FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3094311145> ?p ?o ?g. }

• W3094311145 endingPage "117853" @default.
• W3094311145 startingPage "117853" @default.
• W3094311145 abstract "Coalescence filtration is a mechanical filtration process, which is used for the removal of liquid droplets from a gas stream. A numerical model is proposed using an Euler-Euler multi-phase formulation to model the macro-scale filtration process. The model is implemented for a 2D case using the commercial CFD software ANSYS© CFX. The capture of the dispersed phase is modelled using the penetration approach for single fiber capture efficiency which is extrapolated to multiple fibers, resulting in an exponentially-decaying interpolation scheme. To model the flow of gas through the dry filter, an empirical pressure-drop correlation is developed based on fiber-scale flow simulations for varied flow parameters. For the fiber-scale simulations, three-dimensional fibers are generated with random position, thickness and orientation using algorithms developed in house, ensuring that all fibers remain in the filter bed and that the fibers do not intersect. The correlation is extended to a wet filter by adapting the correlation parameters, with the assumption that the oil completely wets the fibers and results in a homogeneous increase in net packing density. The local velocity of the fiber-wetting oil is estimated analytically using the local oil saturation and gas velocity using a thin-film approach, taking into account the effect of the mean fiber orientation (determined using three-dimensional micro-CT scans) on the absorbed oil residence time in the filter bed. An analytical model is used to approximate the thickness of the oil film formed at the back of the filter surface and the pressure drop caused by the gas flow through it. Both steady-state and transient simulations are run and validated against measurement data provided by the Institute for Energy and Environmental Technology (IUTA), Germany. The steady-state pressure drop and oil-saturation predictions from the simulations follow the same trend as the experimental data albeit showing a stronger influence on air flow velocity. The transient simulations show the expected three-stage process with an initial gradual increase of the pressure drop, followed by a drastic increase, and finally, an approach to an equilibrium state." @default.
• W3094311145 created "2020-10-29" @default.
• W3094311145 creator A5007067118 @default.
• W3094311145 creator A5078973996 @default.
• W3094311145 creator A5088689060 @default.
• W3094311145 date "2021-02-01" @default.
• W3094311145 modified "2023-09-27" @default.
• W3094311145 title "Numerical investigation of coalescence filtration: Multiphase flow through fibrous structures" @default.
• W3094311145 cites W1970431487 @default.
• W3094311145 cites W1975769472 @default.
• W3094311145 cites W1977153802 @default.
• W3094311145 cites W1978585816 @default.
• W3094311145 cites W2000751925 @default.
• W3094311145 cites W2000754396 @default.
• W3094311145 cites W2051577899 @default.
• W3094311145 cites W2068480191 @default.
• W3094311145 cites W2086787196 @default.
• W3094311145 cites W2147287332 @default.
• W3094311145 cites W2596325415 @default.
• W3094311145 cites W2911237378 @default.
• W3094311145 cites W2918509295 @default.
• W3094311145 doi "https://doi.org/10.1016/j.seppur.2020.117853" @default.
• W3094311145 hasPublicationYear "2021" @default.
• W3094311145 type Work @default.
• W3094311145 sameAs 3094311145 @default.
• W3094311145 citedByCount "3" @default.
• W3094311145 countsByYear W30943111452021 @default.
• W3094311145 countsByYear W30943111452022 @default.
• W3094311145 crossrefType "journal-article" @default.
• W3094311145 hasAuthorship W3094311145A5007067118 @default.
• W3094311145 hasAuthorship W3094311145A5078973996 @default.
• W3094311145 hasAuthorship W3094311145A5088689060 @default.
• W3094311145 hasConcept C105795698 @default.
• W3094311145 hasConcept C114088122 @default.
• W3094311145 hasConcept C121332964 @default.
• W3094311145 hasConcept C128489963 @default.
• W3094311145 hasConcept C149792144 @default.
• W3094311145 hasConcept C157915830 @default.
• W3094311145 hasConcept C159985019 @default.
• W3094311145 hasConcept C192562407 @default.
• W3094311145 hasConcept C2779379648 @default.
• W3094311145 hasConcept C33923547 @default.
• W3094311145 hasConcept C57879066 @default.
• W3094311145 hasConcept C87355193 @default.
• W3094311145 hasConceptScore W3094311145C105795698 @default.
• W3094311145 hasConceptScore W3094311145C114088122 @default.
• W3094311145 hasConceptScore W3094311145C121332964 @default.
• W3094311145 hasConceptScore W3094311145C128489963 @default.
• W3094311145 hasConceptScore W3094311145C149792144 @default.
• W3094311145 hasConceptScore W3094311145C157915830 @default.
• W3094311145 hasConceptScore W3094311145C159985019 @default.
• W3094311145 hasConceptScore W3094311145C192562407 @default.
• W3094311145 hasConceptScore W3094311145C2779379648 @default.
• W3094311145 hasConceptScore W3094311145C33923547 @default.
• W3094311145 hasConceptScore W3094311145C57879066 @default.
• W3094311145 hasConceptScore W3094311145C87355193 @default.
• W3094311145 hasLocation W30943111451 @default.
• W3094311145 hasOpenAccess W3094311145 @default.
• W3094311145 hasPrimaryLocation W30943111451 @default.
• W3094311145 hasRelatedWork W1778513530 @default.
• W3094311145 hasRelatedWork W2004583092 @default.
• W3094311145 hasRelatedWork W2087292426 @default.
• W3094311145 hasRelatedWork W2153429450 @default.
• W3094311145 hasRelatedWork W2377651938 @default.
• W3094311145 hasRelatedWork W2391668690 @default.
• W3094311145 hasRelatedWork W2508322618 @default.
• W3094311145 hasRelatedWork W2696719615 @default.
• W3094311145 hasRelatedWork W2912141714 @default.
• W3094311145 hasRelatedWork W2616535767 @default.
• W3094311145 hasVolume "257" @default.
• W3094311145 isParatext "false" @default.
• W3094311145 isRetracted "false" @default.
• W3094311145 magId "3094311145" @default.
• W3094311145 workType "article" @default.