The Impact Of Fuel Blends And Ambient Conditions On The Heating And Evaporation Of Diesel And Biodiesel Fuel Droplets

Nawar Hasan Imran Al-Esawi; Mansour Al Qubeissi; Sergei S. Sazhin

doi:10.1615/IHTC16.mpf.020772

The Impact Of Fuel Blends And Ambient Conditions On The Heating And Evaporation Of Diesel And Biodiesel Fuel Droplets

Nawar Hasan Imran Al-Esawi, Mansour Al Qubeissi, Sergei S. Sazhin

University of Brighton

Research output: Chapter in Book/Report/Conference proceeding › Conference proceeding › peer-review

4 Citations (Scopus)

84 Downloads (Pure)

Abstract

This work presents recent approaches to the modelling of heating and evaporation of automotive fuel droplets with application to diesel-biodiesel fuel blends in conditions representative of internal combustion engines. The evolutions of droplet radii and surface temperatures for diesel-biodiesel fuel blends have been predicted using the Discrete Component model (DCM). These blends include up to 112 components (98 diesel hydrocarbons and up to 14 biodiesel components of waste cooking oil and soybean methyl esters). The effects of ambient conditions (ambient pressure and temperature, and radiative temperature) on multi-component fuel droplet heating and evaporation are investigated. Ambient pressures and temperatures, and radiative temperatures in the ranges 20-60 bar, 700-950 K, and 1000-2000k, respectively, are considered. Transient diffusion of 98 hydrocarbons and up to 14 methyl esters, temperature gradient, and recirculation inside droplets, are accounted for using the DCM. In contrast to previous studies, it is shown that droplet evaporation time and surface temperature predicted for 100% biodiesel (B100) are not always close to those predicted for pure diesel fuel (B0), but are dependent on the biodiesel fuel type and ambient conditions. Finally, the impact of radiation on opaque droplet lifetimes is shown to be significant, leading to about 19.4% and 23.3% faster evaporation for B0 and B100, respectively, compared to the case where radiation is ignored.

Original language	English
Title of host publication	Proceedings of the 16th International Heat Transfer Conference
Publisher	Begell House
Pages	6641-6648
Number of pages	8
DOIs	https://doi.org/10.1615/IHTC16.mpf.020772
Publication status	Published - Aug 2018
Event	16th International Heat Transfer Conference - Beijing, China Duration: 10 Aug 2018 → 15 Aug 2018

Publication series

Name	International Heat Transfer Conferences
ISSN (Electronic)	2377-424X

Conference

Conference	16th International Heat Transfer Conference
Country/Territory	China
City	Beijing
Period	10/08/18 → 15/08/18

Keywords

Spray and atomization
Boiling and evaporation
Biodiesel
Blended fuel
Diesel
Droplet
Ethanol
Gasoline
Internal combustion
Heating and Evaporation
Multi-component

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10.1615/IHTC16.mpf.020772

Post-PrintAccepted author manuscript, 887 KBLicence: CC BY-NC

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The Impact Of Fuel Blends And Ambient Conditions On The Heating And Evaporation Of Diesel And Biodiesel Fuel Droplets. / Al-Esawi, Nawar Hasan Imran; Al Qubeissi, Mansour; Sazhin, Sergei S.
Proceedings of the 16th International Heat Transfer Conference. Begell House, 2018. p. 6641-6648 (International Heat Transfer Conferences).

Research output: Chapter in Book/Report/Conference proceeding › Conference proceeding › peer-review

Al-Esawi, NHI, Al Qubeissi, M & Sazhin, SS 2018, The Impact Of Fuel Blends And Ambient Conditions On The Heating And Evaporation Of Diesel And Biodiesel Fuel Droplets. in Proceedings of the 16th International Heat Transfer Conference. International Heat Transfer Conferences, Begell House, pp. 6641-6648, 16th International Heat Transfer Conference, Beijing, China, 10/08/18. https://doi.org/10.1615/IHTC16.mpf.020772

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abstract = "This work presents recent approaches to the modelling of heating and evaporation of automotive fuel droplets with application to diesel-biodiesel fuel blends in conditions representative of internal combustion engines. The evolutions of droplet radii and surface temperatures for diesel-biodiesel fuel blends have been predicted using the Discrete Component model (DCM). These blends include up to 112 components (98 diesel hydrocarbons and up to 14 biodiesel components of waste cooking oil and soybean methyl esters). The effects of ambient conditions (ambient pressure and temperature, and radiative temperature) on multi-component fuel droplet heating and evaporation are investigated. Ambient pressures and temperatures, and radiative temperatures in the ranges 20-60 bar, 700-950 K, and 1000-2000k, respectively, are considered. Transient diffusion of 98 hydrocarbons and up to 14 methyl esters, temperature gradient, and recirculation inside droplets, are accounted for using the DCM. In contrast to previous studies, it is shown that droplet evaporation time and surface temperature predicted for 100% biodiesel (B100) are not always close to those predicted for pure diesel fuel (B0), but are dependent on the biodiesel fuel type and ambient conditions. Finally, the impact of radiation on opaque droplet lifetimes is shown to be significant, leading to about 19.4% and 23.3% faster evaporation for B0 and B100, respectively, compared to the case where radiation is ignored.",

keywords = "Spray and atomization, Boiling and evaporation, Biodiesel, Blended fuel, Diesel, Droplet, Ethanol, Gasoline, Internal combustion, Heating and Evaporation, Multi-component",

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N2 - This work presents recent approaches to the modelling of heating and evaporation of automotive fuel droplets with application to diesel-biodiesel fuel blends in conditions representative of internal combustion engines. The evolutions of droplet radii and surface temperatures for diesel-biodiesel fuel blends have been predicted using the Discrete Component model (DCM). These blends include up to 112 components (98 diesel hydrocarbons and up to 14 biodiesel components of waste cooking oil and soybean methyl esters). The effects of ambient conditions (ambient pressure and temperature, and radiative temperature) on multi-component fuel droplet heating and evaporation are investigated. Ambient pressures and temperatures, and radiative temperatures in the ranges 20-60 bar, 700-950 K, and 1000-2000k, respectively, are considered. Transient diffusion of 98 hydrocarbons and up to 14 methyl esters, temperature gradient, and recirculation inside droplets, are accounted for using the DCM. In contrast to previous studies, it is shown that droplet evaporation time and surface temperature predicted for 100% biodiesel (B100) are not always close to those predicted for pure diesel fuel (B0), but are dependent on the biodiesel fuel type and ambient conditions. Finally, the impact of radiation on opaque droplet lifetimes is shown to be significant, leading to about 19.4% and 23.3% faster evaporation for B0 and B100, respectively, compared to the case where radiation is ignored.

AB - This work presents recent approaches to the modelling of heating and evaporation of automotive fuel droplets with application to diesel-biodiesel fuel blends in conditions representative of internal combustion engines. The evolutions of droplet radii and surface temperatures for diesel-biodiesel fuel blends have been predicted using the Discrete Component model (DCM). These blends include up to 112 components (98 diesel hydrocarbons and up to 14 biodiesel components of waste cooking oil and soybean methyl esters). The effects of ambient conditions (ambient pressure and temperature, and radiative temperature) on multi-component fuel droplet heating and evaporation are investigated. Ambient pressures and temperatures, and radiative temperatures in the ranges 20-60 bar, 700-950 K, and 1000-2000k, respectively, are considered. Transient diffusion of 98 hydrocarbons and up to 14 methyl esters, temperature gradient, and recirculation inside droplets, are accounted for using the DCM. In contrast to previous studies, it is shown that droplet evaporation time and surface temperature predicted for 100% biodiesel (B100) are not always close to those predicted for pure diesel fuel (B0), but are dependent on the biodiesel fuel type and ambient conditions. Finally, the impact of radiation on opaque droplet lifetimes is shown to be significant, leading to about 19.4% and 23.3% faster evaporation for B0 and B100, respectively, compared to the case where radiation is ignored.

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KW - Boiling and evaporation

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KW - Blended fuel

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KW - Droplet

KW - Ethanol

KW - Gasoline

KW - Internal combustion

KW - Heating and Evaporation

KW - Multi-component

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BT - Proceedings of the 16th International Heat Transfer Conference

PB - Begell House

T2 - 16th International Heat Transfer Conference

Y2 - 10 August 2018 through 15 August 2018

ER -

The Impact Of Fuel Blends And Ambient Conditions On The Heating And Evaporation Of Diesel And Biodiesel Fuel Droplets

Abstract

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Keywords

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