FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4304080203> ?p ?o ?g. }

• W4304080203 endingPage "139541" @default.
• W4304080203 startingPage "139541" @default.
• W4304080203 abstract "The gas-solid particle two-phase flow in a fluidized bed shows complex physics. The multi-scale algorithm composed of the coupled gas-kinetic scheme (GKS) for the gas phase and unified gas-kinetic wave-particle method (UGKWP) for the solid particle phase is developed for three-dimensional fluidized bed study. For the solid-particle phase, different from the widely-used Eulerian and Lagrangian approaches, the UGKWP unifies the wave (dense particle region) and discrete particle (dilute particle region) formulation seamlessly according to a continuous variation of particle cell’s Kundsen number ( Kn ). The GKS-UGKWP for the coupled gas-particle evolution system can automatically become an Eulerian-Eulerian (EE) method in the high particle collision regime and Eulerian-Lagrangian (EL) formulation in the collisionless particle regime. In the transition regime, the UGKWP can achieve a smooth transition between the Eulerian and Lagrangian limiting formulation. More importantly, the weights of mass distributions from analytical wave and discrete particle are related to the local Kn by ( 1 − exp ( − 1 / Kn ) ) for wave and exp ( − 1 / Kn ) for discrete particle. The UGKWP provides an optimal modeling in capturing the particle phase in difference regimes with the full consideration of physical accuracy and numerical efficiency. In the numerical simulation, the UGKWP does not need any prior division of dilute/dense regions, which makes it suitable for the fluidized bed problem, where the dilute/transition/dense regions instantaneously coexist and are dynamically interconvertible. In this paper, based on the GKS-UGKWP formulation two lab-scale fluidization cases, i.e., one turbulent fluidized bed and one circulating fluidized bed, are simulated in 3D and the simulation results are compared with the experimental measurements. The typical heterogeneous flow features of the fluidized bed are well captured and the statistics are in good agreement with experiment data. • A multi-scale GKS-UGKWP algorithm is constructed for gas-solid particle two phase flow. • GKS-UGKWP connects Eulerian–Eulerian (EE) and Eulerian–Lagrangian (EL) methods smoothly. • This method is validated through the lab-scale turbulent fluidized bed and circulating fluidized bed. • The core-annular flow structures in circulating fluidized bed are well predicted." @default.
• W4304080203 created "2022-10-10" @default.
• W4304080203 creator A5038382239 @default.
• W4304080203 creator A5038626545 @default.
• W4304080203 creator A5085703535 @default.
• W4304080203 creator A5090155848 @default.
• W4304080203 date "2023-02-01" @default.
• W4304080203 modified "2023-10-16" @default.
• W4304080203 title "Unified gas-kinetic wave-particle method for three-dimensional simulation of gas-particle fluidized bed" @default.
• W4304080203 cites W1978893684 @default.
• W4304080203 cites W1981565337 @default.
• W4304080203 cites W1987042919 @default.
• W4304080203 cites W1998452395 @default.
• W4304080203 cites W2001263565 @default.
• W4304080203 cites W2017700359 @default.
• W4304080203 cites W2020962674 @default.
• W4304080203 cites W2023332540 @default.
• W4304080203 cites W2023777236 @default.
• W4304080203 cites W2026736410 @default.
• W4304080203 cites W2030067326 @default.
• W4304080203 cites W2033924432 @default.
• W4304080203 cites W2035964966 @default.
• W4304080203 cites W2037125554 @default.
• W4304080203 cites W2063321377 @default.
• W4304080203 cites W2067390813 @default.
• W4304080203 cites W2068643678 @default.
• W4304080203 cites W2079419215 @default.
• W4304080203 cites W2081190637 @default.
• W4304080203 cites W2101689071 @default.
• W4304080203 cites W2104612958 @default.
• W4304080203 cites W2115623579 @default.
• W4304080203 cites W2133034255 @default.
• W4304080203 cites W2180496922 @default.
• W4304080203 cites W2508776219 @default.
• W4304080203 cites W2587525221 @default.
• W4304080203 cites W2601991801 @default.
• W4304080203 cites W2604636796 @default.
• W4304080203 cites W2613130521 @default.
• W4304080203 cites W2743228428 @default.
• W4304080203 cites W2786983604 @default.
• W4304080203 cites W2888311590 @default.
• W4304080203 cites W2890383159 @default.
• W4304080203 cites W2908451460 @default.
• W4304080203 cites W2921933424 @default.
• W4304080203 cites W2963505165 @default.
• W4304080203 cites W2963729583 @default.
• W4304080203 cites W2976473709 @default.
• W4304080203 cites W2995477660 @default.
• W4304080203 cites W3009515270 @default.
• W4304080203 cites W3027322152 @default.
• W4304080203 cites W3119232708 @default.
• W4304080203 cites W3164363773 @default.
• W4304080203 cites W3182121569 @default.
• W4304080203 cites W3199577396 @default.
• W4304080203 cites W3211268536 @default.
• W4304080203 cites W4200632150 @default.
• W4304080203 cites W4251706365 @default.
• W4304080203 cites W828403547 @default.
• W4304080203 doi "https://doi.org/10.1016/j.cej.2022.139541" @default.
• W4304080203 hasPublicationYear "2023" @default.
• W4304080203 type Work @default.
• W4304080203 citedByCount "2" @default.
• W4304080203 countsByYear W43040802032023 @default.
• W4304080203 crossrefType "journal-article" @default.
• W4304080203 hasAuthorship W4304080203A5038382239 @default.
• W4304080203 hasAuthorship W4304080203A5038626545 @default.
• W4304080203 hasAuthorship W4304080203A5085703535 @default.
• W4304080203 hasAuthorship W4304080203A5090155848 @default.
• W4304080203 hasConcept C111368507 @default.
• W4304080203 hasConcept C121332964 @default.
• W4304080203 hasConcept C127313418 @default.
• W4304080203 hasConcept C135889238 @default.
• W4304080203 hasConcept C192562407 @default.
• W4304080203 hasConcept C2084832 @default.
• W4304080203 hasConcept C2778517922 @default.
• W4304080203 hasConcept C57879066 @default.
• W4304080203 hasConcept C74650414 @default.
• W4304080203 hasConcept C97355855 @default.
• W4304080203 hasConceptScore W4304080203C111368507 @default.
• W4304080203 hasConceptScore W4304080203C121332964 @default.
• W4304080203 hasConceptScore W4304080203C127313418 @default.
• W4304080203 hasConceptScore W4304080203C135889238 @default.
• W4304080203 hasConceptScore W4304080203C192562407 @default.
• W4304080203 hasConceptScore W4304080203C2084832 @default.
• W4304080203 hasConceptScore W4304080203C2778517922 @default.
• W4304080203 hasConceptScore W4304080203C57879066 @default.
• W4304080203 hasConceptScore W4304080203C74650414 @default.
• W4304080203 hasConceptScore W4304080203C97355855 @default.
• W4304080203 hasFunder F4320321001 @default.
• W4304080203 hasFunder F4320324202 @default.
• W4304080203 hasLocation W43040802031 @default.
• W4304080203 hasOpenAccess W4304080203 @default.
• W4304080203 hasPrimaryLocation W43040802031 @default.
• W4304080203 hasRelatedWork W2071341609 @default.
• W4304080203 hasRelatedWork W2084736284 @default.
• W4304080203 hasRelatedWork W2318679973 @default.
• W4304080203 hasRelatedWork W2364176258 @default.
• W4304080203 hasRelatedWork W2367539183 @default.

• next