An experimental study on the two-dimensional opposed wall jet in a turbulent boundary layer: Change in the flow pattern with velocity ratio

E. Tanaka; Y. Inoue; S. Yamashita

doi:10.1007/bf00203042

journal article Aug 01, 1994

An experimental study on the two-dimensional opposed wall jet in a turbulent boundary layer: Change in the flow pattern with velocity ratio

E. Tanaka Y. Inoue S. Yamashita

Experiments in Fluids Vol. 17 No. 4 pp. 238-245 · Springer Science and Business Media LLC

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References

16

[1]

Asanuma T; Yamakawa H; Hayakawa H (1970) Tandem type hot-wire flowmeter for measuring intermittent fuel flow. Journal of Society of Automotive Engineers of Japan 76: 1781–1799

[2]

Some Characteristics of Counter Flowing Wall Jets

R. Balachandar, L. Robillard, A. S. Ramamurthy

Journal of Fluids Engineering 1992 10.1115/1.2910067

[3]

Elghobashi SE; Samuelsen GS; Wuerer JE; LaRue JC (1981) Prediction and measurement of mass, heat, and momentum transport in a nonreacting turbulent flow of a jet in an opposing stream. ASME J Fluids Eng 103:127–132 10.1115/1.3240760

[4]

Haniu H; Ramaprian BR (1989) Studies on two-dimensional curved nonbuoyant jets in cross flow. ASME J Fluids Eng 111: 78–86 10.1115/1.3243603

[5]

Launder BE; Rodi W (1981) The turbulent wall jet. Progress in Aerospace Sciences 19: 81–128 10.1016/0376-0421(79)90002-2

[6]

Lee LHY; Clark JA (1980) Angled injection of jets into a turbulent boundary layer. ASME J of Fluids Eng 102: 211–218 10.1115/1.3240649

[7]

Matsumoto R; Kimoto K; Fukuwatari A (1973) A study on opposing jets in air stream and their flame (1st report, A structure of two dimensional opposing jets in the state without flames). Bulletin of the JSME 16 95: 838–850 10.1299/jsme1958.16.838

[8]

Miller DR; Comings EW (1957) Static pressure distribution in the free turbulent jet. J Fluid Mech 3: 1–16 10.1017/s0022112057000440

[9]

Mizota T (1978) A technique for measuring unsteady flow velocities in the separated region. Transactions of Japan Society of Civil Engineers 10: 77–80

[10]

Murakami S; Komine H (1978) Measurements for three components of turbulent flow with tandem hot wire probe. SEISAN-KENKYU, University of Tokyo (in Japanese) 30, 8: 295–301

[11]

Robillard L; Ramamurthy AS (1974) Experimental investigation of the vortex street generated by a plane jet in counter flow. ASME J Fluids Eng 96: 43–48 10.1115/1.3447095

[12]

Samuelsen GS; Starkman ES (1972) Analytical and experimental investigation of an ammonia/air opposed reacting jet. Combustion Science and Technology 5: 31–41 10.1080/00102207208952500

[13]

Stek JB; Brandt H (1976) Aerodynamic throttling of a two-dimensional flow by a thick jet. Aeronautical Quarterly 27: 229–242 10.1017/s0001925900007721

[14]

Thomas FO; Goldschmidt VW (1985) The possibility of a resonance mechanism in the developing two-dimensional jet. Phys Fluids 28: 3510–3514 10.1063/1.865304

[15]

Yamashita H; Wang Y (1989) Fluids flow and heat transfer in an opposed plane jet in a uniform stream (Analysis in unsteady motions). JSME International Journal Ser II 32: 231–238

[16]

Yamashita H; Wang Y; Izumi R (1987) Fluids flow and heat transfer in an opposed plane jet in a uniform stream (1st report, Experiment in unsteady motions). Trans. JSME Ser B (in Japanese) 53, 496: 3729–3736 10.1299/kikaib.53.3729

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Published: Aug 01, 1994
Vol/Issue: 17(4)
Pages: 238-245
License: View

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Cite This Article

E. Tanaka, Y. Inoue, S. Yamashita (1994). An experimental study on the two-dimensional opposed wall jet in a turbulent boundary layer: Change in the flow pattern with velocity ratio. Experiments in Fluids, 17(4), 238-245. https://doi.org/10.1007/bf00203042

An experimental study on the two-dimensional opposed wall jet in a turbulent boundary layer: Change in the flow pattern with velocity ratio

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