منابع
1) صفرزاده ا. و صالحی نیشابوری ع.ا . 1387. مطالعه هیدروپویاییی الگوی جریان آشفته و پدیده انتقال مواد معلق در رودخانه کارون با استفاده از نمونه عددی دو بعدی، سومین کنفرانس مدیریت منابع آب ایران، دانشگاه تبریز.
2) عباسی ع.ا . 1382 . مطالعه آزمایشگاهی تنظیم مواد معلق در آبگیرهای جانبی در مسیرهای مستقیم، رساله دکتری، دانشگاه تربیت مدرس، دانشکده فنی و مهندسی عمران.
3) Baghalian, S., Bonakdari, H., Nazari, F., and Fazli, M. 2012. Closed-form solution for flow field in curved channels in comparison with experimental and numerical analyses and artificial neural network. Engineering Applications of Computational Fluid Mechanics 6(4): 514-526.
4) Brakdoll, B.D. and Ettema R.O. 1999. Sediment control at lateral diversions: limits and enhancements to vane Use. J.Hydraul. Eng. ASCE 129(2): 83-87.
5) Bilhan, O., Emiroglu, M. E., and Kisi, O. 2011. Use of artificial neural networks for prediction of discharge coefficient of triangular labyrinth side weir in curved channels. Advances in Engineering Software 42(4): 208-214
6) Bonakdari, H., Baghalian, S., Nazari, F., and Fazti, M. 2011. Numerical analysis and prediction of the velocity field in curved open channel using artificial neural network and genetic algorithm. Engineering Applications of Computational Fluid Mechanics 5(3): 384-396.
7) Dursun, O.F., Kaya, N., and Firat, M. 2012. Estimating discharge coefficient of semi-elliptical side weir using ANFIS. Journal of Hydrology 426: 55-62.
8) Ebtehaj, I., and Bonakdari, H. 2013. Evaluation of sediment transport in sewer using artificial neural network.
9) Engineering Applications of Computational Fluid Mechanics 7(3): 382-392.
10) Issa, R, I., and Oliveira, P. J. (1944). Numerical prediction of phase separation in tow-phase flow through t-junction. Comp. and Fluids 23(2): 347-372.
11) Kasthuri, B., and Pundarikanthan, N.V. 1987. Discussion of separation zone at open channel junction'. Journal of hydraulic Engineering113(4):543-544.
12) Kim, B., Lee, S.E., Song, M.Y., Choi, J.H., Ahn, S.M., Lee, K.S., et al. 2008. Implementation of artificial neural networks (ANNs) to analysis of inter-taxa communities of benthic microorganisms and macro invertebrates in a polluted stream. Sci Total Environ 390:262-274.
13) Kisi, O. 2005. Suspended sediment estimation using neuro-fuzzy and neural network approaches. Hydrol. Sci. J 50(4):683-696.
14) Kisi, O. 2008. River flow forecasting and estimation using different artificial neural network techniques. Hydrology Research 39(1):27-40.
15) Kisi, O., Emiroglu, M.E., Bilhan, O., and Guven, A. 2012. Prediction of lateral outflow over triangular labyrinth side weirs under subcritical conditions using soft computing approaches. Expert Systems with Applications 39: 3454–3460.
16) Melesse, A., Ahmad, S., McClain, M., Wang, X., and Lim, Y. 2011. Suspended sediment load prediction of river systems: An artificial neural .network approach. Agricultural Water Management 98(5): 855-866.
17) Murthy, K.K., and Shettar, A.S. 1996. A Numerical study of division of flow in open channel, J. Hydr. Res 34 (5): 651-675.
18) Nakato, T. 1992. A hydraulic model study: Design of sediment-control devices for the intakes near river IIHR limited Distribution Rep. No. 194, Iowa Institute of Hydraulic Research, Iowa City, Iowa.
19) Neary, V.S., Odgaard, A.J. 1993. Three-dimensional flow structure at open channel diversions. Journal of Hydraulic Engineering 119(11):1224-1230.
20) Olsen, N.B.R. 2006. A three-dimensional numerical model for simulation of sediment movements in water intakes withmoltiblock option. Department of Hydraulic and Environmental Engineering, the Norwegian University of Science and Technology.
21) Raudkivi, A. J. 1993. Sedimentation exclusion and removal of sediment from diverted water. IAHR. AIRH. Hydraulics Structures.
22) Ramamurthy, A.S., junying qu and diep VO. 2007. Numerical and experimental study of dividing open-channels flows. Journal of Hydraulic Engineering 130(10): 1135-1144.
23) Smith, M. 1993. Neural networks for statistical modelling, Thomson Learning.
24) Taylor, E. 1944. Flow characteristics at rectangular open channel junction, Journal of Hydraulic Engineering 10(6):893-902.
25) Wilcox, D. C. 2000. Turbulence modeling for CFD, 2nd Ed., DCW Industries, Inc.