Predicting discharge capacity of triangular labyrinth side weir located on a straight channel by using an adaptive neuro-fuzzy technique
Author:
Publisher
Elsevier BV
Subject
General Engineering,Software
Reference32 articles.
1. A theoretical consideration of side weirs as storm water overflows;Ackers;Proc Ice, London,1957
2. Side weir flow in curved channels;Agaccioglu;J Irrigat Drain Eng,1998
3. A study of spatial variation of discharge coefficient in broad-crested inclined side weirs;Aghayari;Irrigat Drain,2009
4. Monthly dam inflow forecasts using weather forecasting information and neuro-fuzzy technique;Bae;Hydrol Sci J,2007
5. Discaharge coefficient for sharp-crested side weir in subcritical flow;Borghei;J Hydraul Eng,1999
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