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Abstract A gas turbine contains many rl:ctnll[’;ulur ducts for con- veYlng all’ and gases. It i~; t11c’l’c’fore requirnd to irlvc the behaviour and charactE?ri”ilics of the flow in rectanGular jets,which has ciir”ct; l’C’JUvilnce to the prob _ lem of flovl in gas turbine blaclil1f’ In the present work”an invl’ iOl! of’ the: T](,ilr rfTJon of a rectanguJ.ar jet ( long sl at ) i.” made both expe:r irn(’n _ tally and theoretically. A prediction procedure for two-cijrnc’tlsiol1,,nl boundary-l8.yer is presented the Co.lculation,for Given inJ’oITI;Hion about the (;Xperlrnen- tal c ondi t ions, of some intere st inr; propert ie s of the flow such as velocity distribusions Dnd bound:Jl’,v-l a,’y’c;l’ lllic:}: _ nesses. Velocity measurrnents o.re tnken within the [’jr::;t ];)0 nozzle widths of incompressible: tUI’(;ul(:nt niT’ (jet L:U:JTl!’ from a uniform thicknes:3 lonf~ slot 01’ ler1{’:th to v/iclth ro.tio of 80. Since the jet deco.ys ro.pidly to [Jj-:i-syrcimetrical config- urations,the results CCln be cornp8red v/ith the finite _ difference solutions available: fOe’ round jets. Because of the non-similarity or the velocity profiles, the classical solutions are unsatisfactory. On the other hand,finite-difference solution,; with suitnblc nllXlrlr~ len¬gth models give good prediction~) of velocity dC’C:l,Y nlOlle; the axis of the jet,as well as,vc~locit,Y profilE:S and spread¬lng characterisitics of jets as:3uminrr, uniform startinr; pro¬files. The greatest need of a designer is to know,beforehand, how his projected equipment will performHis most val- uable instrument lS to’ carry ou t a prpdict ion JH’oc(;duI’t;. The provisiQll of such,an instrulrllmt is the main Gct i vi¬ty of an applied scientist. The method presented here is usc[u] to desir;ners of engineering equipments su;h as film-cooled combustion chamber walls, jet mixing devic(~ s of the chcmic al indusL ry, heat exchanger surfaces,and aircraft wings. It enables fast and accurate prediction of rectnnrr,ular ,jet center¬plane characterisitics startinr; from knowIl velocity profiles at the nozzle exit. |