Design and Estimation of Concrete Gravity Dam using STAAD.Pro and MS Excel
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Shivhare, V., Goel, M.K. and Singh, C.K., 2014. Simulation of surface runoff for upper Tapi
subcatchment Area (Burhanpur Watershed) using swat. ISPRS.
Sreedevi R, Shreedhar R. Multiple step method of design of Gravity dam and comparison with
CADAM software. International Conference on Development of Smart Cities: Interface,
Governance and Technology, Dr. Ambedkar Institute of Technology, Bengaluru, September 9–10,
, page 1–10
Rezaiee-Pajand M, Kazemiyan MS, Aftabi Sani A. A Literature Review on Dynamic Analysis of
Concrete Gravity and Arch Dams. Archives of Computational Methods in Engineering. 2021 Dec;
(7): 4357–72. Kazem
Heydari M, Othman F, Noori M. A review of the Environmental Impact of Large Dams in Iran.
International Journal of Advancements Civil Structural and Environmental Engineering, IJACSE.
May 15; 1 (1): 4.
Amberg F. Stability of concrete dams-Some basic requirements. In13th ICOLD benchmark
workshop on the numerical analysis of dams, Lausanne-Switzerland 2015.
Subramani T, Ponnuvel D, Deans D. Seismic and stability analysis of gravity dams using
STAAD.Pro. International Journal of Engineering Research and Development. 2012; 1 (5):
–54.
Manoj Nallanathel, Mr. B. Ramesh AB. Pavan Kumar Raju Stability Analysis of Concrete
Gravity Dam Using STAAD.Pro. International Journal of Pure and Applied Mathematics Volume
No. 17 2018, 297–310
Altarejos-García L, Escuder-Bueno I, Morales-Torres A. Advances on the failure analysis of the
Dam—Foundation interface of concrete dams. Materials. 2015 Dec 2; 8 (12): 8255–78.
https://www.usbr.gov/tsc/techreferences/mands/mands-pdfs/GravityDams.pdf
https://SlideShare/Gravity-Dam.
Design Criteria for Concrete Arch and Gravity Dams" (1977), USBR, EM No.19.
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