SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4382052009> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W4382052009 endingPage "104545" @default.
W4382052009 startingPage "104545" @default.
W4382052009 abstract "Numerical simulations of temporally-evolving droplet-laden plane jets are performed in conditions relevant to rocket main engines fed with liquid oxygen (LOx) and gaseous methane (CH4). The computations are performed using a direct numerical simulation (DNS) solver with the liquid phase represented within the discrete particle simulation (DPS) framework. Considering the multiplicity of the physical phenomena that are involved in such conditions – e.g., atomization, dispersion, evaporation – a progressive and phenomenological methodology is retained to proceed with a complexity-increasing set of computations. Thus, the development of a purely gaseous jet is first studied with the corresponding set of data providing a reference or baseline condition. Then, other conditions are considered to analyze the influence of (i) liquid droplet evaporation and (ii) molecular mixing processes as described by two distinct multicomponent transport models. The analysis of the obtained results shows that both evaporation and molecular transport representation play a crucial role in the plane jet development and may drastically alter its characteristics before ignition and subsequent combustion stabilization may take place. Finally, the obtained results also unambiguously put into evidence the influence of the Lewis number onto the vaporization rate." @default.
W4382052009 created "2023-06-27" @default.
W4382052009 creator A5069354915 @default.
W4382052009 creator A5072897028 @default.
W4382052009 creator A5088088243 @default.
W4382052009 date "2023-11-01" @default.
W4382052009 modified "2023-09-25" @default.
W4382052009 title "A computational study of the influence of evaporation and molecular transport on temporally-evolving droplet-laden plane jets" @default.
W4382052009 cites W1713257564 @default.
W4382052009 cites W1969188355 @default.
W4382052009 cites W1969432029 @default.
W4382052009 cites W1979176272 @default.
W4382052009 cites W1980980876 @default.
W4382052009 cites W1981391303 @default.
W4382052009 cites W1986308483 @default.
W4382052009 cites W1987573340 @default.
W4382052009 cites W1988743838 @default.
W4382052009 cites W1990893845 @default.
W4382052009 cites W1994044499 @default.
W4382052009 cites W2001020976 @default.
W4382052009 cites W2003695416 @default.
W4382052009 cites W2004201094 @default.
W4382052009 cites W2012019506 @default.
W4382052009 cites W2013907782 @default.
W4382052009 cites W2015276999 @default.
W4382052009 cites W2019196139 @default.
W4382052009 cites W2021592845 @default.
W4382052009 cites W2021912354 @default.
W4382052009 cites W2027049153 @default.
W4382052009 cites W2027204675 @default.
W4382052009 cites W2036500228 @default.
W4382052009 cites W2039974160 @default.
W4382052009 cites W2043200699 @default.
W4382052009 cites W2047710483 @default.
W4382052009 cites W2048899872 @default.
W4382052009 cites W2057481872 @default.
W4382052009 cites W2067236900 @default.
W4382052009 cites W2081328504 @default.
W4382052009 cites W2083140997 @default.
W4382052009 cites W2090504076 @default.
W4382052009 cites W2092155508 @default.
W4382052009 cites W2093569173 @default.
W4382052009 cites W2094032372 @default.
W4382052009 cites W2094437156 @default.
W4382052009 cites W2121904711 @default.
W4382052009 cites W2131908956 @default.
W4382052009 cites W2133405002 @default.
W4382052009 cites W2136528909 @default.
W4382052009 cites W2138483706 @default.
W4382052009 cites W2138522572 @default.
W4382052009 cites W2143782904 @default.
W4382052009 cites W2144365696 @default.
W4382052009 cites W2155467066 @default.
W4382052009 cites W2160428180 @default.
W4382052009 cites W2165008991 @default.
W4382052009 cites W2171663733 @default.
W4382052009 cites W2266583621 @default.
W4382052009 cites W2436722600 @default.
W4382052009 cites W2485652226 @default.
W4382052009 cites W2496088339 @default.
W4382052009 cites W2533603662 @default.
W4382052009 cites W2592026225 @default.
W4382052009 cites W2759791353 @default.
W4382052009 cites W2771020280 @default.
W4382052009 cites W2809904549 @default.
W4382052009 cites W2891892722 @default.
W4382052009 cites W2964834410 @default.
W4382052009 cites W2973829986 @default.
W4382052009 cites W2982057912 @default.
W4382052009 cites W2993176269 @default.
W4382052009 cites W3043897049 @default.
W4382052009 cites W3092841666 @default.
W4382052009 cites W4313898344 @default.
W4382052009 cites W4378759985 @default.
W4382052009 cites W47285034 @default.
W4382052009 doi "https://doi.org/10.1016/j.ijmultiphaseflow.2023.104545" @default.
W4382052009 hasPublicationYear "2023" @default.
W4382052009 type Work @default.
W4382052009 citedByCount "0" @default.
W4382052009 crossrefType "journal-article" @default.
W4382052009 hasAuthorship W4382052009A5069354915 @default.
W4382052009 hasAuthorship W4382052009A5072897028 @default.
W4382052009 hasAuthorship W4382052009A5088088243 @default.
W4382052009 hasConcept C105923489 @default.
W4382052009 hasConcept C11413529 @default.
W4382052009 hasConcept C119947313 @default.
W4382052009 hasConcept C121332964 @default.
W4382052009 hasConcept C138777275 @default.
W4382052009 hasConcept C147789679 @default.
W4382052009 hasConcept C17825722 @default.
W4382052009 hasConcept C185592680 @default.
W4382052009 hasConcept C192562407 @default.
W4382052009 hasConcept C195801359 @default.
W4382052009 hasConcept C199360897 @default.
W4382052009 hasConcept C2524010 @default.
W4382052009 hasConcept C2778770139 @default.
W4382052009 hasConcept C33923547 @default.
W4382052009 hasConcept C41008148 @default.