Assessment of the minimum water fl ow by syphon type structures of reclamation systems

Issues related to the design and hydraulic calculation of the transit part of a closed tubular water supply structure of the siphon type is considered. The operating conditions of the siphon with rectangular pipes in the transition mode are evaluated, in which the entrance section of the pipes of the culvert structure experiences increased hydrodynamic loads, often leading to certain destructions. The siphon design was modeled with two breaks along the length with a smooth inlet head and without a head. During the experiments, the absence of influence of the inlet head of the tubular HTS on the length of the free-flow section was noted. It has been established that the conditions of formation and features of the hydraulic operation of the siphon in the transient mode are largely determined by its design features. With the flooding of the inlet head, the flow of air into the pipe is hindered and a transition mode of the second type is formed with a slight fluctuation of the water level in the upper pool. The dependence of the location of the point of separation of the flow with a decrease in the passing water flow rate on its value is revealed, which made it possible to obtain a graph of the dependence of the relative length of the non-pressure end section on the square root of the Froude number. A comparison was made with the results of studies by other authors, which showed an increase in the relative length in tubular HTS of the siphon type in sections with reverse slopes at the same Froude numbers. Recommendations are given on the methodology for carrying out hydraulic calculation of tubular structures of the siphon type with minimal flow rates. 

1. Babukov Sh.A. Perehodnye rezhimy techeniya potoka v nereguliruyumyh zakrytyh vodosbrosah: dis. cand. tehn. nauk. – M.: MGMI, 1985. – 24 s.

2. Altunin V.I., Chernykh O.N. Osobennosti raboty nereguliruyumyh trubchatyh sooruzhenij dyukernogo tipa v perehodnyh rezhimah // Trudy Nauchno-tehnicheskoj konferentsii. – M.: MGUP, 2001. – S. 48-51.

3. Chernykh O.N., Burlachenko A.V. Expluatatsiya i proektirovanie dyukerov na vodnyh objektah [Elekronny resurs]: Rossijsky gosudarstvenny agrarny universitet – MSHA imeni K.A. Timiryazev (Moskva). – Electron. Textovye dan. – Moskva, 2021. – 151 s. http://elib.timacad.ru/dl/local/06122021.pdf/info.

4. Kosichenko Yu.M. Sovremennoe sostoyanie vodopropusknyh gidrotehnicheskih sooruzhenij Donskogo magistralnogo kanala / Yu.M. Kosichenko, G.L. Lobanov O.A., Baev A.Yu. Garbuz. – Novocherkassk: FGBNU «RosNIIPM», 2014. – 49 s.

5. Burlachenko A.V., Chernykh O.N., Khanov N.V. Hydrodynamic Investigations of Inverted Siphon, s Fragment // Larhyss Journal, ISSN1112-3680, n°49, Mars 2022, pp. 123-137 © 2022 All rights reserved, Legal Deposit 1266-2002.

6. Shvanshtein A.M. Stroitelnye tunneli. Gidravlicheskie usloviya raboty. – M.: Energoatomizdat, 1986. – 123 s.

7. Altunin V.I. Pulsatsiya davleniya v trubchtom sooruzhenii pri perehodnom rezhime // Gidravlika transportnyh sredstv i dorozhnyh sooruzhenij. Trudy MAD. – M.: MADI, 1988. – S. 67-71.

8. Altunin V.I., Chernykh O.N. Vliyanie konstruktsii vhodnogo ogolovka na pulsatsiyu davleniya v trubchatom sooruzhenii pri perehodnom rezhime // Raschety elementov gidravlicheskih system mashin i mehanizmov. Trudy MADI. – M.: MADI, 1990. – S. 73-79.

9. Shvanshtein A.M. Gidravlicheskie usloviya raboty trubchatyh i tunnelnyh vodosbrosov. // Izvesiya VNIIG. – 1997. – No. 230. – S. 287-313.

10. Chernykh O.N., Khanov N.V., Burlachenko A.V. Otsenka vliyaniya vhodnyh ustrojstv na gidravlicheskie usloviya raboty razlichnyh modifikatsij dorozhnyh trubchatyh perehodov iz gofrirovannogo metalla // Doklady TSHA. – 2019, vyp. 291, ch. III, 59 pp., – S. 74-78.

11. Altunin V.I. Hydraulik Resistance of Corrugated Metal Culvert Pipes with Elevated Abrasive Resistance / V.I. Altunin, O.N. Chernyh, A.V. Burlachenko // Power Technology and engineering. November 2016, Volume 50, Issue 4. – P. 385-390.

12. Suetina T.A., Hydraulic calculation features of helically corrugated steel culverts / T.A. Suetina, O.N. Chernykh and A.V. Burlachenko // IOP Conference Series: Materials Science and Engineering. VII International Symposium Actual Problems of Computational Simulation in Civil Engineering 1-8 July 2018, Novosibirsk, Russian Federation. Volume 456, Section 4. 31 December 2018. – 5 p.

13. Chernykh O.N., Altunin V.I., Burlachenko A.V. Experimentalnye issledovaniya metallicheskoj gofrirovannoj vodopropusknoj truby pri chstichno-napornom rezhime // Privolzhsky nauchny zhurnal. – 2015. – No. 1. – S. 28-36.

14. Suetina T.A., Chernykh O.N., Burlachenko A.V., Koroteev D.D. Hydraulic parameters of culverts from pipes with normal and spiral form of corrugation // International Conference on Engineering Systems 2020. Journal of Physics: Conference Series 1687 (2020) 012037.

15. Chernykh O.N., Suetina T.A., Burlachenko A.V. Nauchnye osnovy sovershenstvovaniya metodov gidravlicheskogo rascheta dorozhnyh gofrirovannyh trub is metalla. – M.: MADI, 2020. – 234 sp.