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Discharge coefficient of combined rectangular-triangular weirs using soft computing models
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H. Abbaszadeh Et Al. , "Discharge coefficient of combined rectangular-triangular weirs using soft computing models," Journal of Hydraulic Structures (JHS) , vol.9, no.1, pp.98-110, 2023

Abbaszadeh, H. Et Al. 2023. Discharge coefficient of combined rectangular-triangular weirs using soft computing models. Journal of Hydraulic Structures (JHS) , vol.9, no.1 , 98-110.

Abbaszadeh, H., Norouzi, R., Süme, V., Daneshfaraz, R., & Tarinejad, R., (2023). Discharge coefficient of combined rectangular-triangular weirs using soft computing models. Journal of Hydraulic Structures (JHS) , vol.9, no.1, 98-110.

Abbaszadeh, Hamidreza Et Al. "Discharge coefficient of combined rectangular-triangular weirs using soft computing models," Journal of Hydraulic Structures (JHS) , vol.9, no.1, 98-110, 2023

Abbaszadeh, Hamidreza Et Al. "Discharge coefficient of combined rectangular-triangular weirs using soft computing models." Journal of Hydraulic Structures (JHS) , vol.9, no.1, pp.98-110, 2023

Abbaszadeh, H. Et Al. (2023) . "Discharge coefficient of combined rectangular-triangular weirs using soft computing models." Journal of Hydraulic Structures (JHS) , vol.9, no.1, pp.98-110.

@article{article, author={Hamidreza Abbaszadeh Et Al. }, title={Discharge coefficient of combined rectangular-triangular weirs using soft computing models}, journal={Journal of Hydraulic Structures (JHS)}, year=2023, pages={98-110} }