SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4386574512> ?p ?o ?g. }

Showing items 1 to 100 of ±144 with 100 items per page.

W4386574512 abstract "Despite the global goal of achieving e-mobility in the future, the majority of the transportation sector still heavily relies on fossil fuels. Previous studies in the area have revealed the benefits of hydrogen additives and nanoparticles mixed with blended diesel fuels on engine performance and emissions. However, there is a significant gap in the research when it comes to exploring the combination of non-metallic nanoparticle additives with alcohol and diesel blend fuels under dual-fuel mode with hydrogen. In the study, a fuel blend (BF) comprising 80% diesel, 10% n-butanol, and 10% ethanol, which represents a potential alternative fuel composition for compression ignition engines, was specifically focused on. To further enhance the fuel properties and combustion characteristics, the addition of 50 ppm graphene nanoplatelets (GNP) was introduced as a non-metallic additive. By examining this novel fuel composition and investigating its impact under both single and dual-fuel mode, the dimension of hydrogen addition in the dual-fuel mode is aimed to explore potential synergistic effects. A diesel engine was used under dual fuel mode, with hydrogen fed at a rate of 0.25 g/min. The prepared fuels were tested at 1800 rpm engine speed by applying five different loads. 50 ppm GNP of modified fuels resulted in an increase of peak pressures by 3.1%, 4.2%, and 5.6% for DGNP, BFGNP, and BFGNP15H respectively, compared to D. At full load, the COVIMEP values were approximately 0.3%, 0.2%, 0.4%, 1.3%, and 1.6% for D, DGNP, BF, BFGNP, and BFGNP15H, respectively. In the term of thermal efficiency, BFGNP15H had a 3.9% lower BTE than BFGNP at 25% load, but BFGNP15H showed a 0.4% increase in BTE at full load compared to BFGNP. For emission analysis, BFGNP15H showed a reduction of 42.31%, 15.1%, and 10% in CO emissions compared to D, BF, and BFGNP, respectively, under full load in dual operating condition. However, the NO emissions of BFGNP15H were 7.2% higher than those of D under the same condition." @default.
W4386574512 created "2023-09-10" @default.
W4386574512 creator A5009876815 @default.
W4386574512 creator A5016851389 @default.
W4386574512 creator A5039889739 @default.
W4386574512 creator A5064642620 @default.
W4386574512 creator A5086779812 @default.
W4386574512 date "2023-09-01" @default.
W4386574512 modified "2023-10-16" @default.
W4386574512 title "Investigation of H2 enrichment of ternary blended fuel modified with graphene nanoplate on cycle-by-cycle variations" @default.
W4386574512 cites W1788438496 @default.
W4386574512 cites W1985370764 @default.
W4386574512 cites W1988937355 @default.
W4386574512 cites W2001008046 @default.
W4386574512 cites W2033058137 @default.
W4386574512 cites W2046557438 @default.
W4386574512 cites W2056283535 @default.
W4386574512 cites W2068124188 @default.
W4386574512 cites W2069765616 @default.
W4386574512 cites W2071992740 @default.
W4386574512 cites W2073105121 @default.
W4386574512 cites W2076897405 @default.
W4386574512 cites W2079267741 @default.
W4386574512 cites W2083771205 @default.
W4386574512 cites W2089164565 @default.
W4386574512 cites W2089912063 @default.
W4386574512 cites W2096632855 @default.
W4386574512 cites W2210579266 @default.
W4386574512 cites W2253781251 @default.
W4386574512 cites W2335944581 @default.
W4386574512 cites W2469322328 @default.
W4386574512 cites W2569822766 @default.
W4386574512 cites W2589501709 @default.
W4386574512 cites W2590510240 @default.
W4386574512 cites W2606414783 @default.
W4386574512 cites W2622362584 @default.
W4386574512 cites W2765970099 @default.
W4386574512 cites W2766462814 @default.
W4386574512 cites W2782649897 @default.
W4386574512 cites W2789789342 @default.
W4386574512 cites W2792411412 @default.
W4386574512 cites W2796320010 @default.
W4386574512 cites W2804872618 @default.
W4386574512 cites W2827487852 @default.
W4386574512 cites W2831079685 @default.
W4386574512 cites W2891078020 @default.
W4386574512 cites W2895242369 @default.
W4386574512 cites W2909702043 @default.
W4386574512 cites W2916590616 @default.
W4386574512 cites W2937884619 @default.
W4386574512 cites W2943431507 @default.
W4386574512 cites W2983025427 @default.
W4386574512 cites W2983653998 @default.
W4386574512 cites W2984026945 @default.
W4386574512 cites W2992486665 @default.
W4386574512 cites W2999635906 @default.
W4386574512 cites W3005058769 @default.
W4386574512 cites W3013289954 @default.
W4386574512 cites W3019631823 @default.
W4386574512 cites W3027245222 @default.
W4386574512 cites W3027375893 @default.
W4386574512 cites W3036206173 @default.
W4386574512 cites W3036810179 @default.
W4386574512 cites W3046264480 @default.
W4386574512 cites W3046850231 @default.
W4386574512 cites W3054570992 @default.
W4386574512 cites W3093756307 @default.
W4386574512 cites W3094623707 @default.
W4386574512 cites W3098894181 @default.
W4386574512 cites W3108719683 @default.
W4386574512 cites W3118336237 @default.
W4386574512 cites W3118375922 @default.
W4386574512 cites W3119052137 @default.
W4386574512 cites W3127236278 @default.
W4386574512 cites W3127856820 @default.
W4386574512 cites W3179681332 @default.
W4386574512 cites W3195916745 @default.
W4386574512 cites W3210999743 @default.
W4386574512 cites W4206433975 @default.
W4386574512 cites W4210550016 @default.
W4386574512 cites W4242502500 @default.
W4386574512 cites W4283119519 @default.
W4386574512 cites W4379191958 @default.
W4386574512 cites W630717672 @default.
W4386574512 doi "https://doi.org/10.1016/j.ijhydene.2023.08.226" @default.
W4386574512 hasPublicationYear "2023" @default.
W4386574512 type Work @default.
W4386574512 citedByCount "0" @default.
W4386574512 crossrefType "journal-article" @default.
W4386574512 hasAuthorship W4386574512A5009876815 @default.
W4386574512 hasAuthorship W4386574512A5016851389 @default.
W4386574512 hasAuthorship W4386574512A5039889739 @default.
W4386574512 hasAuthorship W4386574512A5064642620 @default.
W4386574512 hasAuthorship W4386574512A5086779812 @default.
W4386574512 hasConcept C105923489 @default.
W4386574512 hasConcept C127413603 @default.
W4386574512 hasConcept C138171918 @default.
W4386574512 hasConcept C171146098 @default.
W4386574512 hasConcept C178790620 @default.
W4386574512 hasConcept C185592680 @default.