FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2097162751> ?p ?o ?g. }

• W2097162751 endingPage "729" @default.
• W2097162751 startingPage "711" @default.
• W2097162751 abstract "The mixing characteristics of highly turbulent under-expanded gaseous fuel jets issued from millimeter-size circular nozzles are important for developing advanced direct injection gaseous-fuelled internal combustion engines. In the present study high-resolution large eddy simulation in conjunction with an adaptive mesh refinement technique was used in order to investigate key mixing characteristics of under-expanded hydrogen and methane jets under various ambient thermodynamics. Penetration rate, volumetric growth and initial transient vortex ring behaviour were investigated under near atmospheric and elevated ambient pressures and temperatures, P∞ ≈ 1 bar and 10 bar, T∞ = 296 K and 600 K, using a nozzle pressure ratio of 10. The conditions corresponded to injection strategies ranging from late intake stroke around inlet valve closure to late compression. It was observed that increasing the ambient temperature at constant pressure resulted in increase in both tip penetration and volumetric growth of the under-expanded jets. It was also found that the effect of diffusivity, ratio of specific heats and ambient density must be considered when scaling volumetric growth of under-expanded jets of different gases and/or when issued into different ambient temperatures. Moreover, substantial differences were observed between the transient jet formation of hydrogen and methane fuels. It was found that the embedded shock structures and supersonic annular shear layers played a significant role in the formation and evolution of the transient preliminary and secondary vortex rings. It was also noted that the evolution of the vortex ring influenced significantly the volumetric growth and hence mixing quality of under-expanded jets." @default.
• W2097162751 created "2016-06-24" @default.
• W2097162751 creator A5025533242 @default.
• W2097162751 creator A5052797096 @default.
• W2097162751 date "2016-10-01" @default.
• W2097162751 modified "2023-10-14" @default.
• W2097162751 title "Numerical modelling of transient under-expanded jets under different ambient thermodynamic conditions with adaptive mesh refinement" @default.
• W2097162751 cites W1519745984 @default.
• W2097162751 cites W1553608069 @default.
• W2097162751 cites W1973964201 @default.
• W2097162751 cites W1976033301 @default.
• W2097162751 cites W1983115206 @default.
• W2097162751 cites W1983886781 @default.
• W2097162751 cites W1988440139 @default.
• W2097162751 cites W1998939770 @default.
• W2097162751 cites W1999357207 @default.
• W2097162751 cites W2000194954 @default.
• W2097162751 cites W2000596011 @default.
• W2097162751 cites W2002568142 @default.
• W2097162751 cites W2003953201 @default.
• W2097162751 cites W2012174853 @default.
• W2097162751 cites W2015986444 @default.
• W2097162751 cites W2027206882 @default.
• W2097162751 cites W2027471568 @default.
• W2097162751 cites W2046458920 @default.
• W2097162751 cites W2047897955 @default.
• W2097162751 cites W2051005264 @default.
• W2097162751 cites W2054696763 @default.
• W2097162751 cites W2056892626 @default.
• W2097162751 cites W2062837591 @default.
• W2097162751 cites W2064920842 @default.
• W2097162751 cites W2068103502 @default.
• W2097162751 cites W2075643230 @default.
• W2097162751 cites W2080530426 @default.
• W2097162751 cites W2086945111 @default.
• W2097162751 cites W2113491491 @default.
• W2097162751 cites W2135028907 @default.
• W2097162751 cites W2240353606 @default.
• W2097162751 cites W2253049286 @default.
• W2097162751 cites W2300295141 @default.
• W2097162751 cites W3040937257 @default.
• W2097162751 cites W4252997988 @default.
• W2097162751 doi "https://doi.org/10.1016/j.ijheatfluidflow.2016.07.015" @default.
• W2097162751 hasPublicationYear "2016" @default.
• W2097162751 type Work @default.
• W2097162751 sameAs 2097162751 @default.
• W2097162751 citedByCount "28" @default.
• W2097162751 countsByYear W20971627512017 @default.
• W2097162751 countsByYear W20971627512018 @default.
• W2097162751 countsByYear W20971627512019 @default.
• W2097162751 countsByYear W20971627512020 @default.
• W2097162751 countsByYear W20971627512021 @default.
• W2097162751 countsByYear W20971627512022 @default.
• W2097162751 countsByYear W20971627512023 @default.
• W2097162751 crossrefType "journal-article" @default.
• W2097162751 hasAuthorship W2097162751A5025533242 @default.
• W2097162751 hasAuthorship W2097162751A5052797096 @default.
• W2097162751 hasBestOaLocation W20971627512 @default.
• W2097162751 hasConcept C105923489 @default.
• W2097162751 hasConcept C121332964 @default.
• W2097162751 hasConcept C140820882 @default.
• W2097162751 hasConcept C142724271 @default.
• W2097162751 hasConcept C143895478 @default.
• W2097162751 hasConcept C168475990 @default.
• W2097162751 hasConcept C178790620 @default.
• W2097162751 hasConcept C185592680 @default.
• W2097162751 hasConcept C192562407 @default.
• W2097162751 hasConcept C196558001 @default.
• W2097162751 hasConcept C205991772 @default.
• W2097162751 hasConcept C2781212128 @default.
• W2097162751 hasConcept C56200935 @default.
• W2097162751 hasConcept C57879066 @default.
• W2097162751 hasConcept C71924100 @default.
• W2097162751 hasConcept C97355855 @default.
• W2097162751 hasConceptScore W2097162751C105923489 @default.
• W2097162751 hasConceptScore W2097162751C121332964 @default.
• W2097162751 hasConceptScore W2097162751C140820882 @default.
• W2097162751 hasConceptScore W2097162751C142724271 @default.
• W2097162751 hasConceptScore W2097162751C143895478 @default.
• W2097162751 hasConceptScore W2097162751C168475990 @default.
• W2097162751 hasConceptScore W2097162751C178790620 @default.
• W2097162751 hasConceptScore W2097162751C185592680 @default.
• W2097162751 hasConceptScore W2097162751C192562407 @default.
• W2097162751 hasConceptScore W2097162751C196558001 @default.
• W2097162751 hasConceptScore W2097162751C205991772 @default.
• W2097162751 hasConceptScore W2097162751C2781212128 @default.
• W2097162751 hasConceptScore W2097162751C56200935 @default.
• W2097162751 hasConceptScore W2097162751C57879066 @default.
• W2097162751 hasConceptScore W2097162751C71924100 @default.
• W2097162751 hasConceptScore W2097162751C97355855 @default.
• W2097162751 hasLocation W20971627511 @default.
• W2097162751 hasLocation W20971627512 @default.
• W2097162751 hasOpenAccess W2097162751 @default.
• W2097162751 hasPrimaryLocation W20971627511 @default.
• W2097162751 hasRelatedWork W1614183442 @default.
• W2097162751 hasRelatedWork W1949753662 @default.
• W2097162751 hasRelatedWork W2023272233 @default.
• W2097162751 hasRelatedWork W2189162193 @default.

• next