References
- Aydin, M.C., and Ozturk, M. (2009). “Verification and validation of a computational fluid dynamics (CFD) model for air entrainment at spillway aerators.” Can. J. Civ. Eng., 36(5), 826–838.
- Bhajantri, M.R. (2007). “Numerical investigations on hydrodynamic characteristics of spillway flows.” PhD thesis, Indian Institute of Technology Bombay, Mumbai.
- Bhosekar, V.V., Jothiprakash, V., and Deolalikar, P.B. (2009). “Hydraulic design of aerators- a review.” Int. J. Dam Eng., 20(2), 117–148.
- Bhosekar V.V., Jothiprakash V., Deolalikar P.B. (2011). “Orifice spillway aerator: hydraulic design.” ASCE J. Hydraul. Eng., 137(6) 2012, 563–572.
- Bombardelli, F.A., Hirt, C.W., and García, M.H. (2001). “Discussion of computations of curved free surface water flow on spiral concentrators.” J. Hydraul. Eng. ASCE, 127(7), 629–631.10.1061/(ASCE)0733-9429(2001)127:7(629)
- Bruce, M.S., and Johnson, M.C. (2001). “Flow over Ogee spillway: physical and numerical model case study.” J. Hydraul. Eng., 127(8), 640–649.
- Burgisser, M.F., and Rutschmann, P. (1999). “Numerical solution of viscous 2D free surface flows: flow over spillway crest.” Proc., 28th IAHR Congress, Technical University, Graz, Austria, 7(2), 145–154.
- Cederstrom, M., Hammar, L., Johansson, N., and Yang, J. (2000). “Modelling of spillway discharge capacity with computational fluid dynamics (CFD).” Proceedings of 20th International Congress, ICOLD, Beijing, September 19–22.
- Celik, I.B., Ghia, U., Roache, P.J., and Freitas, C.J. (2008). “Procedure for estimation and reporting of uncertainty due to discretization in CFD applications.” J. Fluids Eng., 130, 078001-1-4.
- Channel, P.G., and Doering, J.C. (2007). “An evaluation of computational fluid dynamics for spillway modeling.” 16th Australian Fluid Mechanics Congress, December 2–7, 2007, 1201–1206.
- Ervine, A., Falvey, H.T., and Khan, Azam. (1995). “Turbulent flow structure and air uptake at aerators.” Int. J. Hydropower Dams, 2(5), 87–96.
- Falvey, H.T. (1990). Cavitation in chutes and spillways. Engineering Monograph No. 42, USBR Publication, Denver, CO.
- FLUENT. (2006). FLUENT 6.3.26, Documentation Manual and User’s guide, Fluent Inc, Lebanon, NH.
- Freitas C.J. (1993). “Journal of fluid engineering editorial policy statement on the control of numerical accuracy.” J. Fluid Eng., 115(3), 339–340.10.1115/1.2910144
- Gessler D. (2005). “CFD modeling of spillway performance.” Proceedings of the 2005 World Water and Environmental Resources Congress, R. Walton, ed., Anchorage, AK, 1–10, May 15–19. doi:10.1061/40792(173)398
- Higgs J.A. (1997). Folsom dam spillway vortices computational fluid dynamics model studies. Memorandum Report, Water Resources Research Laboratory, Water Resources Services, Denver Technical Centre, Bureau of Reclamation, US Department of Interiors, Denver, Colorado, February.
- Ho, D.K.H., Boyes, K.M., and Donohoo, S.M. (2001). “Investigation of spillway behavior under increased maximum flood by Computational Fluid Dynamics technique.” 14th Australian Fluid Mechanics Conference, Adelaide, Australia, 577–580.
- Kjellesvig, H.M. (1996). Numerical modeling of flow over a spillway, Hydroinformatics, Balkema, Rotterdam, 697–702.
- Olsen, N.R., and Kjellesvig, H.M. (1998). “Three-dimensional numerical flow modelling for estimation of spillway capacity.” J. Hydraul. Res., 36(5), 775–784.10.1080/00221689809498602
- Ozturk, M., and Aydin, M.C. (2009). “Verification of a 3D numerical model for spillway aerator.” Math. Comput. App., 14(1), 21–30.
- Ozturk M., Aydin M.C., and Aydin S. (2008). “Damage limitation – A new spillway aerator.” Int. Water Power Dam Constr., 6(June), 36–40.
- Pan, S., and Shao, Y. (1984). “Scale effects in modeling air demand by a ramp slot.” IAHR, Symposium on Scale effects in modeling Hydraulic Structures, Esslingen, Germany paper, 4(7), 1–4.
- Pfister, M. (2011). “Chute aerators: steep deflectors and cavity sub-pressure.” ASCE J. Hydraul. Eng., 137(10), 1200–1208.
- Pfister, M., and Hager, W.H. (2010a). “Chute aerators. I: air transport characteristics.” ASCE J. Hydraul. Eng., 136(6), 352–359.10.1061/(ASCE)HY.1943-7900.0000189
- Pfister M., and Hager W.H. (2010b). “Chute aerators. II: hydraulic design.” ASCE J. of Hydraulic Engineering, 136(6), 360–367.10.1061/(ASCE)HY.1943-7900.0000201
- Pinto, N.L. de S., and Neidert, S.H. (1983). “Air entrainment through aerators-mechanism and air flow evaluation.” XX IAHR Congress, USSR, Moscow, 7, 366–369.
- Rutschmann, P., and Hager, W.H. (1990). “Air entrainment by spillway aerators.” J. Hydraul. Eng. ASCE, 116(6), 765–782.10.1061/(ASCE)0733-9429(1990)116:6(765)
- Savage, B., and Johnson, M. (2001). “Flow over Ogee spillway: physical and numerical model case study.” J. Hydraul. Eng., 127(8), 640–649.10.1061/(ASCE)0733-9429(2001)127:8(640)
- Shuangke S., Jie C., Zhiping L., and Jan G. (2001). “Hydraulic research on deep level outlets of the three gorges project.” Proceedings of 29th IAHR Congress, Theme D, Vol. 1, Beijing, China.
- Teklemariam, E., Korbaylo, B.W., Groeneveld, J.L., and Fuchs, D.M. (2002). “Computational fluid dynamics: diverse applications in hydropower project’s design and analysis.” Proceedings of 55th Annual Canadian Water Resources Association Conference, Winnipeg, June 11–14.
- Yang, J., and Johannson, N. (1998). “Determination of spillway discharge capacity-CFD modeling and experimental verification.” Proceedings of 3rd International Conference on Advances in Hydro science and Engineering, Cottbus, Germany.
- Zhou, C., Zhu, S., and Yong, H. (2005). “Model study on aerators of three gorges project’s deep outlets,” Proc. Int. Symposium of IAHR, Seoul, Korea, 674–680.