FORMATION OF LARGE DISTURBANCES ON SHEARED AND FALLING LIQUID FILMS
作者:
M. J. McCREADY,
H.-C. CHANG,
期刊:
Chemical Engineering Communications
(Taylor Available online 1996)
卷期:
Volume 141-142,
issue 1
页码: 347-358
ISSN:0098-6445
年代: 1996
DOI:10.1080/00986449608936423
出版商: Taylor & Francis Group
关键词: Large disturbance's;Sheared and falling liquid films
数据来源: Taylor
摘要:
The processes lhat lead to formatioh of large secondary disturbances are different for sheared channel flows and falling films largely as the result of different linear celerity and growth behavior. Close to neutral stability, sheared films usually have a band of linearly unstable wave modes with wavenumbers bounded away from 0 with a maximum growth rate at frequency ωmThese conditions have been observed to produce steady moderate wavelength waves with frequency close to ωmthat remain at small amplitude. For more severe conditions, long waves can become unstable although their growth rate is significantly lower than that at ωmand there still may be an intermediate band of stable waves. However, under some conditions, the linear dispersion relation stipulates that a low frequency unstable mode, ωmis resonant or nearly resonant with the fastest growing mode, ωm( ωt≪ ωm). Experiments suggest that this mechanism may trigger significant growth of the to, mode by feeding additional energy from the faster growing mode. This mechanism selects the frequency of the low mode and enhances its growth rate. This causes the large disturbances that eventually form to be of a particular frequency. For unstable inclined films, all the wavenumber modes less than the peak are always unstable and the possibility of resonance does not exist because the speeds do not match. Thus no specific frequency is selected. Evolution towards solitary waves, which involves a nonlinear phase-locking mechanism of all unstable modes, occurs under all conditions due to the absence of resonant energy transfer from the most unstable modes. Furthermore, there is no specific frequency selected so lhat there is no preferred separation for the solitary waves that are formed.
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