PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Hydrodynamic features of the floating water outlet from a pumping station

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The article considers issues of ensuring sustainable agricultural production by increasing reliability of an irrigation system and water security. The article describes results of hydraulic tests performed at the water outlet with a vertical movement valve member. Resistance coefficients and hydrodynamic effects at the water outlet were determined experimentally. The study developed a method for calculating hydromechanical transient processes in the water outlet at the stop and start of the pump. The paper substantiates the new construction of a water outlet facility with a vertical displacement of the breakdown valve. Such a design better corresponds to peculiarities of the operation of pumping stations and, if there are water pipes of considerable diameter, it has a positive effect on transition hydrodynamic processes by reducing the number of failures and downtime by up to 10%.
Wydawca
Rocznik
Tom
Strony
162--171
Opis fizyczny
Bibliogr. 36 poz., rys., tab.
Twórcy
  • National University of Water and Environmental Engineering, 11 Soborna St., 33028 Rivne, Ukraine
  • National University of Water and Environmental Engineering, 11 Soborna St., 33028 Rivne, Ukraine
autor
  • National University of Water and Environmental Engineering, 11 Soborna St., 33028 Rivne, Ukraine
Bibliografia
  • ALTSHUL A.D., KISELEV P.G. 1975. Gidravlika i aerodinamika (Osnovy mekhaniki zhidkosti) [Hydraulics and aerodynamics (Fundamentals of fluid mechanics]. 2nd ed. revised and enlarged. Moscow. Stroiizdat pp. 327.
  • ANDRIIASHEV M.M. 1979. Gidravlicheskiye raschety oborudovaniya vodovodov [Hydraulic calculations of water pipelines]. Moscow. Stroiizdat pp. 104.
  • ARSHENEVSKII N.N., POSPELOV B.B. 1980. Perekhodnye protsessy krupnykh nasosnykh stantsii [Transition processes of large pumping stations]. B-ka gidrotekhnika i gidroenergetika. Iss. 66. Moscow. Energiya pp. 112.
  • BASHTA T.M., RUDNEV S.S., NEKRASOV B.B., BAYBAKOV O.V., KIRILLOVSKY YU.L. 1970. Gidravlika, gidravlicheskiye mashiny i gidravlicheskiye privody: Uchebnik dlya mashinostroitel’nykh vuzov [Hydraulics, hydraulic machines and hydraulic drives: Mechanical engineering college and university textbook]. Moscow. Mashinostroyeniye pp. 504.
  • BOGOMOLOV A.I., MIKHAILOV K.I. 1972. Gidravlik: Uchebnik dlya vuzov. [Hydraulic technician: College and university textbook]. 2nd ed. revised and enlarged]. Moscow. Stroiizdat pp. 648.
  • BOL’SHAKOV V.A. (ed.) 1977. Spravochnik po gidravlike [Reference book on hydraulics]. Kyiv. Vyshcha shkola pp. 320.
  • BRONSHTEIN I.N., SEMENDYAEV K.A. 1962. Spravochnik po matematike dlya inzhenerov i uchashchikhsiya vuzov [Reference textbook on mathematics for engineers and college or university students]. Moscow. Gosudarstvennoye izdatel'stvo fiziko-matematicheskoy literatury pp. 608.
  • CHEBAYEVSKIY V.F., RYCHAGOV V.V., VISHNEVSKIY K.P., TRET'YAKOV A.A. 1982. Proektirovaniye nasosnykh stantsii i ispytaniye nasosnykh ustanovok [Designing pumping stations and testing pump units]. 3rd ed. revised and enlarged. Moscow. Kolos pp. 320.
  • CHUGAYEV R.R. 1975. Gidravlika (Tekhnicheskaya mekhanika zhidkosti): Uchebnik dlya vuzov [Hydraulics (technical fluid mechanics): College and university textbook]. Leningrad. Energiya pp. 600.
  • GAVRILENKO B.A., MININ V.A., ROZHDESTVENSKII S.N. 1968. Gidravlicheskii privod [Hydraulic drive]. Moscow. Mashinostroyeniye pp. 502.
  • HERASYMOV H.H. 1993. Perekhidni protsesy v nasosnykh ustanovkakh z poplavkovymy vodovypuskamy [Transient processes in pumping plants with floating water outlets]. Hidromelioratyvne ta hidrotekhnichne budivnytstvo. Resp. Mizhvidomchyi n.-t. zb. No. 20 p. 57–63.
  • HERASYMOV H.H., BURDIUZHA P.D. 1981. Vodovypusk. A. s. No. 1086061 A SSSR, E 02 V 9/06. [Water outlet. Archived File No. 1086061 A USSR, E 02 V 9/06.] No. 3296804/29-15. Registered on February 22, 1981. Published on April, 15, 1984. Bulletin No. 141 p. 3.
  • IDELCHIK I.E. 1954. Gidravlicheskiye soprotivleniya (fiziko-mekhanicheskiye osnovy) [Hydraulic resistance (Physical and mathematical fundamentals)]. Moscow–Leningrad: Gosenergoizdat pp. 316.
  • IDELCHIK I.E. 1975. Spravochnik po gidravlicheskim soprotivleniyam [Reference book on hydraulic resistances]. 2nd ed. revised and enlarged. Moscow. Mashinostroyeniye pp. 559.
  • JONES G.M., SANKS R.L., TCHOBANOGLOUS G., BOSSERMAN B.E. 2008. Pumping station design. 2nd ed. Butterworth-Heinemann. ISBN 978-1-85617-513-5 pp. 1104. DOI 10.1016/b978-1-85617-513-5.x5001-x.
  • KARELIN V.YA., NOVODEREZHKIN R.A. 1980. Nasosnye stantsii gidrotekhnicheskikh sistem s osevymi i diagonal’nymi nasosami [Pumping stations of hydrotechnical systems with axial-flow and angular-flow pumps]. Moscow. Energiya pp. 288.
  • KAY M. 2008. Practical hydraulics. 2nd ed. Taylor and Francis. ISBN 978-0415351157 pp. 272.
  • KONDRATYEV V.N., SKOSAREV E.V., CHIBISOV I.T., SHAVARIN V.N. 1976. Proektirovanie sifonnykh vodovypuskov dlya nasosnykh stantsii [Designing siphon water outlets for pumping stations]. Gidrotekhnicheskoe stroitel’stvo. No. 1 p. 54–56.
  • KONDRATYEVA T.F. 1976. Predokhranitel’nye klapany [Safety valves]. 2nd ed. revised and enlarged. Leningrad. Mashinostroyeniye pp. 232.
  • KOVALENKO P.I., TUGAI A.M. 1974. Meliorativnyye gidrotekhnicheskiye sooruzheniya [Ameliorative hydraulic facilities]. Kiev. Budivel’nik pp. 123.
  • KURGANOV A.M., FEDOROV N.F. 1978. Spravochnik po gidravlicheskim raschetam sistem vodosnabzheniya i kanalizatsii [Reference book on hydraulic calculations of the water supply and sewerage systems]. 2nd ed. revised and enlarged. Leningrad. Stroiizdat pp. 424.
  • MIKHAILOV I.E., ZOLOTUKHIN V.I. 1977. Vliianiye vysoty vodozabornykh otverstii bashennykh vodopriyemnikov na poteri napora [Influence of the height of water inlets of the tower water intakes on pressure loss]. Gidrotekhnicheskoye stroitel’stvo. No. 2 p. 27–28.
  • MIKHAILOV I.E., ZOLOTUKHIN V.I. 1978. Vybor form i razmerov bashennykh vodopriyemnikov [Selection of shapes and sizes of tower water intakes]. Gidrotekhnicheskoe stroitel’stvo. No. 2 p. 24–27.
  • NOVAK P., MOFFAT A.I.B., NALLURI C., NARAYANAN R.A.I.B. 2007. Hydraulic structures. 4th ed. Taylor and Francis. ISBN 0-203-96463-2 pp. 736.
  • PEPLOV E.E., KOKAYA N.V. 1956. Zatvor s vozdushnoi kameroi [Air shutter]. Gidrotekhnika i melioratsiya. No. 6 p. 37–41.
  • PLESEVIČIUS P.I. 1974. Vliyaniye vysoty pod"yema tareli na gidravlicheskoye soprotivleniye armatury zapornykh klapanov truboprovodov sudovykh sistem [Impact of the height of plate lifting on the hydraulic resistance of valve members of marine systems’ pipelines]. Trudy Leningradskogo korablestroitel’nogo instituta. No. 94 p. 74–84.
  • SHOMAYRAMOV M., NORKULOV B., RAKHMANOV J., TADJIYEVA D., SUYUNOV J. 2019. Experimental researches of hydraulic vacuum breakdown devices of siphon outlets of pumping stations. In: Construction the Formation of Living Environment. XXII International Scientific Conference (FORM-2019). Tashkent, Uzbekistan. Eds. A. Volkov, A. Pustovgar, T. Sultanov, A. Adamtsevich. E3S Web Conf. 97 05009. DOI 10.1051/e3sconf/20199705009.
  • SLISSKII P.M. 1974. Gidravlicheskiye raschety napornykh orositel’nykh sistem s regulirovaniyem po nizhnemu befu [Hydraulic calculations of pressure irrigation systems with down-stream control]. Trudy Moskovskogo energeticheskogo instituta. No. 203 p. 134–139.
  • SLISSKIY S.M. 1970. Gidravlika zdanii gidroelektrostantsii [Hydraulics of hydroelectric power station premises]. Moscow. Energiya pp. 424.
  • STEPANOV P.M., OVCHARENKO I.KH., SKOBELTSYN YU.A. 1984. Spravochnik po gidravlike dlya melioratorov [Reference text-book on hydraulics for irrigation engineers]. Moscow. Kolos pp. 207.
  • SURIN A.A. 1946. Gidravlicheskii udar v truboprovodakh i bor’ba s nim [Water hammer in pipelines and combatting it]. Moscow. Transzheldorizdat pp. 372.
  • TSUKANOVA E.A., BARZHANSKII E.E. RAKHMANOV ZH.R. 1975. Opredeleniye koeffitsientov poter tsilindricheskikh klapanov [Determination of loss coefficients for cylindrical valves]. Mekhanika mashinostroyeniya. No. 49 p. 77–84.
  • VALIPOUR M. 2017. Global experience on irrigation management under different scenarios. Journal of Water and Land Development. No. 32 p. 95–102. DOI 10.1515/jwld-2017-0011.
  • VIL'NER YA.M., KOVALEV YA.T., NEKRASOV B.B. 1976. Spravochnoye posobiye po gidravlike, gidromashinam i gidroprivodam [Reference textbook on hydraulics of hydraulic machines and hydraulic drives]. Ed. B.B. Nekrasov. Minsk. Vysheishaya shkola pp. 419
  • YUREV A.S. 2001. Spravochnik po raschetam gidravlicheskikh i ventiliatsionnykh sistem [Reference textbook on calculations for hydraulic and ventilation systems]. Ed. A.S. Yurev. Saint Petersburg. ANO NPO Mir i semya. ISBN 5-94365-022-9 pp. 1154
  • ZAKHAROV O.V., KARELIN V.YA., NOVODEREZHKIN R.A. 1976. Opyt ekspluatatsii krupnykh osevykh nasosov na magistral’nykh kanalakh [Experience of operating large axial pumps on major supply channels]. Gidrotekhnicheskoye stroitel’stvo. No. 8 p. 20–24.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-be937647-4e2b-40f5-b488-2946d364d1cc
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.