Collective influence of 1-decanol addition, injection pressure and EGR on diesel engine characteristics fueled with diesel/LDPE oil blends

Collective influence of 1-decanol addition, injection pressure and EGR on diesel engine characteristics fueled with diesel/LDPE oil blends

•A blend of recycled fuel and renewable fuel was utilized in diesel engine.•Collective influence of 1-decanol, fuel injection pressure and EGR on engine characteristics were studied.•Best operating parameters were determined. Plastic waste is abundant and its recovery to diesel-like fuel could reduc...

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Veröffentlicht in:Fuel (Guildford) 2020-10, Vol.277, p.118166, Article 118166
Hauptverfasser: Rajasekaran, S., Damodharan, D., Gopal, K., Rajesh Kumar, B., De Poures, Melvin Victor
Format: Artikel
Sprache:eng
Schlagworte:
1-Decanol
Decanol
Diesel
Diesel engine
Diesel engines
Emissions
Environmental risk
Fossil fuels
Injection
LDPE
Low density polyethylenes
Oil wastes
Plastic debris
Plastics
Polyethylene
Polymer blends
Pressure
Pyrolysis
Waste to energy
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container_issue
container_start_page 118166
container_title Fuel (Guildford)
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creator Rajasekaran, S.
Damodharan, D.
Gopal, K.
Rajesh Kumar, B.
De Poures, Melvin Victor
description •A blend of recycled fuel and renewable fuel was utilized in diesel engine.•Collective influence of 1-decanol, fuel injection pressure and EGR on engine characteristics were studied.•Best operating parameters were determined. Plastic waste is abundant and its recovery to diesel-like fuel could reduce fossil fuel dependency and the associated risk of environmental pollution. In the present work, diesel-like fuel was produced from low-density polyethylene by catalytic pyrolysis method. Experiments were conducted to study the effect of substituting 10% vol. of 1-decanol in place of waste LDPE oil in D70L30 blend, under the influence of three injection pressures (400 bar, 500 bar, and 600 bar) and three EGR rates (0%, 10%, and 20%) on performance, combustion and emission characteristics of a CRDi engine at its rated power output. For this purpose, a ternary blend was prepared and the results were compared with diesel and D70L30 blend. Results reveal that, the substitution of 1-decanol in place of waste LDPE oil resulted in the shorter ignition delay period. The peak in-cylinder pressure and peak HRR dropped with increasing EGR rate and decreasing injection pressure. D70L20DEC10 injected at 600 bar with 0% and 10% EGR rates delivered 1.02% and 0.5% better BTE than D70L30 blend. NOx decreased by 112% when the EGR was increased from 0% to 20% at 400 bar FIP. It is concluded that the 1-decanol blend injected at 600 bar pressure and a low EGR rate of 10% gave the best possible performance and low emissions.
doi_str_mv 10.1016/j.fuel.2020.118166
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Plastic waste is abundant and its recovery to diesel-like fuel could reduce fossil fuel dependency and the associated risk of environmental pollution. In the present work, diesel-like fuel was produced from low-density polyethylene by catalytic pyrolysis method. Experiments were conducted to study the effect of substituting 10% vol. of 1-decanol in place of waste LDPE oil in D70L30 blend, under the influence of three injection pressures (400 bar, 500 bar, and 600 bar) and three EGR rates (0%, 10%, and 20%) on performance, combustion and emission characteristics of a CRDi engine at its rated power output. For this purpose, a ternary blend was prepared and the results were compared with diesel and D70L30 blend. Results reveal that, the substitution of 1-decanol in place of waste LDPE oil resulted in the shorter ignition delay period. The peak in-cylinder pressure and peak HRR dropped with increasing EGR rate and decreasing injection pressure. D70L20DEC10 injected at 600 bar with 0% and 10% EGR rates delivered 1.02% and 0.5% better BTE than D70L30 blend. NOx decreased by 112% when the EGR was increased from 0% to 20% at 400 bar FIP. 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source Elsevier ScienceDirect Journals
subjects 1-Decanol
Decanol
Diesel
Diesel engine
Diesel engines
Emissions
Environmental risk
Fossil fuels
Injection
LDPE
Low density polyethylenes
Oil wastes
Plastic debris
Plastics
Polyethylene
Polymer blends
Pressure
Pyrolysis
Waste to energy
title Collective influence of 1-decanol addition, injection pressure and EGR on diesel engine characteristics fueled with diesel/LDPE oil blends
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