Exergy analyses
Fuel additives
Gasoline
Gasoline additive
Gasoline engines
Internal combustion engines
Nitrogen oxides
Opacity
Thermodynamics
Transesterification
Viscosity
Volatility
Waste cooking oil
title Enhancing the combustion and emission parameters of a diesel engine fueled by waste cooking oil biodiesel and gasoline additives
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