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Home » Volume 27, 2012 » Issue No. 5
PAPER PHYSICS
Determinations of bubble size distribution of foam-fibre mixture using circular hough transform
Timo Lappalainen and Jani Lehmonen
Abstract
The aim of our work is to broaden the current knowledge of foam-fibre systems. This article focuses on the determination of the bubble size distribution (BSD) of foam containing cellulose fibres. It is well known that BSD has a powerful effect on a wide range of foam properties. The Circular Hough Transform was used in this study as the pattern recognition algorithm, in conjunction with a non-biased rule for sampling partially visible bubbles in an image. This algorithm is suitable for wet foams with almost spherical bubbles. We used a cuvette, with an internal diameter of 1.6 mm, for foam collection. We showed that images of the foam must be acquired within 30 s of collection of the foam sample and that bubbles with a radius larger than 25 Ám can be recognised with this technique. The number of images needed to estimate the BSD of wet foam was four i.e. the diameters of 400-800 bubbles per trial point were measured. The Sauter mean radius r[3,2] was used for characterising the BSD of foam. We tested our method using several sets of images. Quantitative determination of the BSD of foam-fibre mixture is possible using the measurement and image analysis method developed in this study. This method can also be used to study foams created using different combinations of surfactants, fibres and additives.
Keywords
Aqueous foam, Bubble size distribution, Circular hough transform, Foam-fibre mixture, Sodium dodecyl sulphate
Pages
930-939
Full text
PDF Document N2012-27-05-p930-939-Lappalainen.pdf (1552KB)
Determinations of bubble size distribution of foam-fibre mixture using circular hough transform (2012-27-05-p930-939-Lappalainen.pdf)