SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4280624462> ?p ?o ?g. }

Showing items 1 to 100 of ±123 with 100 items per page.

W4280624462 endingPage "118679" @default.
W4280624462 startingPage "118679" @default.
W4280624462 abstract "Reliable detonation initiation is critical in detonation engines, especially for oblique detonation engines covering a wide range of flight regimes. The widely-studied oblique shock initiation usually leads to a significant variation in initiation length, making it difficult to adapt to the wide range of flight conditions. In this study, hot jets in the induction zone, i.e. behind the oblique shock, are introduced to explore the possibility of jet initiation, providing a potential method for initiation control. Results show that hot jet can decrease the initiation length to achieve rapid initiation and change the wave structure simultaneously, which is attributed to the oblique shock induced by a gaseous wedge. Thermal analyses of jet-initiated ODWs are also conducted through total pressure recovery. Results indicate that jet-initiated ODWs have a slightly better total pressure recovery than the original ODW. Furthermore, the jet angle and position are varied to analyze their effects on the initiation position, which is insensitive to the former while sensitive to the latter. A large jet angle may lead to a strong solution of secondary oblique detonation, which has not been previously reported." @default.
W4280624462 created "2022-05-22" @default.
W4280624462 creator A5032550745 @default.
W4280624462 creator A5046920871 @default.
W4280624462 creator A5071519071 @default.
W4280624462 date "2022-08-01" @default.
W4280624462 modified "2023-10-15" @default.
W4280624462 title "Numerical study on initiation of oblique detonation wave by hot jet" @default.
W4280624462 cites W1937383645 @default.
W4280624462 cites W1967722671 @default.
W4280624462 cites W1971671628 @default.
W4280624462 cites W1972150020 @default.
W4280624462 cites W1973085334 @default.
W4280624462 cites W2007043491 @default.
W4280624462 cites W2013530437 @default.
W4280624462 cites W2019962918 @default.
W4280624462 cites W2022103749 @default.
W4280624462 cites W2023381728 @default.
W4280624462 cites W2041075827 @default.
W4280624462 cites W2051199540 @default.
W4280624462 cites W2057471059 @default.
W4280624462 cites W2059120578 @default.
W4280624462 cites W2074643138 @default.
W4280624462 cites W2087401413 @default.
W4280624462 cites W2315754898 @default.
W4280624462 cites W2531113932 @default.
W4280624462 cites W2566370738 @default.
W4280624462 cites W2765211676 @default.
W4280624462 cites W2796667890 @default.
W4280624462 cites W2886184843 @default.
W4280624462 cites W2906114566 @default.
W4280624462 cites W2930926772 @default.
W4280624462 cites W2938637977 @default.
W4280624462 cites W2943887608 @default.
W4280624462 cites W2954995946 @default.
W4280624462 cites W2963886850 @default.
W4280624462 cites W2980208240 @default.
W4280624462 cites W3035534710 @default.
W4280624462 cites W3037521084 @default.
W4280624462 cites W3040205911 @default.
W4280624462 cites W3043135619 @default.
W4280624462 cites W3047185603 @default.
W4280624462 cites W3091563815 @default.
W4280624462 cites W3094003319 @default.
W4280624462 cites W3094057736 @default.
W4280624462 cites W3096630454 @default.
W4280624462 cites W3118181975 @default.
W4280624462 cites W3120099699 @default.
W4280624462 cites W3131448164 @default.
W4280624462 cites W3160413333 @default.
W4280624462 cites W3185757241 @default.
W4280624462 cites W3201556454 @default.
W4280624462 cites W3203056625 @default.
W4280624462 cites W3206373227 @default.
W4280624462 cites W3209044390 @default.
W4280624462 cites W3216409612 @default.
W4280624462 cites W4200278705 @default.
W4280624462 cites W4211084575 @default.
W4280624462 doi "https://doi.org/10.1016/j.applthermaleng.2022.118679" @default.
W4280624462 hasPublicationYear "2022" @default.
W4280624462 type Work @default.
W4280624462 citedByCount "4" @default.
W4280624462 countsByYear W42806244622023 @default.
W4280624462 crossrefType "journal-article" @default.
W4280624462 hasAuthorship W4280624462A5032550745 @default.
W4280624462 hasAuthorship W4280624462A5046920871 @default.
W4280624462 hasAuthorship W4280624462A5071519071 @default.
W4280624462 hasConcept C119947313 @default.
W4280624462 hasConcept C120665830 @default.
W4280624462 hasConcept C121332964 @default.
W4280624462 hasConcept C126322002 @default.
W4280624462 hasConcept C132373408 @default.
W4280624462 hasConcept C138885662 @default.
W4280624462 hasConcept C154238967 @default.
W4280624462 hasConcept C160697094 @default.
W4280624462 hasConcept C178790620 @default.
W4280624462 hasConcept C185592680 @default.
W4280624462 hasConcept C192562407 @default.
W4280624462 hasConcept C203397868 @default.
W4280624462 hasConcept C2781300812 @default.
W4280624462 hasConcept C41895202 @default.
W4280624462 hasConcept C47422493 @default.
W4280624462 hasConcept C57879066 @default.
W4280624462 hasConcept C70477161 @default.
W4280624462 hasConcept C71924100 @default.
W4280624462 hasConceptScore W4280624462C119947313 @default.
W4280624462 hasConceptScore W4280624462C120665830 @default.
W4280624462 hasConceptScore W4280624462C121332964 @default.
W4280624462 hasConceptScore W4280624462C126322002 @default.
W4280624462 hasConceptScore W4280624462C132373408 @default.
W4280624462 hasConceptScore W4280624462C138885662 @default.
W4280624462 hasConceptScore W4280624462C154238967 @default.
W4280624462 hasConceptScore W4280624462C160697094 @default.
W4280624462 hasConceptScore W4280624462C178790620 @default.
W4280624462 hasConceptScore W4280624462C185592680 @default.
W4280624462 hasConceptScore W4280624462C192562407 @default.
W4280624462 hasConceptScore W4280624462C203397868 @default.
W4280624462 hasConceptScore W4280624462C2781300812 @default.