Prospective methods for determining water losses from irrigation systems to ensure food and water security of Ukraine
- Details
- Category: Content №2 2023
- Last Updated on 28 April 2023
- Published on 30 November -0001
- Hits: 3354
Authors:
H.Hapich*, orcid.org/0000-0001-5617-3566, Dnipro State Agrarian and Economic University, Dnipro, Ukraine
O.Orlinska, orcid.org/0000-0003-3202-7577, Technical University “Metinvest Polytechnic”, Zaporizhzhia, Ukraine
D.Pikarenia, orcid.org/0000-0003-1405-7801, Technical University “Metinvest Polytechnic”, Zaporizhzhia, Ukraine
I.Chushkina, orcid.org/0000-0003-1251-6664, Dnipro University of Technology, Dnipro, Ukraine
A.Pavlychenko, orcid.org/0000-0003-4652-9180, Dnipro University of Technology, Dnipro, Ukraine
H.Roubík, orcid.org/0000-0002-7498-4140, Czech University of Life Sciences, Prague, the Czech Republic
* Corresponding author e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu. 2023, (2): 154 - 160
https://doi.org/10.33271/nvngu/2023-2/154
Abstract:
Purpose. To develop a complex system for technical diagnostics of soil hydrotechnical structures of irrigation systems for operative identification of damaged sites, reduction of nonproduction water losses, and maintaining ecological and economic efficiency of the hydroeconomic national complex in the context of water and food security.
Methodology. The result of the represented scientific study is reached by complex application of geophysical methods of the Earth’s natural pulse electromagnetic field (NPEMFE) and vertical electrical sounding (VES). That allows determining qualitative indices and parameters of the damaged sites of hydrotechnical structures and water filtration paths. Mathematical methods for determining quantitative parameters of filtration losses are applied. Analytical and technoeconomic comparison of some most widely used methods with the complex of techniques proposed in the study are performed.
Findings. Field studies and analytical calculations helped determine that, depending on the design parameters of retention basins and modes of their operations, water losses are from 50 to 60 m3/month per 1 m of the structure length. In some cases total filtration losses per month can reach up to 100 m3 per 1 m of the length. As for the monetary equivalent, in terms of average water cost being 0.12 EUR/m3, water loss in one standard retention basin with the conventional dimensions of 100 100 m is EUR 2.5 thousand per month (EUR 12.5 thousand per season).
Originality. The possibility of using a complex of geophysical methods for diagnosing technical conditions of soil dams of retention agricultural basins has been substantiated scientifically. The complex is of high informativity making it possible to determine rapidly the sites with increased filtration in the hydrotechnical objects. According to the comparison of the available models for evaluating possible filtration losses from the retention basins of irrigation systems, the parameters of estimate indicators, ensuring high reliability of the results, have been substantiated.
Practical value. Point determination of the sites with filtration water losses makes it possible to focus the repair and renewal operations on the most damaged sites that reduce considerably the time and costs along with the increase in general efficiency of the irrigation system operation.
Keywords: water resources, water loss, regulating pool, irrigation system, complex of geophysical methods
References.
1. Angelakιs, A. N., Zaccaria, D., Krasilnikoff, J., Salgot, M., Bazza, M., Roccaro, P., …, & Fereres, E. (2020). Irrigation of World Agricultural Lands: Evolution through the millennia. Water, 12(5), 1285. https://doi.org/10.3390/w12051285.
2. Vozhegova, R. A., Goloborodko, S. P., Granovska, L. M., & Sakhno, G. V. (2013). Irrigation in Ukraine: realities of today and prospects of revival. Irrigation agriculture, 3-12.
3. Romashchenko, M. I., Baliuk, S. A., Verhunov, V. A., Vozhehova, R. A., Zhovtonoh, O. I., Rokochynskyi, A. M., Tarariko, Yu. O., & Truskavetskyi, R. S. (2021). Sustainable development of land reclamation in Ukraine under conditions of climate change. Agrarian Innovations, (3), 59-64. https://doi.org/10.32848/agrar.innov.2020.3.10.
4. Ministry of Ecology and Natural Resources of Ukraine (2018). Strategy of Irrigation and Drainage in Ukraine until 2030. Retrieved from https://menr.gov.ua/news/32835.html.
5. Erpicum, S., Crookston, B. M., Bombardelli, F., Bung, D. B., Felder, S., Mulligan, S., Oertel, M., & Palermo, M. (2020). Hydraulic Structures Engineering: An evolving science in a changing world. WIREs Water, 8(2). https://doi.org/10.1002/wat2.1505.
6. Camarero, P. L., & Moreira, C. A. (2017). Geophysical investigation of earth dam using the electrical tomography resistivity technique. REM – International Engineering Journal, 70(1), 47-52. https://doi.org/10.1590/0370-44672016700099.
7. Guireli Netto, L., Malagutti Filho, W., & Gandolfo, O. C. (2020). Detection of seepage paths in small earth dams using the self-potential method (SP). REM – International Engineering Journal, 73(3), 303-310. https://doi.org/10.1590/0370-44672018730168.
8. Makovetsky, B. I., Sankov, P. M., Papirnyk, R. B., Tkach, N. O., & Trifonov, I. V. (2021). Management of the technical condition of hydraulic structures. IOP Conference Series: Materials Science and Engineering, 1021(1), 012022. https://doi.org/10.1088/1757-899x/1021/1/012022.
9. Orlinska, O., Pikarenia, D., Chushkina, I., Maksymova, N., Нapich, H., Rudakov, L., Roubík, H., & Rudakov, D. (2022). Features of water seepage from the retention basins of irrigation systems with different geological structures. Industrial, Mechanical and Electrical Engineering. https://doi.org/10.1063/5.0109330.
10. Litvinenko, P. E., & Kovalenko, O. V. (2009). Electrometric methods for determining the places of filtration losses on hydraulic structures of reclamation systems. Land reclamation and water management, 209-220.
11. Revil André, & Jardani, A. (2017). The self-potential method: Theory and applications in Environmental Geosciences. Cambridge University Press.
12. Adamenko, Y. S., Arkhypova, L. M., & Mandryk, O. M. (2017). Territorial normative of quality of hydroecosystems of protected territories. Hydrobiological journal, 53(2), 50-58. https://doi.org/10.1615/HydrobJ.v53.i2.50.
13. Hapich, H., Pikarenia, D., Orlinska, O., Kovalenko, V., Rudakov, L., Chushkina, I., …, & Katsevych, V. (2022). Improving the system of technical diagnostics and environmentally safe operation of soil hydraulic structures on small rivers. Eastern-European Journal of Enterprise Technologies, 2(10(116)), 18-29. https://doi.org/10.15587/1729-4061.2022.255167.
14. Hao, G., & Wang, H. (2012). Study on Signals Sources of Earth’s Natural Pulse Electromagnetic Fields. Communications in Computer and Information Science, 316. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-34289-9_72.
15. Chushkina, I., Rudakov, D., Orlinskaya, O., Hapich, H., Maksimova, N., & Rudakov, L. (2020). Comparative evaluation and improvement of calculation of filtration losses of water from regulat-ing pools of irrigation systems. Problems of Water supply, Sewerage and Hydraulic, (34), 37-43. https://doi.org/10.32347/2524-0021.2020.34.37-43.
16. Chikabvumbwa, S. R., Sibale, D., Marne, R., Chisale, S. W., & Chisanu, L. (2021). Geophysical investigation of dambo groundwater reserves as sustainable irrigation water sources: Case of Linthipe Sub-basin. Heliyon, 7(11). https://doi.org/10.1016/j.heliyon.2021.e08346.
17. Kashtan, V., Hnatushenko, V., & Zhir, S. (2021). Information Technology Analysis of Satellite Data for Land Irrigation Monitoring. International Conference on Information and Telecommunication Technologies and Radio Electronics (UkrMiCo), 1-4. https://doi.org/10.1109/UkrMiCo52950.2021.9716592.
18. Adamo, N., Al-Ansari, N., Sissakian, V., Laue, J., & Knutsson, S. (2020). Geophysical methods and their applications in Dam Safety Monitoring. Journal of Earth Sciences and Geotechnical Engineering, 291-345. https://doi.org/10.47260/jesge/1118.
19. Chinedu, A. D., & Ogah, A. J. (2013). Electrical resistivity imaging of suspected seepage channels in an earthen dam in Zaria, north-western Nigeria. Open Journal of Applied Sciences, 03(01), 145-154. https://doi.org/10.4236/ojapps.2013.31020.
20. Ociepa, E., Mrowiec, M., & Deska, I. (2019). Analysis of water losses and assessment of initiatives aimed at their reduction in selected Water Supply Systems. Water, 11(5), 1037. https://doi.org/10.3390/w11051037.
Newer news items:
- Profitability determinants of companies in IT industry: case of Ukraine - 28/04/2023 00:36
- Definlandization and the new economic policy of Ukraine in the post-war period - 28/04/2023 00:36
- Efficiency and internationalization of mining and metallurgical groups of Ukraine - 28/04/2023 00:36
- Peculiarities of evaluating the results of implementation of regional development programs in Ukraine - 28/04/2023 00:36
- Economic security of Ukraine under the destructive influence of exogenous determinants - 28/04/2023 00:36
Older news items:
- The impact of Industry 4.0 on the digital transformation of manufacturing enterprises in Ukraine - 28/04/2023 00:36
- Influence of Industry 4.0 on strategies of companies entering the global market of data integration services - 28/04/2023 00:36
- Increasing the efficiency of using backline and private railway infrastructure in the conditions of the transportation market - 28/04/2023 00:36
- Phenol adsorption onto olive pomace activated carbon: modelling and optimization - 28/04/2023 00:36
- Theoretical and legal aspects of the regulation of environmental and land legal relations in the conditions of martial law in Ukraine - 28/04/2023 00:36
- Social responsibility for the safety and health of employees at work - 28/04/2023 00:36
- Improving the process of occupational risk management according to the Haddon matrix - 28/04/2023 00:36
- Improving the environmental efficiency of glass furnace chimneys using heat recovery technologies - 28/04/2023 00:36
- Investment management and financial development in infrastructure renovation of a sustainable-built environment - 28/04/2023 00:36
- Peculiarities of thermomodernization of the heating system of military infrastructure complexes - 28/04/2023 00:36