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Experimental Investigation on Hydraulic Efficiency of Vertical Drop Equipped with Vertical Screens

Year 2022, Volume: 33 Issue: 5, 12379 - 12399, 01.09.2022
https://doi.org/10.18400/tekderg.755938

Abstract

In the present study, vertical screens were utilized at downstream of vertical drops to increase the energy dissipation of subcritical flow. The experiments were carried out using screens with two different porosity ratios (40% and 50%) and three different distances from the drop brink (30, 60 and 90 cm). The results reveal that drops equipped with screens increase the relative downstream depth, the relative pool depth, and the relative energy dissipation compared with a plain vertical drop. By increasing porosity ratios and the screen distance from the drop brink, the relative downstream depth and relative energy dissipation increase, whereas the relative pool depth decreases. Also, by increasing the relative critical depth, the relative energy dissipation of the vertical drop decreases, whereas the energy dissipation related to the screens increases. However, increasing the relative critical depth initially increases and then decreases the performance of the hydraulic jump in terms of total energy dissipation.

Supporting Institution

University of Maragheh

Project Number

-

Thanks

-

References

  • Rajaratnam, N., Hurtig, K., Screen-type energy dissipator for hydraulic structures. Journal of Hydraulic Engineering, Vol 126, No (4), 310-312. 2000.
  • Rouse, H., Discharge characteristics of the free overfall: Use of crest section as a control provides easy means of measuring discharge. Civil Engineering, Vol 6, No (4), 257-260. 1936.
  • Blaisdell, F., Hydraulics of rectangular vertical drop structures. Journal of Hydraulic Research, Vol 17, No (4), 289-302. 1980.
  • Rajaratnam, N., Chamani, M.R., Energy loss at drops. Journal of Hydraulic Research, Vol 33, No (3), 373-384. 1995.
  • Moore, W.L. Energy loss at the base of a free overfall. in Proceedings of the American Society of Civil Engineers. ASCE, 1943.
  • Rand, W. Flow geometry at straight drop spillways. in Proceedings of the American Society of Civil Engineers. ASCE, 1955.
  • Chamani, M.R., Beirami, M., Flow characteristics at drops. journal of Hydraulic Engineering, Vol 128, No (8), 788-791. 2002.
  • Chamani, M.R., Rajaratnam, N., Beirami, M., Turbulent jet energy dissipation at vertical drops. Journal of Hydraulic Engineering, Vol 134, No (10), 1532-1535. 2008.
  • Esen, I.I., Alhumoud, J.M., Hannan, K.A., Energy Loss at a Drop Structure with a Step at the Base. Water international, Vol 29, No (4), 523-529. 2004.
  • Hong, Y.M., Huang, H.S., Wan, S., Drop characteristics of free-falling nappe for aerated straight-drop spillway. Journal of Hydraulic Research, Vol 48, No (1), 125-129. 2010.
  • Liu, S.-I., Chen, J.-Y., Hong, Y.-M., Huang, H.-S., Raikar, R.V., Impact characteristics of free over-fall in pool zone with upstream bed slope. Journal of Marine Science and Technology, Vol 22, No (4), 476-486. 2014.
  • Daneshfaraz, R., Hasannia, V., Norouzi, R., Sihag, P., Sadeghfam, S., Abraham, J., Investigating the Effect of Horizontal Screen on Hydraulic Parameters of Vertical Drop. Iranian Journal of Science and Technology, Transactions of Civil Engineering. 2021.
  • Bozkus, Z., Çakir, P., Ger, A.M., Energy dissipation by vertically placed screens. Canadian Journal of Civil Engineering, Vol 34, No (4), 557-564. 2007.
  • Şimsek, O., Göksu Soydan, N., Gumus, V., Sami Akoz, M., Salih Kirkgoz, M., Numerical modeling of B-type hydraulic jump at an abrupt drop. Teknik Dergi, Vol 26, No (4), 7215-7240. 2015.
  • Sadeghfam, S., Daneshfaraz, R., Khatibi, R., Minaei, O., Experimental studies on scour of supercritical flow jets in upstream of screens and modelling scouring dimensions using artificial intelligence to combine multiple models (AIMM). Journal of Hydroinformatics, Vol 21, No (5), 893-907. 2019.
  • Sadeghfam, S., Akhtari, A.A., Daneshfaraz, R., Tayfur, G., Experimental investigation of screens as energy dissipaters in submerged hydraulic jump. Turkish Journal of Engineering and Environmental Sciences, Vol 38, No (2), 126-138. 2015.
  • Daneshfaraz, R., Sadeghfam, S., Ghahramanzadeh, A., Three-dimensional numerical investigation of flow through screens as energy dissipators. Canadian Journal of Civil Engineering, Vol 44, No (10), 850-859. 2017.
  • Sharif, M., Kabiri-Samani, A., Flow regimes at grid drop-type dissipators caused by changes in tail-water depth. Journal of Hydraulic Research, 1-12. 2018.
  • Norouzi, R., Daneshfaraz, R., Bazyar, A., The Study of Energy Depreciation due to the use of Vertical Screen in the Downstream of Inclined Drops by Adaptive Neuro-Fuzzy Inference System (ANFIS). AUT Journal of Civil Engineering. 2019.
  • Daneshfaraz, R., Majedi Asl, M., Razmi, S., Norouzi, R., Abraham, J., Experimental investigation of the effect of dual horizontal screens on the hydraulic performance of a vertical drop. International Journal of Environmental Science and Technology. 2020.
  • Daneshfaraz, R., Bagherzadeh, M., Esmaeeli, R., Norouzi, R., Abraham, J., Study of the performance of support vector machine for predicting vertical drop hydraulic parameters in the presence of dual horizontal screens. Water Supply. 2020.
  • Daneshfaraz, R., Majedi Asl, M., Bazyar, A., Abraham, J., Norouzi, R., The laboratory study of energy dissipation in inclined drops equipped with a screen. Journal of Applied Water Engineering and Research. 2020.
  • Ghaderi, A., Daneshfaraz, R., Abraham, J., Torabi, A., Effect of Different Channels on Discharge Coefficient of Labyrinth Weirs. Teknik Dergi, Vol 32. 2021.
  • Cakir, P., Experimental investigation of energy dissipation through screens in Department of Civil Engineering. Middle East Technical University: Ankara, Turkey, 2003.
  • Balkis, G., Experimental investigation of energy dissipation through inclined screens in Department of Civil Engineering Middle East Technical University: Ankara,Turkey, 2004.
  • Rajaratnam, N., Chamani, M., Energy loss at drops. Journal of Hydraulic Research, Vol 33, No (3), 373-384. 1995.
  • Robinson, K., Predicting stress and pressure at an overfall. Transactions of the ASAE, Vol 35, No (2), 561-569. 1992.
  • White, M., Discussion of moore. Tran. ASCE, Vol 108, 1361-1364. 1943.
  • Diskin, M., End depth at a drop in trapezoidal channels. Journal of the Hydraulics Division, Vol 87, No (4), 11-32. 1961.
  • Andersen, V.M., Non-uniform flow in front of a free overfall. Acta polytechnica scandinavica-civil engineering and building construction series, Vol 42, No (3). 1967.
  • Strelkoff, T., Moayeri, M.S., Pattern of potential flow in a free overfall. Journal of the Hydraulics Division, Vol 96, No (4), 879-901. 1970.
  • Lasdon, L.S., Fox, R.L., Ratner, M.W., Nonlinear optimization using the generalized reduced gradient method. Revue française d'automatique, informatique, recherche opérationnelle. Recherche opérationnelle, Vol 8, No (V3), 73-103. 1974.

Experimental Investigation on Hydraulic Efficiency of Vertical Drop Equipped with Vertical Screens

Year 2022, Volume: 33 Issue: 5, 12379 - 12399, 01.09.2022
https://doi.org/10.18400/tekderg.755938

Abstract

In the present study, vertical screens were utilized at downstream of vertical drops to increase the energy dissipation of subcritical flow. The experiments were carried out using screens with two different porosity ratios (40% and 50%) and three different distances from the drop brink (30, 60 and 90 cm). The results reveal that drops equipped with screens increase the relative downstream depth, the relative pool depth, and the relative energy dissipation compared with a plain vertical drop. By increasing porosity ratios and the screen distance from the drop brink, the relative downstream depth and relative energy dissipation increase, whereas the relative pool depth decreases. Also, by increasing the relative critical depth, the relative energy dissipation of the vertical drop decreases, whereas the energy dissipation related to the screens increases. However, increasing the relative critical depth initially increases and then decreases the performance of the hydraulic jump in terms of total energy dissipation.

Project Number

-

References

  • Rajaratnam, N., Hurtig, K., Screen-type energy dissipator for hydraulic structures. Journal of Hydraulic Engineering, Vol 126, No (4), 310-312. 2000.
  • Rouse, H., Discharge characteristics of the free overfall: Use of crest section as a control provides easy means of measuring discharge. Civil Engineering, Vol 6, No (4), 257-260. 1936.
  • Blaisdell, F., Hydraulics of rectangular vertical drop structures. Journal of Hydraulic Research, Vol 17, No (4), 289-302. 1980.
  • Rajaratnam, N., Chamani, M.R., Energy loss at drops. Journal of Hydraulic Research, Vol 33, No (3), 373-384. 1995.
  • Moore, W.L. Energy loss at the base of a free overfall. in Proceedings of the American Society of Civil Engineers. ASCE, 1943.
  • Rand, W. Flow geometry at straight drop spillways. in Proceedings of the American Society of Civil Engineers. ASCE, 1955.
  • Chamani, M.R., Beirami, M., Flow characteristics at drops. journal of Hydraulic Engineering, Vol 128, No (8), 788-791. 2002.
  • Chamani, M.R., Rajaratnam, N., Beirami, M., Turbulent jet energy dissipation at vertical drops. Journal of Hydraulic Engineering, Vol 134, No (10), 1532-1535. 2008.
  • Esen, I.I., Alhumoud, J.M., Hannan, K.A., Energy Loss at a Drop Structure with a Step at the Base. Water international, Vol 29, No (4), 523-529. 2004.
  • Hong, Y.M., Huang, H.S., Wan, S., Drop characteristics of free-falling nappe for aerated straight-drop spillway. Journal of Hydraulic Research, Vol 48, No (1), 125-129. 2010.
  • Liu, S.-I., Chen, J.-Y., Hong, Y.-M., Huang, H.-S., Raikar, R.V., Impact characteristics of free over-fall in pool zone with upstream bed slope. Journal of Marine Science and Technology, Vol 22, No (4), 476-486. 2014.
  • Daneshfaraz, R., Hasannia, V., Norouzi, R., Sihag, P., Sadeghfam, S., Abraham, J., Investigating the Effect of Horizontal Screen on Hydraulic Parameters of Vertical Drop. Iranian Journal of Science and Technology, Transactions of Civil Engineering. 2021.
  • Bozkus, Z., Çakir, P., Ger, A.M., Energy dissipation by vertically placed screens. Canadian Journal of Civil Engineering, Vol 34, No (4), 557-564. 2007.
  • Şimsek, O., Göksu Soydan, N., Gumus, V., Sami Akoz, M., Salih Kirkgoz, M., Numerical modeling of B-type hydraulic jump at an abrupt drop. Teknik Dergi, Vol 26, No (4), 7215-7240. 2015.
  • Sadeghfam, S., Daneshfaraz, R., Khatibi, R., Minaei, O., Experimental studies on scour of supercritical flow jets in upstream of screens and modelling scouring dimensions using artificial intelligence to combine multiple models (AIMM). Journal of Hydroinformatics, Vol 21, No (5), 893-907. 2019.
  • Sadeghfam, S., Akhtari, A.A., Daneshfaraz, R., Tayfur, G., Experimental investigation of screens as energy dissipaters in submerged hydraulic jump. Turkish Journal of Engineering and Environmental Sciences, Vol 38, No (2), 126-138. 2015.
  • Daneshfaraz, R., Sadeghfam, S., Ghahramanzadeh, A., Three-dimensional numerical investigation of flow through screens as energy dissipators. Canadian Journal of Civil Engineering, Vol 44, No (10), 850-859. 2017.
  • Sharif, M., Kabiri-Samani, A., Flow regimes at grid drop-type dissipators caused by changes in tail-water depth. Journal of Hydraulic Research, 1-12. 2018.
  • Norouzi, R., Daneshfaraz, R., Bazyar, A., The Study of Energy Depreciation due to the use of Vertical Screen in the Downstream of Inclined Drops by Adaptive Neuro-Fuzzy Inference System (ANFIS). AUT Journal of Civil Engineering. 2019.
  • Daneshfaraz, R., Majedi Asl, M., Razmi, S., Norouzi, R., Abraham, J., Experimental investigation of the effect of dual horizontal screens on the hydraulic performance of a vertical drop. International Journal of Environmental Science and Technology. 2020.
  • Daneshfaraz, R., Bagherzadeh, M., Esmaeeli, R., Norouzi, R., Abraham, J., Study of the performance of support vector machine for predicting vertical drop hydraulic parameters in the presence of dual horizontal screens. Water Supply. 2020.
  • Daneshfaraz, R., Majedi Asl, M., Bazyar, A., Abraham, J., Norouzi, R., The laboratory study of energy dissipation in inclined drops equipped with a screen. Journal of Applied Water Engineering and Research. 2020.
  • Ghaderi, A., Daneshfaraz, R., Abraham, J., Torabi, A., Effect of Different Channels on Discharge Coefficient of Labyrinth Weirs. Teknik Dergi, Vol 32. 2021.
  • Cakir, P., Experimental investigation of energy dissipation through screens in Department of Civil Engineering. Middle East Technical University: Ankara, Turkey, 2003.
  • Balkis, G., Experimental investigation of energy dissipation through inclined screens in Department of Civil Engineering Middle East Technical University: Ankara,Turkey, 2004.
  • Rajaratnam, N., Chamani, M., Energy loss at drops. Journal of Hydraulic Research, Vol 33, No (3), 373-384. 1995.
  • Robinson, K., Predicting stress and pressure at an overfall. Transactions of the ASAE, Vol 35, No (2), 561-569. 1992.
  • White, M., Discussion of moore. Tran. ASCE, Vol 108, 1361-1364. 1943.
  • Diskin, M., End depth at a drop in trapezoidal channels. Journal of the Hydraulics Division, Vol 87, No (4), 11-32. 1961.
  • Andersen, V.M., Non-uniform flow in front of a free overfall. Acta polytechnica scandinavica-civil engineering and building construction series, Vol 42, No (3). 1967.
  • Strelkoff, T., Moayeri, M.S., Pattern of potential flow in a free overfall. Journal of the Hydraulics Division, Vol 96, No (4), 879-901. 1970.
  • Lasdon, L.S., Fox, R.L., Ratner, M.W., Nonlinear optimization using the generalized reduced gradient method. Revue française d'automatique, informatique, recherche opérationnelle. Recherche opérationnelle, Vol 8, No (V3), 73-103. 1974.
There are 32 citations in total.

Details

Primary Language English
Subjects Civil Engineering
Journal Section Articles
Authors

Rasoul Daneshfaraz 0000-0003-1012-8342

Sina Sadeghfam This is me 0000-0002-9018-547X

Vadoud Hasanniya This is me 0000-0002-8200-582X

John Abraham This is me 0000-0002-3818-8681

Reza Norouzi 0000-0002-3756-8746

Project Number -
Publication Date September 1, 2022
Submission Date June 22, 2020
Published in Issue Year 2022 Volume: 33 Issue: 5

Cite

APA Daneshfaraz, R., Sadeghfam, S., Hasanniya, V., Abraham, J., et al. (2022). Experimental Investigation on Hydraulic Efficiency of Vertical Drop Equipped with Vertical Screens. Teknik Dergi, 33(5), 12379-12399. https://doi.org/10.18400/tekderg.755938
AMA Daneshfaraz R, Sadeghfam S, Hasanniya V, Abraham J, Norouzi R. Experimental Investigation on Hydraulic Efficiency of Vertical Drop Equipped with Vertical Screens. Teknik Dergi. September 2022;33(5):12379-12399. doi:10.18400/tekderg.755938
Chicago Daneshfaraz, Rasoul, Sina Sadeghfam, Vadoud Hasanniya, John Abraham, and Reza Norouzi. “Experimental Investigation on Hydraulic Efficiency of Vertical Drop Equipped With Vertical Screens”. Teknik Dergi 33, no. 5 (September 2022): 12379-99. https://doi.org/10.18400/tekderg.755938.
EndNote Daneshfaraz R, Sadeghfam S, Hasanniya V, Abraham J, Norouzi R (September 1, 2022) Experimental Investigation on Hydraulic Efficiency of Vertical Drop Equipped with Vertical Screens. Teknik Dergi 33 5 12379–12399.
IEEE R. Daneshfaraz, S. Sadeghfam, V. Hasanniya, J. Abraham, and R. Norouzi, “Experimental Investigation on Hydraulic Efficiency of Vertical Drop Equipped with Vertical Screens”, Teknik Dergi, vol. 33, no. 5, pp. 12379–12399, 2022, doi: 10.18400/tekderg.755938.
ISNAD Daneshfaraz, Rasoul et al. “Experimental Investigation on Hydraulic Efficiency of Vertical Drop Equipped With Vertical Screens”. Teknik Dergi 33/5 (September 2022), 12379-12399. https://doi.org/10.18400/tekderg.755938.
JAMA Daneshfaraz R, Sadeghfam S, Hasanniya V, Abraham J, Norouzi R. Experimental Investigation on Hydraulic Efficiency of Vertical Drop Equipped with Vertical Screens. Teknik Dergi. 2022;33:12379–12399.
MLA Daneshfaraz, Rasoul et al. “Experimental Investigation on Hydraulic Efficiency of Vertical Drop Equipped With Vertical Screens”. Teknik Dergi, vol. 33, no. 5, 2022, pp. 12379-9, doi:10.18400/tekderg.755938.
Vancouver Daneshfaraz R, Sadeghfam S, Hasanniya V, Abraham J, Norouzi R. Experimental Investigation on Hydraulic Efficiency of Vertical Drop Equipped with Vertical Screens. Teknik Dergi. 2022;33(5):12379-9.