[Attari, J., and Zarrati, A.R., 1997. The effect of nappe impact angle on aerator performance. 27th IAHR Congress, San Francisco, USA.]Search in Google Scholar
[Bhosekar, V. V., Jothiprakash, V. Y., and Deolaikar, P. B., 2012. Orifice Spillway Aerator: Hydraulic Design, Journal of Hydraulic Engineering, 138(6), 563–57210.1061/(ASCE)HY.1943-7900.0000548]Search in Google Scholar
[Chanson, H., 1989. Flow downstream of an aerator. Aerator spacing. Journal of Hydraulic Research, IAHR, Vol. 27, No. 4, pp. 519-536.10.1080/00221688909499127]Search in Google Scholar
[Chanson, H., 1991. Aeration of a free jet above a spillway. Journal of Hydraulic Research, IAHR, Vol. 29, No. 5, pp. 665-667 & Vol. 29, No. 6, p. 864.10.1080/00221689109498982]Search in Google Scholar
[Chanson, H., 1994. Aeration and deaeration at bottom aeration devices on spillway. Canadian Journal of Civil Engineering. 21, pp. 404-409.10.1139/l94-044]Search in Google Scholar
[Ervine, D.A., and Khan, A.R., 1991. Turbulence measurements in an air-slot ramp aerator. 24th Congress of IAHR, Madrid, Spain, Vol. C, pp.73-79.]Search in Google Scholar
[Ervine, D.A., Falvey, H.T. and Khan, A.R., 1995. Turbulence flow structure and air uptake at aerators. International Journal on Hydropower & Dams, Vol. 2, Issue 5, pp. 90-95.]Search in Google Scholar
[Falvey, H.T., 1990. Cavitation in chutes and spillways. USBR Engineering Monograph, No. 42, Denver, Colorado, USA, 160 pages.]Search in Google Scholar
[Glazov, A.T., 1984. Calculation of the air-capturing ability of flow behind an aerator Ledge. Gidrotekhnicheskoe Stroitel’stvo, No. 11, Nov., pp. 37-39 (Hydro technical Construction, 1985, Plenum Publ., pp. 554-558).10.1007/BF01424533]Search in Google Scholar
[Kenn, M. J. and Garrod, A. D., 1981. Cavitation Damage and Tarbela Tunnel collapse of 1974. Proc ICE, Part 1, Vol 70, February, pp 65-89.10.1680/iicep.1981.1958]Search in Google Scholar
[Kavianpour, M., Toloui, A., and al-Mu’zsoumi, A.S., 2002. Evaluation of pressure fluctuations in downstream of aerator in lower tunnels of dams with circular sections. National Conference on National Hydroelectric Power Plants, June 6 and 7, Tehran.]Search in Google Scholar
[May, R.W.P, Brown, P.M. and Willoughby, I.R., 1991. Physical and numerical modeling of aerators for dam spillways. Hydraulics Research Report, No. SR 278, Wallingford, U.K.]Search in Google Scholar
[Manafpour, M., 2004. Effects of Air Injection on the Flow Immediately Downstream of Deflectors on Spillways. Ph.D. Thesis, UMIST, Manchester University, UK.]Search in Google Scholar
[Narayanan, R., Manafpour, M. and Kavianpour, R., 2000. Wall pressure Field in the reattaching flow past deflectors, part 2: with air injection. Journal of water & maritime Engineering, 48 issue, p.39-45.10.1680/wame.2001.148.1.39]Search in Google Scholar
[Peterka, A.J., 1953. The effect of entrained air on cavitation pitting. Joint Meeting Paper, IAHR/ASCE, Minneapolis, Minnesota, Aug., pp. 507-518.]Search in Google Scholar
[Pinto, N.L., and de S., 1991. Prototype aerator measurements. IAHR Hydraulic Structures Design Manual No. 4, Ed. I.R.]Search in Google Scholar
[Wood, I.R., 1991. Air entrainment in free-surface flows. IAHR Hydraulic Structures Design Manual No.4, Hydraulic Design Considerations, Balkema publ., Rotterdam, The Netherlands, 149 pages.]Search in Google Scholar
[Weller, H. G., Jasak, H., and Fureby, C., 1998. A tensorial approach to computational continuum mechanics using object-oriented techniques. Journal of Computational Physics, 12 (6), pp. 620–631.10.1063/1.168744]Search in Google Scholar
[Wu, J., Ma, F., and Dai, H.C., 2011. Influence of Filling Water on Air Concentration, Journal of Hydrodynamics, 23(5), 601-606.10.1016/S1001-6058(10)60155-2]Search in Google Scholar
[Zarrati, A.R. and Hardwick, J.D., 1995. Mathematical modeling of deaeration zone downstream of aerators. 26th Congress of IAHR, London, U.K., Vol. 2, pp. 220-225.]Search in Google Scholar
[Zhang, JM, Chen JG, Xu WL., 2011. Three-dimensional numerical simulation of aerated flows downstream sudden fall aerator expansion in a tunnel. Journal of Hydrodynamics. 23(1): 71–80.10.1016/S1001-6058(10)60090-X]Search in Google Scholar
[Deng, J., Xu, W. L., Lei, J., and Diao, M. J., 2005. Numerical simulation of hydraulic characteristics of high head spillway tunnel, Chinese Journal of Hydraulic Engineering, 36(10), 1209–1212. (in Chinese).]Search in Google Scholar
[Jothiprakash, V. Y., Bhosekar, V. V., and Deolaikar, P. B., 2015. Flow characteristics of orifice spillway aerator: Numerical model studies,” ISH Journal of Hydraulic Engineering, 21(2), 216–230.10.1080/09715010.2015.1007093]Search in Google Scholar
[Kökpınar, M. A., and Göğüş, M., 2002. High-speed jet flows over spillway aerators, Canadian Journal of Civil Engineering, 29(6), 885–898. doi: 10.1139/l02-088, 2002.10.1139/l02-0882002]Open DOISearch in Google Scholar
[Liu, T., and Yang, J., 2014. Three-dimensional computations of water–air flow in a bottom spillway during gate opening, Engineering Applications of Computational Fluid Mechanics, 8(1), 104–115.10.1080/19942060.2014.11015501]Search in Google Scholar
[Rahimzadeh, H., Maghsoodi, R., Sarkardeh, H., and Tavakkol, S., 2012. Simulating flow over circular spillways by using different turbulence models, Engineering Applications of Computational Fluid Mechanics, 6(1), 100–109, 2012.10.1080/19942060.2012.11015406]Search in Google Scholar
[Aydin, M. C. and Ozturk, M., 2009. Verification and validation of a computational fluid dynamics (CFD) model for air entrainment at spillway aerators, Canadian Journal of Civil Engineering, 36(5), 826–836. doi: 10.1139/L09-017.10.1139/L09-017]Open DOISearch in Google Scholar
[Zhang, J. M., Chen, J. G., and Xu, W. L., 2011. Three-dimensional numerical simulation of aerated flows downstream sudden fall aerator expansion-in a tunnel, Journal of Hydrodynamics, Ser. B, 23(1), 71–80. doi: 10.1016/S1001-6058(10)60090,2011.10.1016/S1001-6058(10)600902011]Open DOISearch in Google Scholar
[Zhang, X. D., 2004. Three dimensional numerical simulation of high velocity flow in spillway tunnels, [Ph.D. thesis], China Institute of Water Resources and Hydropower, Beijing, China.]Search in Google Scholar
[Zhang, H. W., Liu, Z. P., Zhang, D., and Wu, Y. H., 2008. Numerical simulation of aerated high velocity flow downstream of an aerator, Journal of Hydraulic Engineering, vol. 39, no. 12, pp. 1302–1308, 2008.]Search in Google Scholar