Comprehensive approach to organization of the water level monitoring system for hydropower facilities
UDC: 621.317.791
DOI: -
Authors:
NIKOLAEV ANDREY A.
1,
FISKIN EVGENY M.1,
FISKINA MARGARITA M.1
1 Irkutsk National Research Technical University, Irkutsk, Russia
Keywords: regression analysis, simulation modeling, uniform distribution, water level monitoring, AnyLogic, GRACE, GRACE-FO, information and measurement system, Lake Baikal water area
Annotation:
The authors of the article supplement the solution of the monitoring tasks of the Baikal natural water area by the introduction of a new method for measuring water levels. This method is aimed at solving current problems and those ones unsolved up to now. The transition to a new measurement method will allow improving the accuracy of measurements, calculating both the average level of the entire Lake Baikal and the local one in certain regions of the lake. The possibility of radio data transmission makes it possible to take off data in remote areas of Lake Baikal. Our own innovative method of measuring water levels is characterized by simple configuration and calibration of the device sensitive elements, thus making it possible to establish the required number of monitoring points throughout Lake Baikal. Besides, such problems as improving the accuracy of methods for estimating reservoirs water filling for energy facilities such as hydroelectric power plants were also considered. Various methods for measuring the filling of the largest water objects are reviewed and evaluated. The most suitable method was chosen as the main control method, modeled first in the program, and then applied to a prototype measuring device.
Bibliography:
1. Vliyanie proektiruemykh GES Mongolii na stok reki Selenga v Rossii / V.M. Nikitin, N.V. Abasov, E.N. Osipchuk, T.V. Berezhnykh // Rossiya i Mongoliya: rezul'taty i perspektivy nauchnogo sotrudnichestva: trudy Mezhdunarodnoy nauchnoy konferentsii, Irkutsk, 06–08 apr. 2022 g. – S. 196–199.
2. Bychkov I.V., Nikitin V.M. Proekt "Vliyanie izmeneniya urovnya vody v ozere Baykal na sostoyanie ekosistemy ozera, opredelenie ushcherba ob"ektam ekonomiki i infrastruktury pribrezhnoy territorii respubliki Buryatiya, Irkutskoy oblasti v zavisimosti ot urovney ozera i sbrosov Irkutskoy GES" // Fundamental'nye issledovaniya v Vostochnoy Sibiri: k 75-letiyu akademicheskoy nauki v Vostochnoy Sibiri: monografiya. – Novosibirsk: Sibirskoe otdelenie RAN, 2023. – S. 562–571.
3. Mustafina S.I., Zhilyakov S.A. Primenenie neyronnykh setey dlya diagnostiki i prognozirovaniya tekhnicheskogo sostoyaniya oborudovaniya // Avtomatizatsiya i informatizatsiya TEK. – 2023. – № 7(600). – S. 13–21. – DOI: 10.33285/2782-604X-2023-7(600)-13-21
4. Esaulenko V.N. Chastotnyy datchik temperatury v skvazhine // Avtomatizatsiya i informatizatsiya TEK. – 2022. – № 3(584). – S. 6–11. – DOI: 10.33285/2782-604X-2022-3(584)-6-11
5. Urovennyy rezhim ozera Baykal: problemy i protivorechiya / V.M. Nikitin, N.V. Abasov, I.V. Bychkov, E.N. Osipchuk // Geografiya i prirodnye resursy. – 2019. – № 4. – S. 74–83.
6. Izmeneniya urovennogo rezhima oz. Baykal i raskhodov r. Angary v sovremennykh klimaticheskikh usloviyakh / N.V. Abasov, T.V. Berezhnykh, V.M. Nikitin, E.N. Osipchuk // Sovremennye tendentsii i perspektivy razvitiya gidrometeorologii v Rossii: materialy II Vserossiyskoy nauchno-prakticheskoy konferentsii, priurochennoy k 55-letiyu kafedry gidrologii i prirodopol'zovaniya IGU. – Irkutsk: Irkutskiy gosudarstvennyy universitet, 2019. – S. 81–91.
7. O regulirovanii urovennogo rezhima ozera Baykal / N.V. Abasov, M.V. Bolgov, V.M. Nikitin, E.N. Osipchuk // Vodnye resursy. – 2017. – T. 44, № 3. – S. 407–416. – DOI: 10.7868/S0321059617030026
8. Bychkov I.V., Nikitin V.M. Sovremennye problemy regulirovaniya urovnya ozera Baykal // Geografiya i prirodnye resursy. – 2022. – T. 43, № S5. – S. 13–24. – DOI: 10.15372/GIPR20220502
9. Ekologo-pravovye i ekonomicheskie osobennosti razvitiya Malomorskogo rybopromyslovogo rayona Baykala / A.P. Sukhodolov, A.P. Fedotov, M.M. Makarov [i dr.] // Rybnoe khozyaystvo. – 2021. – № 1. – S. 20–26. – DOI: 10.37663/0131-6184-2021-1-20-26
10. Termoprofiliruyushchaya sistema onlayn-monitoringa deyatel'nogo sloya na baze glubokovodnogo neytrinnogo teleskopa Baikal-GVD / I.A. Aslamov, M.M. Makarov, R.Yu. Gnatovskiy, I.A. Portyanskaya // Izvestiya Irkutskogo Gosudarstvennogo universiteta. Seriya: Nauki o Zemle. – 2022. – T. 42. – S. 3–15.
11. Primenenie vertikal'nykh priemnykh antenn dlya zvukopodvodnoy svyazi v neodnorodnom volnovode s ledovym pokrovom / M.V. Volkov, A.A. Lun'kov, M.M. Makarov, V.G. Petnikov // Doklady Rossiyskoy akademii nauk. Fizika, tekhnicheskie nauki. – 2021. – T. 496, № 1. – S. 65–68. – DOI: 10.31857/S2686740021010120
12. Avtomatizirovannye resheniya dlya ucheta energoresursov / NTTs KUMIR. – 2025. – URL: http://ntckumir.ru (data obrashcheniya 09.01.2025).
13. GRACE – Gravity Recovery and Climate Experiment. GRACE Gravity Map Image Gallery. – 2019. – URL: https://www2.csr.utexas.edu/grace/gallery/gravity/ (data obrashcheniya 08.01.2025).
14. Nikolaev A.A. Razrabotka innovatsionnogo metoda opredeleniya urovnya vody otkrytykh vodoemov s vozmozhnost'yu radiokanal'noy peredachi telemetricheskikh dannykh // Povyshenie effektivnosti proizvodstva i ispol'zovaniya energii v usloviyakh Sibiri: materialy vserossiyskoy nauchno-prakticheskoy konferentsii s mezhdunarodnym uchastiem: v 2 t. T. 2. – Irkutsk: Irkutskiy natsional'nyy issledovatel'skiy tekhnicheskiy universitet, 2022. – S. 333–338.
15. Pat. 2812614 Ros. Federatsiya, MPK G01F 23/14. Sposob izmereniya srednego urovnya vody v otkrytykh vodoemakh i ustroystvo dlya ego osushchestvleniya / A.A. Nikolaev, R.A. Belousov, A.A. Pinkin [i dr.]; patentoobladateli: FGBOU VO "IRNITU", NTTs "KUMIr". – № 2022131361; zayavl. 01.12.2022; opubl. 30.01.2024, Byul. № 4.
16. RMG 64-2003. GSI. Obespechenie effektivnosti pri upravlenii tekhnologicheskimi protsessami. Metody i sposoby povysheniya tochnosti izmereniy. – Vved. 2005–01–01. – M.: Izdatel'stvo standartov, 2004. – II, 18 s.
17. MI 2246-93. GSI. Pogreshnosti izmereniy. Oboznacheniya. – Vved. 1992–12–29. – SPb.: NPO "VNIIM im. D.I. Mendeleeva", 1992. – 9 s.
18. Bryukhanov V.A. Metody povysheniya tochnosti izmereniy v promyshlennosti. – M.: Izdatel'stvo standartov, 1991. – 108 s.
19. Sergeev A.G. Metrologiya i metrologicheskoe obespechenie. – M.: Vysshee obrazovanie, 2008. – 575 s.
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