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A platform for research: civil engineering, architecture and urbanism
SEDIMENT EXCLUSION IN HIMALAYAN RIVERS USING HYDROCYCLONE
Geometry of a hydrocyclone plays an important role in hydraulic and sediment removal efficiency. This paper analyses the experimental results of a test rig consisting of a hydrocyclone, 0.38 m in diameter with a modified geometry. The results were compared with that obtained by other investigators. The findings from the test results showed better hydraulic and sediment removal efficiency of the modified hydrocyclone compared to that of other existing hydrocyclones. Larger implications for suspended sediment exclusion in hydropower plants of Himalayan region are pointed out.
SEDIMENT EXCLUSION IN HIMALAYAN RIVERS USING HYDROCYCLONE
Geometry of a hydrocyclone plays an important role in hydraulic and sediment removal efficiency. This paper analyses the experimental results of a test rig consisting of a hydrocyclone, 0.38 m in diameter with a modified geometry. The results were compared with that obtained by other investigators. The findings from the test results showed better hydraulic and sediment removal efficiency of the modified hydrocyclone compared to that of other existing hydrocyclones. Larger implications for suspended sediment exclusion in hydropower plants of Himalayan region are pointed out.
SEDIMENT EXCLUSION IN HIMALAYAN RIVERS USING HYDROCYCLONE
Pandit, H. P. (author) / Shakya, N. M. (author) / Stole, H. (author) / Garg, N. K. (author)
ISH Journal of Hydraulic Engineering ; 14 ; 118-133
2008-01-01
16 pages
Article (Journal)
Electronic Resource
Unknown
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