Effect of biodiesel-dimethyl carbonate blends on engine performance, combustion and emission characteristics

Razzaq, L; Mujtaba, MA; Shahbaz, MA; Nawaz, S; Mahmood Khan, H; Hussain, A; Ishtiaq, U; Kalam, MA; Manzoore, ME; Ismail, KA; Elfasakhany, A; Rizwan, HM

Effect of biodiesel-dimethyl carbonate blends on engine performance, combustion and emission characteristics

Razzaq, L Mujtaba, MA Shahbaz, MA Nawaz, S Mahmood Khan, H Hussain, A Ishtiaq, U Kalam, MA Manzoore, ME Ismail, KA Elfasakhany, A Rizwan, HM

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Publisher:: Elsevier
Publication Type:: Journal Article
Citation:: Alexandria Engineering Journal, 2022, 61, (7), pp. 5111-5121
Issue Date:: 2022-07-01

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Field	Value	Language
dc.contributor.author	Razzaq, L
dc.contributor.author	Mujtaba, MA
dc.contributor.author	Shahbaz, MA
dc.contributor.author	Nawaz, S
dc.contributor.author	Mahmood Khan, H
dc.contributor.author	Hussain, A
dc.contributor.author	Ishtiaq, U
dc.contributor.author	Kalam, MA
dc.contributor.author	Manzoore, ME
dc.contributor.author	Ismail, KA
dc.contributor.author	Elfasakhany, A
dc.contributor.author	Rizwan, HM
dc.date.accessioned	2023-03-22T05:16:45Z
dc.date.available	2023-03-22T05:16:45Z
dc.date.issued	2022-07-01
dc.identifier.citation	Alexandria Engineering Journal, 2022, 61, (7), pp. 5111-5121
dc.identifier.issn	1110-0168
dc.identifier.uri	http://hdl.handle.net/10453/168060
dc.description.abstract	Present study investigates the effect of palm biodiesel blends with and without oxygenated alcohol dimethyl carbonate (DMC) on compression ignition engine. H2SO4 was used to treat the crude palm oil. Furthermore, acid treated palm oil was converted into palm biodiesel via ultrasound-assisted transesterification process at operating conditions of catalyst (KOH) concentration of 0.75 wt%, methanol to oil ratio of 60 V/V %, reaction time of 38 min, reaction temperature of 60 °C and 59% duty cycle. The antioxidant used in biodiesel blends was dimethyl carbonate. These samples were prepared by adding DMC 10% by volume into biodiesel blends at stirring speed of 2000 rpm for 30 min in order to make a homogenous blend. The key fuel properties of the six fuel samples before being engine tested were measured including kinematic viscosity, dynamic viscosity, density, flash point, acid value and calorific value. Engine performance, emission and combustion characteristics were investigated by operating engine at full load condition and varying engine speeds from 1100 rpm to 2100 rpm. Major findings were average increase of 1.70%, 1.22% and 0.95% in BP; average decrease of 1.31%, 2.93% and 1.08% in BSFC; average increase of 4.30%, 4.77% and 4.90% in BTE; average decrease of 2.63%, 2.80% and 4.54% in EGT; significant reduction of 19.04%, 25% and 26.47% in CO emissions; average reduction of 12.76%, 19.35% and 33.33% in HC emissions observed for B10 + DMC, B20 + DMC and B30 + DMC as compared to biodiesel blends without antioxidant.
dc.language	en
dc.publisher	Elsevier
dc.relation.ispartof	Alexandria Engineering Journal
dc.relation.isbasedon	10.1016/j.aej.2021.10.015
dc.rights	info:eu-repo/semantics/openAccess
dc.subject	09 Engineering
dc.title	Effect of biodiesel-dimethyl carbonate blends on engine performance, combustion and emission characteristics
dc.type	Journal Article
utslib.citation.volume	61
utslib.for	09 Engineering
pubs.organisational-group	/University of Technology Sydney
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology/School of Civil and Environmental Engineering
pubs.organisational-group	/University of Technology Sydney/Strength - CTWW - Centre for Technology in Water and Wastewater Treatment
utslib.copyright.status	open_access	*
dc.date.updated	2023-03-22T05:16:43Z
pubs.issue	7
pubs.publication-status	Published
pubs.volume	61
utslib.citation.issue	7

Abstract:

Present study investigates the effect of palm biodiesel blends with and without oxygenated alcohol dimethyl carbonate (DMC) on compression ignition engine. H2SO4 was used to treat the crude palm oil. Furthermore, acid treated palm oil was converted into palm biodiesel via ultrasound-assisted transesterification process at operating conditions of catalyst (KOH) concentration of 0.75 wt%, methanol to oil ratio of 60 V/V %, reaction time of 38 min, reaction temperature of 60 °C and 59% duty cycle. The antioxidant used in biodiesel blends was dimethyl carbonate. These samples were prepared by adding DMC 10% by volume into biodiesel blends at stirring speed of 2000 rpm for 30 min in order to make a homogenous blend. The key fuel properties of the six fuel samples before being engine tested were measured including kinematic viscosity, dynamic viscosity, density, flash point, acid value and calorific value. Engine performance, emission and combustion characteristics were investigated by operating engine at full load condition and varying engine speeds from 1100 rpm to 2100 rpm. Major findings were average increase of 1.70%, 1.22% and 0.95% in BP; average decrease of 1.31%, 2.93% and 1.08% in BSFC; average increase of 4.30%, 4.77% and 4.90% in BTE; average decrease of 2.63%, 2.80% and 4.54% in EGT; significant reduction of 19.04%, 25% and 26.47% in CO emissions; average reduction of 12.76%, 19.35% and 33.33% in HC emissions observed for B10 + DMC, B20 + DMC and B30 + DMC as compared to biodiesel blends without antioxidant.

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