ALCÂNTARA, H. M.; http://lattes.cnpq.br/5001094186593528; ALCÂNTARA, Hugo Morais de.
Résumé:
The present work has the objective of evaluating the variation of the hydraulic
resistance in alluvial channels and propose a function of total resistance. Starting from the
fundamental concept of the resistance of the surface, a function is defined in which the
variation of resistance can be associated with the characteristics of the bed form and the grain size distribution of the mixture of the sediments in the bed. The form of this function,
obtained through dimensional analysis using the technique of multiple linear regression, is
presented for unimodal and bimodal sediments associated with each channel type and mixture of sediments. Utilizing the data collected by various researchers in laboratory canals and rivers, the functional relationships for the resistance factor, here in identified as a dimensionless factor “B”, has been established utilizing three, or in a simple form, two,
dimensionless parameters as independent variables. The great advantage of the resistance function proposed here is that it eliminates the need to separate the total resistance into two components. The results show that an excellent functional relationship can be established for each bed form and mixture of sediments using three parameters. The influence of the grain size distribution of the sediments was evidenced in the case of all the bed forms and especially bimodal sediments. In the cases of natural distribution (log-normal) of sediments in the sand range, the effect on the individual grain size distributions became hardly noticeable.