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dc.contributor.authorPerry, A. E.en_US
dc.contributor.authorMarusic, I.en_US
dc.contributor.authorJones, M. B.en_US
dc.identifier.citationPerry, A. E., Marusic, I., & Jones, M. B. (1998). New evolution equations for turbulent boundary layers in arbitrary pressure gradients. Sadhana, 23(5 & 6), 443-457.en_US
dc.descriptionPermission for this item cannot be attained from the publisher and therefore the item must remain unavailable.en_US
dc.description.abstractA new approach to the classical closure problem for turbulent boundary layers is presented. This involves using the well-known mean-flow scaling laws such as Prandtl's law of the wall and the law of the wake of Coles together with the mean continuity and the mean momentum differential and integral equations. The important parameters governing the flow in the general non-equilibrium case are identified and are used for establishing a framework for closure. Initially, closure is done here empirically from the data but the framework is most suitable for applying the attached eddy hypothesis in future work. How this might be done is indicated here.en_US
dc.publisherIndian Academy of Sciencesen_US
dc.subjectclassical closure problemen_US
dc.subjectturbulent boundary layersen_US
dc.subjectattached eddy hypothesisen_US
dc.subjectarbitrary pressure gradientsen_US
dc.titleNew evolution equations for turbulent boundary layers in arbitrary pressure gradientsen_US
dc.typeJournal (Paginated)en_US
melbourne.peerreviewPeer Revieweden_US
melbourne.affiliation.departmentEngineering: Department of Mechanical and Manufacturing Engineeringen_US
melbourne.source.issue5 & 6en_US
melbourne.contributor.authorMarusic, Ivan
melbourne.contributor.authorJONES, MALCOLM
melbourne.contributor.authorPERRY, ANTHONY
melbourne.accessrightsThis item is currently not available from this repository

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