References
Butcher, M. R.; Button, B. L.; Wright, C. C. 1984: A comparison of preliminary measurements of mass and heat transfer made in a tube. 11th Ann. Res. Meeting Inst. Chem. Engrs, pp. 153–158, School of Chem. Eng., University of Bath, 9-10th April
Button, B. L.; Mohamad, T. T. 1983: Experimental techniques to determine the convective heat transfer coefficients for flat and curved surfaces. High temperature technology, pp. 163–170, February
Hay, N.; Lampard, D.; Saluja, C. L. 1982: Application of the swollen polymer technique to the study of heat transfer on film cooled surfaces. Proc. Seventh Int. Heat Transfer Conf., 4, Paper MT9, pp. 503–508
Hyne, N. G.; Macleod, N. 1984: The use of electronic speckle pattern interferometry for convective mass transfer measurements: studies of transfer due to a turbulent air jet impinging on a plain surface. 11th Ann. Res. Meeting Inst. Chem. Engrs, pp. 147–152, School of Chem. Eng., University of Bath, 9–10th April
Kapur, D. N.; Macleod, N. 1974: The determination of local mass transfer coefficients by holographic interferometry. 1: General principles: Their application and verification for mass transfer measurements at a flat plate exposed to a laminar round airjet. Int. J. Heat Mass Transfer 17, pp. 1152–1162
Macleod, N.; Kapur, D. N. 1973: A kinematically designed mount for the precise location of specimens for holographic interferometry. J. Phys. E: Sci. Instrum. 6, p. 423
Macleod, N.; Todd, R. B. 1973: The experimental determination of wall-fluid mass transfer coefficients using plasticised polymer surface coatings. Int. J. Heat Mass Transfer 18, pp. 485–504
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Button, B.L., Dobbins, B.N. Interferometry for in situ mass transfer measurements in a wind tunnel. Experiments in Fluids 2, 203 (1984). https://doi.org/10.1007/BF00571866
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DOI: https://doi.org/10.1007/BF00571866