References

  1. F.S. Salakhov, Rotational Design and Methods of Hydraulic Calculation of Load-Controlling Water Intake Structures for Mountain Rivers, Proc. of Ninth Congress of the ICID, Moscow Soviet Union, 1975, pp. 151–161.
  2. A.R. Keshavarzi, A.R. Gheisi, Trap efficiency of vortex settling chamber for exclusion of fine suspended sediment particles in irrigation canals, Irrig. Drain., 55 (2006) 419–434.
  3. Q.-T. Nguyen, C.-D. Jan, Sediment Removal Efficiency of a Deep Vortex Chamber Sediment Extractor, Environmental Hydraulics, 2010, pp. 1065–1070.
  4. T.C. Paul, S.K. Sayal, V.S. Sakhuja, G.S. Dhillon, Vortex-settling basin design considerations, J. Hydraul. Eng.-ASCE, 117 (1991) 172–189.
  5. J. Chapokpour, J. Farhoudi, E.A. Tokaldany, M. Majedi-Asl, Flow visualization in vortex chamber, J. Civ. Eng. Urbanism, 2 (2012) 26–34.
  6. J. Chapokpour, F. Ghasemzadeh, J. Farhoudi, The numerical investigation on vortex flow behavior using FLOW-3D, Iran. J. Energy Environ., 3 (2012) 88–96.
  7. T.-H. Huang, C.-D. Jan, Y.-C. Hsu, Numerical simulations of water surface profiles and vortex structure
    in a vortex settling basin by using flow-3D, J. Mar. Sci. Technol.-Taiwan, 25 (2017) 531–542.
  8. H. Amin, S. Mojtaba, A.M. Mehdi, Effects of curvature submerge vane in efficiency of vortex settling basin,
    J. Appl. Res. Water Wastewater, 2 (2014) 80–85.
  9. K. Kiringu, G. Basson, Removal of Fine Non-Cohesive Sediment by Swirl/Vortex Settling Basin at Small River Abstraction Works, 19th Int. Conf. on Transport and Sedimentation of Solid Particles, Cape Town, South Africa, 2019, pp. 24–27.
  10. D.A. Mashauri, Modeling of a Vortex Settling Basin for Primary Clarification of Water, Tampere University of Technology, Tampere, Finland, 1986.
  11. T. Qihua, Y. Laifei, Sediment Design Manual. Being, China Water & Power Press, China, 2006 (in Chinese).