Hydraulic Calculations of a Telescopic Water Intake

Ansys Inc. (2013). User’s guide, Release 15.0, pp. 2692. Search in Google Scholar

Gasanov, S. – Lipin, A. (2021) Improving the design and increasing the stability of a telescopic water intake, Power Technology and Engineering, Vol. 55, № 3, Sep, DOI 10.1007/s10749-021-01371-7. Search in Google Scholar

Gordon, J. (1970) Vortices at Intakes. Water Power, pp. 137-138. Search in Google Scholar

Hecker, G. (1987) Fundamentals of vortex intake flow. Swirling flow problems at intakes. IHAR Hydraulic structures design manual 1, J. Knauss Ed. Balkema, Rotterdam, The Netherlands. pp.13-38. Search in Google Scholar

Ito, K. – Sakai, T. – Eguchi, Y. – Monji, H. – Ohshima, H. – Uchibori, A. – Xu, Y. (2010) Improvement of Gas Entrainment Prediction Method, Introduction of Surface Tension Effect, Journal of Nuclear Science and Technology, Vol. 47, No. 9, pp. 771-778. Search in Google Scholar

Jain, A. – Ranga Raju, K. – Garde, R. (1978) Vortex formation at vertical pipe intakes. Journal of Hydraulic Engineering, ASCE, 104(10). pp. 1429-1445. Search in Google Scholar

Lipin A. (2020) Surface telescopic water intake: A review. AlfaBuild, Volume 15 Article № 1502. Search in Google Scholar

Lipin A. (2022) Regulation of telescopic water intake operations. Slovak Journal of Civil Engineering, Vol. 30, No. 3, pp. 27-32. Search in Google Scholar

Mois, P. (1970) Tower spillways. M., Energiya, 78 pp. Search in Google Scholar

Mois, P. (1959) On the issue of calculating tower spillways. Proceedings of the Moscow Civil Engineering Institute, № 24. pp. 81-97. Search in Google Scholar

Prosser, M. (1977) The Hydraulic Design of Pump Sumps and In-takes, BHRA Fluids Engineering, England. pp. 48. Search in Google Scholar

Reddy, Y. – Pickford, J. (1972) Vortices at Intakes in Conventional Sumps. Water Power, pp. 108-109. Search in Google Scholar

Reddy, Y.R. – Pickford, J.A. (1972) Vortices at Intakes in Conventional Sumps. Water Power. Search in Google Scholar

Rutvika, A. (2016) Investigation of Differences in Ansys Solvers CFX and Fluent, KTH Stockholm, June, pp. 48 Search in Google Scholar

Shterenlikht, D.V. (2004) Hydraulics, 3rd ed., M.: KolosS. pp. 656. Search in Google Scholar

Uginchus, A.A. – Chugaeva, E.A. (1971) Hydraulics. Leningrad: Stroyizdat, pp. 350. Search in Google Scholar

Vadoud, N. – Davood, F. – Zadeh, A. D. – Hadi, A. (2013) Discharge Coefficient in Vertical Intakes with Additional Plates. Journal Of Hydraulic Structures. pp. 23-32. Search in Google Scholar

Wu, J. – Ma, H. – Zhou, M. (2006) Vorticity and Vortex Dynamics, Springer- Verlag, pp. 776. Search in Google Scholar

Yildirim, N. – Kocabas, F. (1995) Critical submergence for intakes in open channel flow. Journal of Hydraulic Engineering, ASCE, 121(12). pp. 900-905. Search in Google Scholar

Yildirim, N. – Kocabas, F. (1995) Critical submergence for intakes in open channel flow. Journal of Hydraulic Engineering, ASCE, 121(12). pp. 900-905. https://doi.org/10.1061/(ASCE)0733-9429(1995)121:12(900) Search in Google Scholar