Modeling the effects of biodiesel-diesel fuel blends on CO2 emission of a diesel engine by response surface methodology

Modeling the effects of biodiesel-diesel fuel blends on CO2 emission of a diesel engine by response surface methodology

Nowadays biodiesel is receiving more attention as a most important renewable energy for using in diesel engines. Inthis research, the application of Response Surface Methodology (RSM) was highlighted to investigate the effects of biodiesel-diesel blends (B0, B20, B50 and B100), engine operating pa...

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Bibliographic Details
Main Authors: Shirneshan, A., Almassi, M., Ghobadian, B., Najafi, Gh.
Format: Article
Language:English
Published: University of Guilan 2016-06-01
Series:Caspian Journal of Environmental Sciences
Subjects:
Diesel Engine
RSM
CO2 Emission
Biodiesel
Online Access:https://cjes.guilan.ac.ir/article_1859.html
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spelling doaj-6156e74320b8482a993f5701e78269402020-11-25T00:03:38ZengUniversity of GuilanCaspian Journal of Environmental Sciences 1735-30331735-38662016-06-01143227238Modeling the effects of biodiesel-diesel fuel blends on CO2 emission of a diesel engine by response surface methodologyShirneshan, A.Almassi, M.Ghobadian, B.Najafi, Gh.Nowadays biodiesel is receiving more attention as a most important renewable energy for using in diesel engines. Inthis research, the application of Response Surface Methodology (RSM) was highlighted to investigate the effects of biodiesel-diesel blends (B0, B20, B50 and B100), engine operating parameters (engine load and speed) on CO2 emission of a diesel engine. The experiments were conducted on a four cylinder direct-injection diesel engine based on three-factor five-level central composite rotatable design. The developed mathematical models were helpful to predict the response parameters and further to identify the significant interactions between the input factors and the responses. The use of biodiesel resulted in higher emission of CO2. The results also showed that an increase in engine speed leads to an increase in the emission of CO2.On the other hand,CO2 emission is higher at low engine loads,while is lower at high engine loads.https://cjes.guilan.ac.ir/article_1859.htmlDiesel EngineRSMCO2 EmissionBiodiesel
collection DOAJ
language English
format Article
sources DOAJ
author Shirneshan, A.
Almassi, M.
Ghobadian, B.
Najafi, Gh.
spellingShingle Shirneshan, A.
Almassi, M.
Ghobadian, B.
Najafi, Gh.
Modeling the effects of biodiesel-diesel fuel blends on CO2 emission of a diesel engine by response surface methodology
Caspian Journal of Environmental Sciences
Diesel Engine
RSM
CO2 Emission
Biodiesel
author_facet Shirneshan, A.
Almassi, M.
Ghobadian, B.
Najafi, Gh.
author_sort Shirneshan, A.
title Modeling the effects of biodiesel-diesel fuel blends on CO2 emission of a diesel engine by response surface methodology
title_short Modeling the effects of biodiesel-diesel fuel blends on CO2 emission of a diesel engine by response surface methodology
title_full Modeling the effects of biodiesel-diesel fuel blends on CO2 emission of a diesel engine by response surface methodology
title_fullStr Modeling the effects of biodiesel-diesel fuel blends on CO2 emission of a diesel engine by response surface methodology
title_full_unstemmed Modeling the effects of biodiesel-diesel fuel blends on CO2 emission of a diesel engine by response surface methodology
title_sort modeling the effects of biodiesel-diesel fuel blends on co2 emission of a diesel engine by response surface methodology
publisher University of Guilan
series Caspian Journal of Environmental Sciences
issn 1735-3033
1735-3866
publishDate 2016-06-01
description Nowadays biodiesel is receiving more attention as a most important renewable energy for using in diesel engines. Inthis research, the application of Response Surface Methodology (RSM) was highlighted to investigate the effects of biodiesel-diesel blends (B0, B20, B50 and B100), engine operating parameters (engine load and speed) on CO2 emission of a diesel engine. The experiments were conducted on a four cylinder direct-injection diesel engine based on three-factor five-level central composite rotatable design. The developed mathematical models were helpful to predict the response parameters and further to identify the significant interactions between the input factors and the responses. The use of biodiesel resulted in higher emission of CO2. The results also showed that an increase in engine speed leads to an increase in the emission of CO2.On the other hand,CO2 emission is higher at low engine loads,while is lower at high engine loads.
topic Diesel Engine
RSM
CO2 Emission
Biodiesel
url https://cjes.guilan.ac.ir/article_1859.html
work_keys_str_mv AT shirneshana modelingtheeffectsofbiodieseldieselfuelblendsonco2emissionofadieselenginebyresponsesurfacemethodology
AT almassim modelingtheeffectsofbiodieseldieselfuelblendsonco2emissionofadieselenginebyresponsesurfacemethodology
AT ghobadianb modelingtheeffectsofbiodieseldieselfuelblendsonco2emissionofadieselenginebyresponsesurfacemethodology
AT najafigh modelingtheeffectsofbiodieseldieselfuelblendsonco2emissionofadieselenginebyresponsesurfacemethodology
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