SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4295539717> ?p ?o ?g. }

Showing items 1 to 100 of ±125 with 100 items per page.

W4295539717 endingPage "104250" @default.
W4295539717 startingPage "104250" @default.
W4295539717 abstract "The rising trajectory of bubbles subjected to shear-induced lift force in a vertical channel is of great interest for designing and optimising a variety of electrochemical equipment. In this work, the rising trajectory of a spherical microbubble with a diameter of 0.3-1.0mm in a vertical channel with a fully developed laminar flow is investigated experimentally. Subsequently, the lift and drag forces on the bubble are assessed. Due to the limitation of the existing correlations for lift force coefficient, a new correlation is developed, which can be used to estimate the trajectory of a bubble in a vertical channel. The effect of flow velocity gradient and bubble diameter on the bubble motion is discussed to control bubble rising trajectory. It is concluded that the lift coefficient for a spherical microbubble in vertical channels with a fully developed laminar flow is slightly higher than the reported shear lift coefficient for larger bubbles rising in a high viscous liquid." @default.
W4295539717 created "2022-09-14" @default.
W4295539717 creator A5017143648 @default.
W4295539717 creator A5034603992 @default.
W4295539717 creator A5036535029 @default.
W4295539717 creator A5058564296 @default.
W4295539717 date "2022-12-01" @default.
W4295539717 modified "2023-10-16" @default.
W4295539717 title "Trajectory of a spherical bubble rising in a fully developed laminar flow" @default.
W4295539717 cites W1977880854 @default.
W4295539717 cites W1984831096 @default.
W4295539717 cites W1992567861 @default.
W4295539717 cites W2000108132 @default.
W4295539717 cites W2004560514 @default.
W4295539717 cites W2010455688 @default.
W4295539717 cites W2023677593 @default.
W4295539717 cites W2039697291 @default.
W4295539717 cites W2040376141 @default.
W4295539717 cites W2046135488 @default.
W4295539717 cites W2049524580 @default.
W4295539717 cites W2056010792 @default.
W4295539717 cites W2058833885 @default.
W4295539717 cites W2060563232 @default.
W4295539717 cites W2068148048 @default.
W4295539717 cites W2076896268 @default.
W4295539717 cites W2097606254 @default.
W4295539717 cites W2099788390 @default.
W4295539717 cites W2103080979 @default.
W4295539717 cites W2113430850 @default.
W4295539717 cites W2132145594 @default.
W4295539717 cites W2134178153 @default.
W4295539717 cites W2139361398 @default.
W4295539717 cites W2141333428 @default.
W4295539717 cites W2147920823 @default.
W4295539717 cites W2156231221 @default.
W4295539717 cites W2163290148 @default.
W4295539717 cites W2164944168 @default.
W4295539717 cites W2169625305 @default.
W4295539717 cites W2312819658 @default.
W4295539717 cites W2324402797 @default.
W4295539717 cites W2467386597 @default.
W4295539717 cites W2589079979 @default.
W4295539717 cites W2590775101 @default.
W4295539717 cites W2603695945 @default.
W4295539717 cites W2731429823 @default.
W4295539717 cites W2763386419 @default.
W4295539717 cites W2769191683 @default.
W4295539717 cites W2789579067 @default.
W4295539717 cites W2809107294 @default.
W4295539717 cites W2969832256 @default.
W4295539717 cites W2990485788 @default.
W4295539717 cites W3004054126 @default.
W4295539717 cites W3007472167 @default.
W4295539717 cites W3039120047 @default.
W4295539717 cites W3135513766 @default.
W4295539717 cites W3172557238 @default.
W4295539717 cites W3197632665 @default.
W4295539717 cites W3205460142 @default.
W4295539717 cites W4232427878 @default.
W4295539717 cites W4376595451 @default.
W4295539717 cites W3006517931 @default.
W4295539717 cites W3150413958 @default.
W4295539717 doi "https://doi.org/10.1016/j.ijmultiphaseflow.2022.104250" @default.
W4295539717 hasPublicationYear "2022" @default.
W4295539717 type Work @default.
W4295539717 citedByCount "2" @default.
W4295539717 countsByYear W42955397172023 @default.
W4295539717 crossrefType "journal-article" @default.
W4295539717 hasAuthorship W4295539717A5017143648 @default.
W4295539717 hasAuthorship W4295539717A5034603992 @default.
W4295539717 hasAuthorship W4295539717A5036535029 @default.
W4295539717 hasAuthorship W4295539717A5058564296 @default.
W4295539717 hasConcept C107157880 @default.
W4295539717 hasConcept C121332964 @default.
W4295539717 hasConcept C124101348 @default.
W4295539717 hasConcept C1276947 @default.
W4295539717 hasConcept C135768490 @default.
W4295539717 hasConcept C13662910 @default.
W4295539717 hasConcept C139002025 @default.
W4295539717 hasConcept C150486481 @default.
W4295539717 hasConcept C157915830 @default.
W4295539717 hasConcept C182748727 @default.
W4295539717 hasConcept C192562407 @default.
W4295539717 hasConcept C196558001 @default.
W4295539717 hasConcept C41008148 @default.
W4295539717 hasConcept C57879066 @default.
W4295539717 hasConcept C72117827 @default.
W4295539717 hasConcept C72921944 @default.
W4295539717 hasConcept C76563973 @default.
W4295539717 hasConceptScore W4295539717C107157880 @default.
W4295539717 hasConceptScore W4295539717C121332964 @default.
W4295539717 hasConceptScore W4295539717C124101348 @default.
W4295539717 hasConceptScore W4295539717C1276947 @default.
W4295539717 hasConceptScore W4295539717C135768490 @default.
W4295539717 hasConceptScore W4295539717C13662910 @default.
W4295539717 hasConceptScore W4295539717C139002025 @default.
W4295539717 hasConceptScore W4295539717C150486481 @default.
W4295539717 hasConceptScore W4295539717C157915830 @default.