B • TURBULENT FLOW 



102. Fediaevsky, K. Turbulent boundary layer of an airfoil. NACA Tech. Mem. 822, 

 1937. Transl. Central Aero-Hydrodynam. Inst., Moscow, Rept. 282, 1936. 



103. Ross, D., and Robertson, J. M. /. A-p-pl. Phys. 21, 557-561 (1950). 



104. Granville, P. S. A method for the calculation of the turbulent boundary layer 

 in a pressure gradient. The David W. Taylor Model Basin Rept. 762, 1951. 



105. Kuethe, A. M., McKee, P. B., and Curry, W. H. Measurements in the boundary 

 layer of a yawed wing. NACA Tech. Note 1946, 1949. 



106. Ashkenas, H., and Riddell, F. R. Investigation of the turbulent boundary 

 layer on a yawed flat plate, NACA Tech. Note 3383, 1955. 



107. Young, A. D., and Booth, T. B. The profile drag of yawed wings of infinite 

 span. College of Aeronautics, Cranfield, Rept. 38, May 1950. 



108. Townsend, A. A. Proc. Roy. Sac. London A190, 551-561 (1947). 



109. Kuethe, A. M. /. Appl.Mech. 2, (3), 1935. In Trans. Am. Soc. Meek. Eng. 67, 

 A-87, A-95 (1935). 



110. Birkhoff, G., and Zarantonello, E. H. Jets, wakes, and cavities. Applied Math, 

 and Mech., Vol. 2. Academic Press, 1957. 



111. Pai, S.-I. Fluid Dynamics of Jets. Van Nostrand, 1954. 



112. Corrsin, S. Investigation of flow in an axially symmetrical heated jet of air. 

 NACA Wartime Rept. ACR 3L23, 1943. 



113. Townsend, A. A. Proc. Roy. Soc. London A190, 551-561 (1947). 



114. Townsend, A. A. Australian J. Sci. Research, Series A 1, 161-174 (1948). 



115. Townsend, A. A. Proc. Roy. Soc. London A197, 124-140 (1949). 



116. Townsend, A. A. Phil. Mag. 41, 890-906 (1950). 



117. Corrsin, S., and Kistler, A. L. The free-stream boundaries of turbulent flows. 

 NACA Rept. 1244, 1955. 



118. Klebanoff, P. S. Characteristics of turbulence in a boundary layer with zero 

 pressure gradient. NACA Tech. Note 3178, 1954. 



119. Taylor, G. I. Proc. London Math. Soc. 20, 196-212 (1921). 



120. Prandtl, L. Z. angew. Math. u. Mech. 22, 241-243 (1942). 



121. Taylor, G. I. Proc. Roy. Soc. London A136, 685-702 (1932). 



122. Hinze, J. O., and van der Hegge Zijnen, B. G. Appl. Sci. Research Al, 435-461 

 (1949). 



123. Corrsin, S., and Uberoi, M. S. Further experiments on the flow and heat 

 transfer in a heated turbulent air jet. NACA Rept. 998, 1950. 



124. Forstall, W., and Shapiro, A. H. /. Appl. Mech. 17, 399-408 (1950). In Trans. 

 Am. Soc. Mech. Eng. 72, 1950. 



125. Reichardt, H. Z. angew. Math. u. Mech. 24, 268-272 (1944). 



126. Townsend, A. A. Australian J. Sci. Research, Series A, 2, 451-468 (1949). 



127. Gortler, H. Berechnung von Aufgaben der freien Turbulenz auf Grund eines 

 neuen Naherungsansatzes. Z. angew. Math. u. Mech. 22, 244-254 (1942). 



128. Cleeves, V., and Boelter, L. M. K. Chem. Eng. Progr. 43, 123-134 (1947). 



129. Abramovich, G. N. The theory of a free jet of a compressible gas. NACA Tech. 

 Mem. 1058, 1944. Transl. Central Aero-Hydrodynam. Inst., Moscow, Rept. 377, 

 1939. 



130. Gooderum, P. B., Wood, ^G. C, and Brevoort, M., J. Investigation with an 

 interferometer of the turbulent mixing of a free supersonic jet. NACA Rept. 963, 

 1949. 



131. Tollmien, W. Calculation of turbulent expansion processes. NACA Tech. Mem. 

 1086, 1945. Transl. from Z. angew. Math. u. Mech. 6, 1926. 



132. Bershader, D., and Pai, S. I. /. Appl. Phys. 21, 616 (1950). 



133. Pai, S. I. J. Aeronaut. Sci. 16, 463-469 (1949). 



134. Keagy, W. R., and Weller, A. E. A study of freely expanding inhomogeneous 

 jets. Heat Transfer and Fluid Mech. Inst., Univ. Calif., 89-98 (1949). Am. Soc. 

 Mech. Eng., New York. 



135. Szablewski, W. Contributions to the study of the spreading of a free jet issuing 

 from a nozzle. NACA Tech. Mem. 1311, 1951. Transl. Zur Theorie der Aus- 

 breitung eines aus einer Diise austretenden freien Strahls. Untersuch. u. Mitt. Nr. 

 8003, Sept. 1944. 



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