FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2796687641> ?p ?o ?g. }

• W2796687641 abstract " The enhanced axial mixing which is caused by dispersion in oscillatory flows in some mass transfer devices may limit the reactor performance. This effect has provided the motivation for the present study in which oscillatory flow dispersion in a flat channel of large aspect ratio is investigated. The rate of spreading of a uniform slug of some passive tracer has been predicted using numerical and analytical techniques and the results have been verified experimentally. The numerical approach has used a finite difference time-marching method to obtain predictions for the channel concentrations. From the results, the dispersion coefficient (D) has been evaluated for Strouhal numbers of O.O1→0.2 and for mean Reynolds numbers of O.4→2OO at Schmidt numbers (Sc) O(1O³) . It has been concluded that under these conditions D varies as stroke squared. Unless the flow is not quasi-steady (i.e. if pulsatile Reynolds number α² O(l)) D is only a weak function of frequency. These predictions for the dispersion coefficient have been in excellent agreement with those of Watson (256). It has also been concluded from the numerical study that the phase of the velocity sinusoid at the instant of injection has a critical effect upon the form of the concentration evolution. An approximate analytical technique has been developed in which weighted mean cross-channel concentrations are defined. The wall concentration is expressed approximately using a Fourier series. This procedure leads to ordinary differential equations for the axial moments. When the axial variance of mean concentration and the dispersion coefficient were computed in this way for quasi-steady flows good agreement was obtained with the numerical work. Simple opto-electronic gauges have been developed to measure mean cross-channel concentrations. The sensors have been used to obtain experimental data for the dispersion coefficient of a furrowed channel mass transfer device using slug stimulus techniques. Experimental investigations of dispersion in oscillatory flows in a flat channel using these gauges has produced values for D which are in agreement with the theoretical predictions for quasi-steady flows." @default.
• W2796687641 created "2018-04-24" @default.
• W2796687641 creator A5021999224 @default.
• W2796687641 date "1983-01-01" @default.
• W2796687641 modified "2023-09-23" @default.
• W2796687641 title "Dispersion in oscillatory flows" @default.
• W2796687641 hasPublicationYear "1983" @default.
• W2796687641 type Work @default.
• W2796687641 sameAs 2796687641 @default.
• W2796687641 citedByCount "1" @default.
• W2796687641 crossrefType "dissertation" @default.
• W2796687641 hasAuthorship W2796687641A5021999224 @default.
• W2796687641 hasConcept C120665830 @default.
• W2796687641 hasConcept C121332964 @default.
• W2796687641 hasConcept C134306372 @default.
• W2796687641 hasConcept C143575951 @default.
• W2796687641 hasConcept C155231867 @default.
• W2796687641 hasConcept C177562468 @default.
• W2796687641 hasConcept C182748727 @default.
• W2796687641 hasConcept C196558001 @default.
• W2796687641 hasConcept C207864730 @default.
• W2796687641 hasConcept C33923547 @default.
• W2796687641 hasConcept C57879066 @default.
• W2796687641 hasConceptScore W2796687641C120665830 @default.
• W2796687641 hasConceptScore W2796687641C121332964 @default.
• W2796687641 hasConceptScore W2796687641C134306372 @default.
• W2796687641 hasConceptScore W2796687641C143575951 @default.
• W2796687641 hasConceptScore W2796687641C155231867 @default.
• W2796687641 hasConceptScore W2796687641C177562468 @default.
• W2796687641 hasConceptScore W2796687641C182748727 @default.
• W2796687641 hasConceptScore W2796687641C196558001 @default.
• W2796687641 hasConceptScore W2796687641C207864730 @default.
• W2796687641 hasConceptScore W2796687641C33923547 @default.
• W2796687641 hasConceptScore W2796687641C57879066 @default.
• W2796687641 hasLocation W27966876411 @default.
• W2796687641 hasOpenAccess W2796687641 @default.
• W2796687641 hasPrimaryLocation W27966876411 @default.
• W2796687641 hasRelatedWork W1487859444 @default.
• W2796687641 hasRelatedWork W1560352019 @default.
• W2796687641 hasRelatedWork W1619360145 @default.
• W2796687641 hasRelatedWork W2009887675 @default.
• W2796687641 hasRelatedWork W2010143662 @default.
• W2796687641 hasRelatedWork W2010803903 @default.
• W2796687641 hasRelatedWork W2017001453 @default.
• W2796687641 hasRelatedWork W2024484742 @default.
• W2796687641 hasRelatedWork W2161151755 @default.
• W2796687641 hasRelatedWork W2331206367 @default.
• W2796687641 hasRelatedWork W2333191227 @default.
• W2796687641 hasRelatedWork W2517151790 @default.
• W2796687641 hasRelatedWork W2609402059 @default.
• W2796687641 hasRelatedWork W2750486952 @default.
• W2796687641 hasRelatedWork W2793818896 @default.
• W2796687641 hasRelatedWork W2797221159 @default.
• W2796687641 hasRelatedWork W2948378724 @default.
• W2796687641 hasRelatedWork W2987473978 @default.
• W2796687641 hasRelatedWork W3019362023 @default.
• W2796687641 hasRelatedWork W790963800 @default.
• W2796687641 isParatext "false" @default.
• W2796687641 isRetracted "false" @default.
• W2796687641 magId "2796687641" @default.
• W2796687641 workType "dissertation" @default.