توسعه مدل بهره برداری دستی به‌منظور بهبود کفایت و پایداری توزیع آب کشاورزی در کانال های اصلی آبیاری

نوع مقاله : مقاله پژوهشی

نویسندگان

1 دانشجوی کارشناسی ارشد سازه‌ های آبی، گروه مهندسی آب، پردیس ابوریحان، دانشگاه تهران، تهران، ایران.

2 دانشیار، گروه مهندسی آب، پردیس ابوریحان، دانشگاه تهران، تهران، ایران.

چکیده

این مطالعه به بررسی میزان تأثیر دو راهکار غیرسازه‌ای، «شرایط قابل پیش بینی نوسانات ورودی به شبکه» و «توزیع آب بر اساس نوبت‌دهی» در بهبود فرآیند بهره‌برداری کانال آبیاری پرداخته است. برای این منظور مدل شبیه‌ساز هیدرولیک جریان برای کانال اصلی شبکه آبیاری نکوآباد توسعه داده شد و با استفاده از دو شاخص ارزیابی عملکرد، میزان کفایت و پایداری توزیع آب در کانال اصلی ارزیابی شد. جهت بررسی میزان بهبود توزیع آب در هرکدام از راهکارها، برنامه‌ریزی توزیع آب روزانه مطابق هر راهکار در محیط MATLAB تهیه و با مدل ریاضی شبیه‌سازی لینک شد. جهت تعیین میزان اثرگذاری هر راهکار تحت سناریوهای مختلف بهره‌برداری، تحلیل مکانی تغییرات شاخص‌های ارزیابی عملکرد کفایت و پایداری توزیع آب، در GIS صورت گرفت. نتایج نشان داد که با بکارگیری راهکارهای غیرسازه‌ای وضعیت کلی بهره‌برداری به میزان محدودی بهبود می‌یابد، به‌نحوی‌که کفایت توزیع آب روزانه در کل شبکه در حدود 10-11 درصد در راهکار اول و در حدود 7-9 درصد در راهکار دوم نسبت به وضع موجود بهره‌برداری، بهبود یافته است. همچنین بهبود پایداری توزیع آب به‌طور میانگین در حدود 13 تا 15 درصد بدست آمد. بنابراین با استفاده از راهکار دوم، آب کشاورزی با توزیع مناسب‌تری در بخش میانی و پایین‌دست کانال به آبگیرها تحویل داده می‌شود.

کلیدواژه‌ها

موضوعات


عنوان مقاله [English]

Development of a manual operational model to improve the adequacy and dependability of agricultural water distribution in the main irrigation canals

نویسندگان [English]

  • Javad Pourmahmood 1
  • Seyed. Mehdy Hashemy Shahdany 2
1 M.Sc. Student in Water Structure Engineering, Department of Water Engineering, College of Aburaihan, University of Tehran, Tehran, Iran.
2 Associate Professor, Department of Water Engineering, College of Aburaihan, University of Tehran, Tehran, Iran.
چکیده [English]

This study investigated the effects of non-structural methods, as practical alternatives for upgrading the operational performance of the irrigation canal. To fulfill this objective, a hydraulic flow simulator model for the Nekoabad irrigation network's main canal was developed, calibrated and then, using two performance evaluation indicators, the adequacy and dependability of water distribution were evaluated. To evaluate water distribution improvement in each one of the non-structural solutions, daily water distribution planning; according to each solution was provided in MATLAB and linked to a simulated mathematical model. To determine the effectiveness of each approach, spatial analysis of changes insecure distribution (sufficient and sustainable) of agricultural water from upstream to downstream of the irrigation network, was done in GIS. The obtained results indicate that the adequacy of surface water distribution was improved 10-11% and 9-7% in the first and second non-structural alternatives, respectively. Besides, the dependability of surface water distribution shows about 13-15% within the application of the alternatives. The results reveal that the second alternatives, fulfilling appropriate water distribution along with the middle and downstream canal reaches, show a more or less good performance. 

کلیدواژه‌ها [English]

  • Adequacy of water distribution
  • Dependability of water distribution
  • Flow hydraulics
  • Non-structural solution
  • Upgrading the irrigation network
Abbasi, F., Sohrab, F., & Abbasi, N. (2017). Evaluation of Irrigation Efficiencies in Iran. Irrigation and Drainage Structures Engineering Research, 17(67), 113-120. (In Persian).
 Akkuzu, E., Ünal, H. B., & Karataş, B. S. (2007). Determination of water conveyance loss in the Menemen open canal irrigation network. Turkish Journal of Agriculture and Forestry, 31(1), 11-22.
Arwaa, H. M., & Omran I. M. (2016). Compared between the Measured Seepage Losses and Estimation and Evaluated the Conveyance Efficiency for Part of the Hilla Main Canal and Three Distributary Canals (HC 4R, HC 5R and HC 6R) of Hilla-Kifil Irrigation Project. Civil and Environmental Research, 8(2), 1-10.
Azargashb, S., Hashemy, M., & Roozbahani, A. (2020). Estimation of the minimum amount of Seepage and Operational Losses in the Earthen Canals using Ant Colony Optimization Algorithms. Journal of Water and Soil Conservation, Online Published, 27(6), 67-84. (In Persian)
Fipps, G. (2005). Potential Water Savings in Irrigated Agriculture for the Rio Grande Planning Region (Region M) 2005 Update. Texas Water Resources Institute.
Hashemy Shahdany, S. M., Sadeghi, S., & Adib Majd, E. (2017). Assessing the Performance of Nonstructural Operational Solutions for Main Irrigation Canal under Inflow Fluctuations (Case Study of Roodasht Main Irrigation Canal Zayanderood Basin). Irrigation and Drainage Structures Engineering Research, 18(68), 33-50. (In Persian)
Hassani, Y., & Hashemy Shahdany, S. M. (2019). Assigning Appropriate Irrigation Water Price Based on Probable Reaction of Farmers and Inter-sectoral Effects of the Price (Case Study: Roodasht Irrigation District). Journal of Water and Soil Conservation, 26(5), 149-164. (In Persian)
Jadhav, P. B., Thokal, R. T., Mane, M. S., Bhange, H. N., & Kale, S. R. (2014). Improving Conveyance Efficiency through Canal Lining in Command Area: A Case Study. International Journal of Engineering Innovation & Research, 3(6), 820-826.
Karimi Avargani, H., Hashemy Shahdany, S. M., Hashemi Garmdareh, S. E., & Liaghat, A. (2020). Determination of Water Losses through the Agricultural Water Conveyance, Distribution, and Delivery System, Case Study of Roodasht Irrigation District, Isfahan. Water and Irrigation Management, 10(1), 143-156. (In Persian)
Kedir, Y. (2015). Estimation of Conveyance Losses of Wonji-Shoa Sugar Cane Irrigation Scheme in Ethiopia. Journal of Environment and Earth Science, 5(17), 2224-3216.
Maroufi, S, & Soltani, H. (2006). Estimations of Conveyance and Distribution Efficiencies in Shawour Irrigation and Drainage Network Using an Exponential Equation. Journal of Agricultural Research, 6(1), 36-47. (In Persian)
Mohammadi, A., Rizi, A. P., & Abbasi, N. (2019). Field measurement and analysis of water losses at the main and tertiary levels of irrigation canals: Varamin Irrigation Scheme, Iran. Global Ecology and Conservation, 18, e00646.
Molden, D. J., & Gates, T. K. (1990). Performance measures for evaluation of irrigation-water-delivery systems. Journal of Irrigation and Drainage Engineering, 116(6), 804-823.
Orojloo, M., Hashemy Shahdany, S. M., & Roozbahani, A. (2017). Risk Assessment of main transmission line in Irrigation Networks with Application of Fuzzy Hierarchical method. Journal of Water and Soil Conservation, 24(5), 25-47. (In Persian)
Riahi, H., Abbasi, N., & Mollaei, A. (2013). Evaluation of Operational and Maintenance Problems in Kerman Irrigation Canals. Iranian Journal of Irrigation and Drainage, 7(2), 167-177. (In Persian)
Schuurmans, J., Schuurmans, W., Berger, H., Meulenberg, M., & Brouwer, R. (1997). Control of Water Levels in the Meuse River. Journal of Irrigation and Drainage Engineering, 123(3), 180-184.
Serra, P., Salvati, L., Queralt, E., Pin, C., Gonzalez, O., & Pons, X. (2016). Estimating Water Consumption and Irrigation Requirements in a Long‐Established Mediterranean Rural Community by Remote Sensing and Field Data. Irrigation and Drainage, 65(5),578-88.
Shahrokhnia, M. A., & Olyan Ghiasi, A. (2018). Methods of Seepage Estimation in Canals and Evaluation of Seepage and Distribution Efficiency in Doroodzan Irrigation System. Journal of Water Management in Agriculture, 4(2), 27-36. (In Persian)
Sheyni, A., Noori, M., & Minaei, S. (2015). Investigation of Water Losses and Providing Guidelines to Reduce Water in DEZ Irrigation Network (Case Study: Sabili and E4 Channels). Journal on Water Engineering, 3(2), 87-98. (In Persian)
Van Overloop, P. J., Negenborn, R. R., De Schutter, B., & Van De Giesen, N. C. (2010). Predictive Control for National Water Flow Optimization in The Netherlands. Intelligent Infrastructures, 42, 439-461.
Yaltaghian Khiabani, M., & Hashemy Shahdany, S. M. (2018). Design of Automatic Control System to Equitable Water Distribution under Water Shortages and Inflow Fluctuation Operational Conditions, Case study of Roodasht Irrigation district. Journal of Water and Soil Conservation, 25(5), 185-200. (In Persian).