Experimental Study on the Placement of the Angle and the Distance of Parallel Skimming Walls to Reduce Inlet Sediment in a Lateral Intake

Abbasi, A.A. - Nejad-yazdi, M.M. (2014)The impact of sill and submerged vanes on sediment laden flow at lateral intake. Journal of Irrigation and Water Engineering, 16, pp. 106-117.Search in Google Scholar

Atarzadeh, A. - Ayyoubzadeh, S. A. - Ghodsian, M. - Salehi–Neishabouri, A. (2014)Experimental Study of the Effect of Sill, Spur Dike and Submerged Vanes on Sediment Control and Bed Topography at Lateral Intakes. Modares Civil Eng. J. (M.C.E.J). 14(2), pp. 27 – 38 (In Persian).Search in Google Scholar

Barkdoll, B. D. - Hagen, B. L. - Odgaard, A. J. (1995)Sediment exclusion at hydropower intakes using submerged vanes. Proceedings of Waterpower. ASCE, 1(1), pp. 892-908.Search in Google Scholar

Barkdoll, B. D. - Ettema, R. - Thou, J. (1997)Sediment Control at Riverside Water Intakes. Proc. of the International Joint Power Generation Conference, Denver, CO, U.S.A., pp. 227-232.Search in Google Scholar

Barkdoll, D. - Ettema, R. - Odgaard. A.J. (1999)Sediment control at lateral diversions: limits and enhancement to vane use. Journal of Hydraulic Engineering, 125(8).10.1061/(ASCE)0733-9429(1999)125:8(862)Search in Google Scholar

Ghohari, S. - Ayyoubzadeh, S. A. - Ghodsian, M. - Salehi-Neishabouri, A. (2009) The Impact of Spur Dike and Submerged Vanes on Sediment Control at Lateral Intake. J. Water Soil Conserv, 16(2), pp. 35-59 (in Persian)Search in Google Scholar

Hashid, M. - Hussain, A. - Ahmad, Z. (2015)Discharge Characteristics of Lateral Circular Intakes in Open Channel Flow. Flow Measurement and Instrumentation 46, part A, pp. 87 – 92.10.1016/j.flowmeasinst.2015.10.005Search in Google Scholar

Hassanpour, F. (2007)Performance Evaluation of Lateral Intakes in the Presence of Compound Submerged Vanes and Sill. Doctoral Dissertation, Tarbiat Modares University, Tehran, Iran.Search in Google Scholar

Herreero, A. - Bateman, A. - Medina, V. (2015)Water Flow and Sediment Transport in a 90 Degree Channel Diversion: an Experimental Study. Journal of Hydraulic Research, 53(2), pp. 253-263.10.1080/00221686.2014.989457Search in Google Scholar

Jafari-Mianaei, S. - Ayyoubzadeh, S. A. (2014)Experimental Investigation of the Effect of Inclined Main Channel Wall on the Amount of Delivered Sediment into the Lateral Intake With / Without Submerged Vanes. Iranian Journal of Irrigation & Drainage, 4(7), pp. 521-534.Search in Google Scholar

Khanjani, M. J. - Barani, G. A. - Rahmanian M. R. - Sajedi, M. (1999)Investigation of Submerged Vanes Array for Sediment Control at Intake Using a Physical Model. JCME, 18(2), pp. 179-189Search in Google Scholar

Moradinejad, A. - Haghiabi, A. H. - Saneie, M. - Yonesi, H. (2017)Investigating the Effect of Skimming Wall on Controlling the Sediment Entrance at Lateral Intakes. Water Science & Technology, Water Supply, 17(4), pp. 1121-1132.10.2166/ws.2017.007Search in Google Scholar

Nakato, T. - Odgen, F. L. (1998)Sediment Control at Water Intakes along Sand Bed Rivers. Journal of Hydraulic Engineering, ASCE, 116(1), pp. 119-128.10.1061/(ASCE)0733-9429(1998)124:6(589)Search in Google Scholar

Nakato, T. - Kennedy, J. F. - Bauerly, D. (1990)Pump – station Intake – shoaling control with submerged vanes. Journal of Hydraulic Engineering, ASCE, 116(1), pp. 119-128.10.1061/(ASCE)0733-9429(1990)116:1(119)Search in Google Scholar

Neary, V. S. - Odgaard, A. J. (1993)Three-dimensional flow structure at open channel diversions. J. Hydr. Eng., ASCE, 119(11), pp. 1224–1230.10.1061/(ASCE)0733-9429(1993)119:11(1223)Search in Google Scholar

Odgaard, A. J. - Wang, Y. (1991)Sediment management with submerged vanes I. theory. Hydraulic Engineering, 117 (3), pp. 267-283.10.1061/(ASCE)0733-9429(1991)117:3(267)Search in Google Scholar

Ramamurthy, A. S. - Junying, Q. - Diep, V. (2007)Numerical and Experimental Study of Dividing Open – Channel Flows. J. Hydraul. Eng – ASCE, 133(10), pp. 1135-1144.10.1061/(ASCE)0733-9429(2007)133:10(1135)Search in Google Scholar

Raudkivi, A. J. (1993)Sedimentation, Exclusion and Removal of Sediment from Diverted Water, IAHR, Hydraulic Structures, Design Manual, pp. 63-87.Search in Google Scholar

Rezabandloo, M. (2017)Experimental Investigation of Application of Skimming Wall for Controlling the Inlet Sediment to Intake of River, MSc Thesis, Faculty of Engineering, University of Science and Culture, Tehran, Iran.Search in Google Scholar

Salemnia, A. - Shafaei-Bajestan, M. (2011)Investigation on the Effect of Submerged Vanes on the Amount of Sediment Entrance of Trapezoidal Channel into the Lateral Intake by Changing the Discharge Diversion Ratio. Proceedings of the 10th Iranian Hydraulic Conference, University of Guilan, Rasht, Iran (In Persian).Search in Google Scholar

Tabrizi, H. - Haghi Abi, A. H. - Sanei, M. - Younesi, H. A. (2017) Evaluation of spur dike effect on sediment and flow hydraulic of side intakes located on channel bends. Watershed Engineering and Management, 9(3), pp. 346-359.Search in Google Scholar

Younesi, H. A. - Omid, M. H. - Kashefipour, M. (2005)Investigating the effect of longitudinal arrangement of submerged vanes in a direct channel on the bed topography, relative increase of drainage efficiency and reduction of sedimentation in the span of gravity intakes, The Science Journal of Agriculture (SJA), 27, pp. 137-150.Search in Google Scholar