Assessment of Water Measurements in an Irrigation Canal System Based on Experimental Data and the CFD Model

Assessment of Water Measurements in an Irrigation Canal System Based on Experimental Data and the CFD Model

Due to their convenience, water measuring structures have become an important means of measuring water in irrigation canal systems However, relevant research on upstream and downstream water-depth monitoring point locations is scarce. Our study aims to determine the functional relationship between t...

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Détails bibliographiques
Auteurs principaux: Hu Xu, Zhenhua Wang, Wenhao Li, Qiuliang Wang
Format: article
Langue:EN
Publié: MDPI AG 2021
Sujets:
specific location for measuring
simulation and field test
irrigation canal system
measurement accuracy
flow rate correction coefficient
Hydraulic engineering
TC1-978
Water supply for domestic and industrial purposes
TD201-500
Accès en ligne:https://doaj.org/article/474982c276b04cddb8d25931775c741c
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Résumé:Due to their convenience, water measuring structures have become an important means of measuring water in irrigation canal systems However, relevant research on upstream and downstream water-depth monitoring point locations is scarce. Our study aims to determine the functional relationship between the locations of the water-depth monitoring points and the opening width of the sluice. We established 14 trunk-channel and branch-channel hydrodynamic models. The locations of the water-depth monitoring points for the upstream and downstream reaches and their hydraulic characteristics were assessed using a numerical simulation and hydraulic test. The results showed that the locations of the upstream and downstream water-depth monitoring points were, respectively, 16.26 and 15.51 times the width of the sluice. The average error between the calculated flow rate and the simulated value was 14.37%; the average error between the flow rates calculated by the modified and the simulated values was 3.36%. To further verify the accuracy of the modified discharge calculation formula, by comparing the measured values, we reduced the average error of the modified formula by 19.29% compared with the standard formula. This research provides new insights into optimizing water measurements in irrigation canal systems. The results provide an engineering basis for the site selection of water-depth monitoring points that is suitable to be widely applied in the field.

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