Comparative study of combustion characteristics and exhaust emissions of waste cooking-diesel oil blends

Comparative study of combustion characteristics and exhaust emissions of waste cooking-diesel oil blends

The depletion of fossil fuels have seriously encouraged extensive search for alternative renewable resources. Among these resources are the use of biodiesel (highly expensive, low yield) and the blending of waste cooking oil (WCO) with light diesel oil (LDO). The present paper undertakes an experime...

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Main Authors: Ahmed Mahfouz, M.S. Gad, Ahmed El Fatih, Ahmed Emara
Format: Article
Language:English
Published: Elsevier 2018-12-01
Series:Ain Shams Engineering Journal
Online Access:http://www.sciencedirect.com/science/article/pii/S2090447918300248
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spelling doaj-0b27865f600b40d395785663ec3ea64f2021-06-02T07:47:47ZengElsevierAin Shams Engineering Journal2090-44792018-12-019431233134Comparative study of combustion characteristics and exhaust emissions of waste cooking-diesel oil blendsAhmed Mahfouz0M.S. Gad1Ahmed El Fatih2Ahmed Emara3Mechanical Power Engineering Department, National Research Centre, Egypt; Corresponding author.Mechanical Power Engineering Department, Faculty of Engineering Fayoum University, EgyptMechanical Power Engineering Department, National Research Centre, EgyptMechanical Power Engineering Department, Faculty of Engineering Mattaria, Helwan University, EgyptThe depletion of fossil fuels have seriously encouraged extensive search for alternative renewable resources. Among these resources are the use of biodiesel (highly expensive, low yield) and the blending of waste cooking oil (WCO) with light diesel oil (LDO). The present paper undertakes an experimental investigation to study the effects of varying the blending ratio of WCO/LDO on the flame characteristics, combustor efficiency, and exhaust emissions. This blending ratio is varied from 0% to 100%. For any particular blend, the equivalence ratio is varied from 0.6 to 1.05. The experiments are conducted inside a water cooled, cylindrical, combustor fitted with a coaxially mounted waste oil burner. The measurements include the inflame and exhaust mean gas temperatures and the dry volumetric species concentrations (CO, NOx, CxHy and O2) at the combustor exit. The present results indicate that the blending ratio should not exceed 20% to ensure acceptable combustor efficiency and lower emissions. Keywords: Waste cooking oil (WCO), Swirled burner, Combustor, Inflame thermal contouring map, Exhaust emissions, Equivalence ratio, Blended fuel oilshttp://www.sciencedirect.com/science/article/pii/S2090447918300248
collection DOAJ
language English
format Article
sources DOAJ
author Ahmed Mahfouz
M.S. Gad
Ahmed El Fatih
Ahmed Emara
spellingShingle Ahmed Mahfouz
M.S. Gad
Ahmed El Fatih
Ahmed Emara
Comparative study of combustion characteristics and exhaust emissions of waste cooking-diesel oil blends
Ain Shams Engineering Journal
author_facet Ahmed Mahfouz
M.S. Gad
Ahmed El Fatih
Ahmed Emara
author_sort Ahmed Mahfouz
title Comparative study of combustion characteristics and exhaust emissions of waste cooking-diesel oil blends
title_short Comparative study of combustion characteristics and exhaust emissions of waste cooking-diesel oil blends
title_full Comparative study of combustion characteristics and exhaust emissions of waste cooking-diesel oil blends
title_fullStr Comparative study of combustion characteristics and exhaust emissions of waste cooking-diesel oil blends
title_full_unstemmed Comparative study of combustion characteristics and exhaust emissions of waste cooking-diesel oil blends
title_sort comparative study of combustion characteristics and exhaust emissions of waste cooking-diesel oil blends
publisher Elsevier
series Ain Shams Engineering Journal
issn 2090-4479
publishDate 2018-12-01
description The depletion of fossil fuels have seriously encouraged extensive search for alternative renewable resources. Among these resources are the use of biodiesel (highly expensive, low yield) and the blending of waste cooking oil (WCO) with light diesel oil (LDO). The present paper undertakes an experimental investigation to study the effects of varying the blending ratio of WCO/LDO on the flame characteristics, combustor efficiency, and exhaust emissions. This blending ratio is varied from 0% to 100%. For any particular blend, the equivalence ratio is varied from 0.6 to 1.05. The experiments are conducted inside a water cooled, cylindrical, combustor fitted with a coaxially mounted waste oil burner. The measurements include the inflame and exhaust mean gas temperatures and the dry volumetric species concentrations (CO, NOx, CxHy and O2) at the combustor exit. The present results indicate that the blending ratio should not exceed 20% to ensure acceptable combustor efficiency and lower emissions. Keywords: Waste cooking oil (WCO), Swirled burner, Combustor, Inflame thermal contouring map, Exhaust emissions, Equivalence ratio, Blended fuel oils
url http://www.sciencedirect.com/science/article/pii/S2090447918300248
work_keys_str_mv AT ahmedmahfouz comparativestudyofcombustioncharacteristicsandexhaustemissionsofwastecookingdieseloilblends
AT msgad comparativestudyofcombustioncharacteristicsandexhaustemissionsofwastecookingdieseloilblends
AT ahmedelfatih comparativestudyofcombustioncharacteristicsandexhaustemissionsofwastecookingdieseloilblends
AT ahmedemara comparativestudyofcombustioncharacteristicsandexhaustemissionsofwastecookingdieseloilblends
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