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Show 1.5 y/L \ 0.5 -- -+T • _j \ \ ^ ^1 P. ft -n « -i.-o. P?12 0 u. A y 9^ s S • ~ - _c j; JT :ftj ^ 0 ^ \ L9 ^ 6 N v V \ | ^ ^ 1 s IN I i • rs i > 1 i , 1 ! 1 ^ i ^ 1 _.. ... ' ! . i i ; i I | i 1 i - i - - - - 0.2 0.4 x/L 0.6 0.8 Fig. 12. Field of the correlation function R\2 measured by Becker and Booth (1975) for their system (illustrated in Fig. 10) of equal jets with intersecting port axes, with p\2 = -90°. The x axis here coincides with the system centieline (die intersection of die two planes of bilateral symmetry), and m e y axis is in the plane containing die port axes. Only die "right" half of the syrnmetrical field is shown, in the plane of m e port axes. Line "a" is die axis of die right jet port. The length scale L, illustrated in Fig. 10, is die distance from either port to m e point of intersection of die port axes. Adapted from Fig. 12 of Becker and Booth (1975) and shown with permission of the A.l.ChE. Journal. Note that Figs. 3-9 in die cited article are in error in that die lateral positions y/L should be multiplied by 2, and the indicated positions of die jet port axes should be shifted accordingly. /?n 0 -1 -c ]/ ' 1 / f A / J r J \ 0 0.5 (x - LX)IL Fig. 13. Variation of the correlation function R\2 along the system centreline (the x axis as defined in the caption of Fig. 12) in the experiments of Becker and Booth (1975). Values of ^2: O , 30°; • , 60°; A , 90°. The length scales L and Lx are illustrated in Fig. 10. Adapted from Fig. 13 of Becker and Booth (1975) and shown with permission of the A.l.ChE. Journal. |