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The main task of the design of earthen channels is to calculate the dimensions of the stable channel shape in which irreversible deformation of the channel cross-section does not occur. This article provides information on calculating the hydraulic parameters of a stable channel shape in the design of earthen channels in which channel deformation does not occur.

In this case, the need to adopt dynamic stable channel parameters that can work in harmony with nature through the method of checking the dynamic stability of the channel with the help of hydraulic modeling programs is based on modeling using HEC-RAS software and field-experience data.

Based on the research results, a new approach is required in the hydraulic calculation for the design of the earthen canals, taking into account the changing nature of the flow and discharge. Taking into account the natural increase of the bottom slope of the deformed channel bed due to sediment deposition, it is suggested to strengthen the side embankments of the channel and choose the flow slope that ensures the balance of the sediment balance.

The essence of the proposed method consists in adopting dynamic stable channel parameters that are in harmony with nature and do not require continuous cleaning and repair works in the calculation of earthen channels. For this, it is necessary to model the sediment transport with the help of hydraulic modeling programs of the earthen channels

  • Internet havola
  • DOI
  • UzSCI tizimida yaratilgan sana 13-09-2024
  • O'qishlar soni 109
  • Nashr sanasi 27-06-2024
  • Asosiy tilIngliz
  • Sahifalar69-76
English

The main task of the design of earthen channels is to calculate the dimensions of the stable channel shape in which irreversible deformation of the channel cross-section does not occur. This article provides information on calculating the hydraulic parameters of a stable channel shape in the design of earthen channels in which channel deformation does not occur.

In this case, the need to adopt dynamic stable channel parameters that can work in harmony with nature through the method of checking the dynamic stability of the channel with the help of hydraulic modeling programs is based on modeling using HEC-RAS software and field-experience data.

Based on the research results, a new approach is required in the hydraulic calculation for the design of the earthen canals, taking into account the changing nature of the flow and discharge. Taking into account the natural increase of the bottom slope of the deformed channel bed due to sediment deposition, it is suggested to strengthen the side embankments of the channel and choose the flow slope that ensures the balance of the sediment balance.

The essence of the proposed method consists in adopting dynamic stable channel parameters that are in harmony with nature and do not require continuous cleaning and repair works in the calculation of earthen channels. For this, it is necessary to model the sediment transport with the help of hydraulic modeling programs of the earthen channels

Muallifning F.I.Sh. Lavozimi Tashkilot nomi
1 Rahmatov M.I. Candidate of Technical Sciences, Associate Professor Qarshi muhandislik-iqtisodiyot instituti
2 Xazratov A.N. Doctor of Philosophy in Technical Sciences (PhD), Associate Professor Qarshi muhandislik – iqtisodiyot instituti
Havola nomi
1 Khazratov, A. N. (2021). Hydraulic Calculations of Earthen Channels for Reconstruction
2 Khazratov, A. N., Bazarov, O. S., Jumayev, A. R., Bobomurodov, F. F., & Mamatov, N. Z. (2023). Influence of cohesion strength in cohesive soils onchannel bed erosion. In E3S Web of Conferences (Vol. 410, p. 05018). EDP Sciences.
3 Khazratov, A. N. (2019). A sediment transport model for irrigation canals of Uzbekistan. European science review, (3-4), 104-108
4 Ergasheva, Y. A., & Khazratov, A. N. (2023). (Special contribution) Water culture of the people in Uzbekistan: Ancient traditions, structures, and modern global problems. In Water Projects and Technologies in Asia (pp. 327-338). CRC Press.
5 Depeweg, H., Paudel, K. P., & Méndez, N. (2014). Sediment transport in irrigation canals: a new approach. CRC Press.
6 Paudel, K. P. (2010). Role of sediment in the design and management of irrigation canals: Sunsari Morang Irrigation Scheme, Nepal. Wageningen University and Research.
7 Ankum, P. (2002). Design of open-channels and hydraulic structures. Collegedictaat CT3410
8 Eshev, S., Rahmatov, M., Khazratov, A., Mamatov, N., Sagdiyev, J., & Berdiev, M. (2021). Critical flow velocities in cohesive saline soils. In E3S Web of Conferences (Vol. 264, p. 03071). EDP Sciences.
9 S. Hohensinner, C. Hauer, and S. Muhar, “River Morphology, Channelization, and Habitat Restoration,” Riverine Ecosyst. Manag., pp. 41–65, 2018, doi: 10.1007/978-3-319-73250-3_3.
10 Chalov, R. S. (2007). Channel processes and their connection with the dynamics of channel flows. Scientific notes of the Russian State Hydrometeorological University, (5), 138-142.
11 Ibadzade, Yu. A. (1983). Water transportation in open channels. M.: Stroyizdat, 272
12 Allen, B. (2024). Finding a Daoist Perspective for Engineering. In China, Engineering, and Ethics: A Sketch of the Landscape (pp. 19-24). Cham: Springer International Publishing.
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