| تعداد نشریات | 284 |
| تعداد نشریات سازمان | 82 |
| تعداد شمارهها | 3,043 |
| تعداد مقالات | 34,036 |
| تعداد مشاهده مقاله | 46,423,225 |
| تعداد دریافت فایل اصل مقاله | 77,489,596 |
ارائه نقشه راه پایه برای مدرن سازی شبکه های آبیاری در ایران | ||
| تحقیقات مهندسی سازه های آبیاری و زهکشی | ||
| دوره 24، شماره 90، خرداد 1402، صفحه 33-54 اصل مقاله (2.15 M) | ||
| نوع مقاله: مقاله پژوهشی | ||
| شناسه دیجیتال (DOI): 10.22092/idser.2023.362091.1542 | ||
| نویسنده | ||
| نادر حیدری* | ||
| دانشیار پژوهش مؤسسه تحقیقات فنی و مهندسی کشاورزی؛ سازمان تحقیقات، آموزش، و ترویج کشاورزی؛ کرج | ||
| چکیده | ||
| مدرنسازی آبیاری فرآیند به روز رسانی و بهبود طرح آبیاری موجود به منظور دستیابی به اهداف فنی، اقتصادی، یا اجتماعی پیشرفته است. این فرایند صرفا شامل ایجاد ساختارها و تجهیزات فیزیکی مدرن در شبکه آبیاری نیست، بلکه راهکارها و اصلاحات سازمانی، نهادی و سیاستی را نیز در بر میگیرد. این پژوهش با هدف تدوین نقشۀ راه پایۀ مدرنسازی شبکههای آبیاری در ایران و با تاکید بر مسائل و چالشهای مرتبط در بخش آب کشاورزی در سه گام (مرحله) اجرا شد. در گام های اول و دوم با مرور و بررسی منابع علمی داخلی و بین المللی مرتبط، مسائل و چالش ها و مؤلفه های مختلف اثر گذار بر فرآیند مدرنسازی شناسایی شد. پس از آن پرسشنامه ای جامع در این باره تدوین شد و نظرهای کارشناسی به دست آمدند. در گام سوم با برگزاری کارگاه هماندیشی در خصوص موضوع، با تسهیلگریهای لازم پاسخ پرسش های محوری مختلف طرح شده دریافت شد. آنگاه با تلفیق نتایج به دست آمده از برگزاری کارگاه با نتایج به دست آمده از گام های اول و دوم، مؤلفه های اصلی و کلیدی اثرگذار در نقشۀ راه پایۀ مدرنسازی شبکه های ابیاری مرتبط با اهداف مورد انتظار؛ مسائل، مشکلات، و موانع؛ راهبردها/راهکارها (اقدام ها)؛ نوع مدرنسازی و محل آن در شبکه؛ شاخص های اولویتی در انتخاب شبکه ها؛ شاخص ها و روش های پایش اثربخشی؛ و چگونگی ورود بحث مدرنسازی به قوانین، اسناد بالادستی، و برنامه های توسعه؛ شناسائی و تدوین شدند. بر اساس نتایج به دست آمده از این پژوهش، گروه مسائل و مشکلات اقتصادی-اجتماعی و نهادی-سیاستی-حقوقی، نسبت به مسائل دیگر گروهها یعنی فنی و زیست محیطی، اهمیت زیادتری دارند . از موارد شاخص این گروه میتوان به مسائل توانمندسازی بهره برداران، نظام بهرهبرداری، میزان پذیرش و مشارکت بهره برداران، و ضعفها در هماهنگی ها و ارتباط مناسب و سیستمی بین دستگاه های متولّی موضوع نام برد. نکات چالشی مهم دیگر از جنبههای اجرای نقشۀ راه و اتخاذ سیاست ها و راهکارهای مدرنسازی شبکه های آبیاری در کشور عبارتاند از: نگرش جامع به مدرنسازی و اجرای توامان آن از منبع تامین آب، شبکه انتقال آب، مزرعه، و سامانه آبیاری ("عملا مدرن سازی آبیاری")؛ لحاظ کردن فعالیت های بازسازی حین مدرن سازی شبکه؛ توجه به انواع پیش نیازها (فنی، مدیریتی، نهادی، و فناورانه) و ایجاد زیر ساختها و بسترهای سخت افزاری و نرم افزاری لازم؛ چالش تحویل حجمی و دقیق آب کاربردی به جای تحویل آن صرفا بر اساس حقابه ها؛ مسائل و چالشهای مرتبط با تربیت نیروی انسانی متخصص (کارشناس و مروّج)؛ و ظرفیت سازی در بهره برداران برای ایجاد بهره برداران مدرن. در اجرای فرآیند مدرنسازی باید به کاهش اثرهای جانبی آن از جنبه های افزایش احتمالی مصرف آب در حوضه (بروز پدیدۀ "اثربازگشتی")، کاهش جریان های برگشتی در حوضه، افزایش مصرف انرژی و افزایش هزینه های بهره برداران، نیز توجه کرد. | ||
| کلیدواژهها | ||
| بهره بردار"؛ راهبرد؛ شبکه آبیاری"؛ نقشه راه"؛ "؛ مدرن سازی" | ||
| عنوان مقاله [English] | ||
| Development of a basic road map for modernization of irrigation networks in Iran | ||
| نویسندگان [English] | ||
| Nader Heydari | ||
| Associate Professor, Agricultural Engineering Research Institute (AERI); Agricultural Research, Education, and Extension Organization (AREEO); Karaj; Iran. | ||
| چکیده [English] | ||
| Extended Abstract Introduction Irrigation modernization is the process of updating and improving the existing irrigation plan in order to achieve advanced technical, economical, or social goals. It goes beyond just creating modern physical structures and equipment in the irrigation network, but also includes organizational, institutional, and policy measures and reforms. Based on expert opinions, modernization of irrigation networks in Iran is very important and has many advantages. The activities carried out in the modernization projects that have been carried out in recent years in different countries, mainly include the change of water distribution systems based on open gravity channels to pipe networks under pressure to supply water to irrigation systems, and the implementation of pressurized irrigation methods (mainly drip or sprinkler irrigation methods) and intelligence and automation in irrigation systems in the fields.Modernization of systems has various advantages, including increasing reliability and flexibility, which lead to improved irrigation efficiency and increase crop yield; these two indicators play an important role in terms of durability and sustainability of irrigation projects. Methodology This research was carried out with the aim of developing a basic road map for the modernization of irrigation networks and emphasizing the related issues and challenges in the agricultural water sector in three steps. In the first and second steps, by reviewing and analyzing all related local and international scientific literature, issues, challenges, and various components affecting the modernization process were identified and then compiled in the form of a comprehensive questionnaire and expert opinions were obtained. n the third step, by holding a joint brainstorming workshop on the subject and with the necessary facilitations, the answers to the various key questions were obtained. Then, by combining the results of the workshop with the results obtained from the first and second steps, the main and key influencing factors in the basic road map of modernization of irrigation networks related to the following item were identified and compiled (step 4). These includes: expected goals; issues, problems, and obstacles; strategies/solutions (actions); what kind of modernization and where in the network; priority indicators in selecting networks; effectiveness monitoring indicators and the methods; and how the discussion of modernization enters laws, macro-level documents, and development plans. Results and Discussion After some brain storming discussions, some key questions were raised as topics discussed in the workshop, and with necessary facilitation, the related outputs were obtained. In Figures 1 and 2, the main and key components of the road map for the modernization of irrigation networks are presented and displayed according to the various key questions proposed on the subject. Considering the water crisis in the country and the need for optimal use of water in irrigation networks, as well as the results of the review and analysis of the opinions of experts in the field of water management and experts in the subject under discussion, the modernization of irrigation networks in the country is very necessary. When formulating the modernization roadmap, it is crucial to take various aspects of the issue into account. These include identifying effective parameters and necessary criteria for selecting and prioritizing networks for modernization, as well as understanding both internal and external obstacles that may hinder the modernization process. Additionally, it's important to assess the extent to which modernization contributes to real water conservation. The challenges and problems pertaining to the modernization of irrigation networks can be categorized into four main groups: technical, economic-social, institutional-legal, and environmental. Among these, the economic-social and institutional-legal aspects hold particular significance. Notably, some vital issues in these categories involve empowering farmers, addressing problems related to cooperative farming systems, improving farmer engagement and participation, establishing comprehensive farming systems, and enhancing coordination among different executive organizations and stakeholders. To successfully implement the modernization roadmap, it becomes imperative to develop comprehensive exploitation systems and water users associations. Moreover, special attention should be directed towards enhancing the networks' resilience and flexibility to effectively combat the impacts of climate change. Several other critical and challenging points also need consideration when adopting modernization policies and solutions in the country, including: In the process of implementing the modernization roadmap, the entire system, that is, from the water supply source, the conveyance network (both main and secondary canals), to the farm and the irrigation system, should be seen together and integrated, as far as the consensus of opinion is that the title of this integrated process should be called "irrigation modernization" (not irrigation network modernization). The challenge of paying attention to the rehabilitation and its integration and simultaneous implementation with the main activities of modernization. Modernization is one of the requirements of changing the supply-based water distribution system to a water demand-based distribution system. But at the same time, it should be noted that due to the lack of water in the networks due to drought, climate change, the expansion of the cultivated area, etc., and as a result of the increase in water demand, the water requirement of the command areas of the network should be provided by a conjunctive method and modernization should not cause social tensions in the network in this regard. The challenge of creating the platform and hardware and software infrastructures necessary for social and cooperative management of operation and maintenance of networks and in the framework of compiling and establishing a "participatory water exploitation system". The challenge of volume delivery of water and the accurate determination of applied and required water in the farm, considering that water delivery is based solely on traditional and historical concepts and methods, and the existence of previous traditional and outdated water rights is another challenge in the field of implementing modernization. Issues and challenges related to the weaknesses in the training of experts in the field of modernization and required technologies and the lack of related research projects in universities and research institutes. Challenges related to weaknesses in specialized training for extension staff and farmers and overall weaknesses in capacity building and the problem of creating modern farmers. Modernization is a complex and time-consuming process, and it must be implemented with necessary planning, and also the local community and the user should justify and accept it. In the first step, this concept should be explained and mainstreamed in the relevant literature and the expert community, and this term and its related programs should be properly entered into the country's macro-level documents and development plans. The purpose and necessity of modernization should be specified and targeted in such a way as to ensure the sustainability of the land and the satisfaction and the livelihood resilience of the beneficiaries. In the modernization program, the goal, the amount of development, and the method of doing the work should be mentioned and specified, and the required credibility should be taken into consideration, so that the legislator and the budget provider can be justified. The modernization program and the implementation of its plan must first be seen and prepared on a national scale (and even if possible with a basin view). That is, the plans should be seen comprehensively and for the sustainable development of the country and in a national scale. Also, the existence of a comprehensive road map with the necessary details is necessary so that the plans have a guarantee of implementation and are not influenced by the governments and the plans are not changed or deviated by their changes. | ||
| کلیدواژهها [English] | ||
| Beneficiaries", Modernization", Road map", ", Strategy" | ||
| مراجع | ||
|
Abarian A, Ranjpour R, Hashemi Dizj AR & Behbodhi D .(2023). Investigating of agricultural water rebound effect in environmental conditions according to the provinces of Iran. Journal of Environmental Sciences Studies 8(2):6435-6446 (In Persian)
Abbasi, N., Bahramlou, R., Keramati, M., & Yarqoli, B., (2009). Development of a strategic research program for the improvement and optimization of irrigation and drainage networks. Agricultural Engineering Research Institute. Final research report. No: 87.1347. 285 p. (In Persian)
Arif1, S. S. Pradipta, A. G., Murtiningrum, Subekti, E. Sukrasno, Prabowo, A., Djito, Sidharti, T. S., Soekarno, I & Fatah, Z. (2019). Toward modernization of irrigation from concept to implementations: Indonesia case. The 3rd International Symposium on Agricultural and Biosystem Engineering, IOP Conf. Series: Earth and Environmental Science 355.012024, DOI:10.1088/1755-1315/355/1/012024. Berbel, J., Expósito, A., Gutiérrez-Martín, C. & Mateos, L. (2019). Effects of the Irrigation Modernization in Spain 2002–2015. Water Resources Management, Published online 26 Feb., 2019, https://doi.org/10.1007/s11269-019-02215-w.
Berbel, J., Gutierrez-Martin, C., Rodriguez-Diaz, J.A, Camacho, E. & Montesinos P .(2015). Literature review on rebound effect of water saving measures and analysis of a Spanish case study. Water Resources Management, 29:663–678.
Burt, C.M. (2013). The irrigation sector shift from construction to modernization: what is required for success?. Irrigation and Drainage. 62: 247–254, DOI: 10.1002/ird.1703.
Davari, K., Omranian, H. & Ghanbari, F. (2014). Mashhad water management and work solution. Final Report, Mashhad Water and Wastewater Company. (In Persian)
Delavar, M., Morid, S., Morid, R, Farokhnia, A, Babaeiana, F., Srinivasanc, R. & Karimid, P. (2020) Basin-wide water accounting based on modified SWAT model and WA+ framework for better policy making. Journal of Hydrology, 585: 124762.
Heydari, N. (2023). Irrigation modernization and the rebound effect. Presentation in the panel of “Investigating the rebound effect phenomenon and the measures leading to the saving water in the farm and the necessary consideration for its control”. The 1st Congress on Agricultural Engineering, Agricultural Engineering Research Institute, Feb. 15, 2023, Karaj, Iran. (In Persian)
Heydari, N. & Nakhjavani Moghadam, M.M. Quantitate evaluation of pressurized irrigation development in Iran compared to the world. Journal of Water Management in Agriculture, 10 (2):60-80, (In Persian)
Heydari, N. & Sepehri Sadeghian, S. (2023 a). Investigating the irrigation modernization and analyzing its post rebound effect phenomenon. Iran-Water Resources Research, Vol. ?, No. ?: 20-30. (Under review) (In Persian)
Heydari, N. & Sepehri Sadeghian, S. (2023 b). An overview of the concept and issues of modernization of irrigation in the world and Iran. Scientific-Technical Report, No., Agricultural Engineering Research Institute, Karaj, Iran, 40 p. (Under publication) (In Persian)
Heydari, N., Sepehri Sadeghian, S. & Aboalhasani, J. (2022). Evaluation of expert views and opinions on the modernization of irrigation networks in Iran. Irrigation and Drainage Structures Engineering Research, 23 (88): 1-26. (In Persian).
Heydari, N., Sepehri Sadeghian, S. & Morsali, E. (2023). Development of strategies and road map of new management of irrigation and drainage networks, under condition of water scarcity in Iran. Research Report, No., Agricultural Engineering Research Institute, Karaj, Iran, 62 p. (Under Publication) (In Persian)
National Center for Strategic Studies. (2022). Report on the road map and strategic document of the development plan of the road map and strategic document for the rehabilitation and balancing of underground waters. Report. National Center for Strategic Studies of Agriculture and Water of Iran's Chamber of Commerce-Industries-Mines-Agriculture, 87 p., Tehran, Iran. (In Persian)
Oi, S. (1997). Introduction to Modernization of Irrigation Schemes. FAO Resource paper, Regional Water Development and Management Officer, Regional Office for Asia and the Pacific (RAP), FAO RAP Publication, Bangkok.
Omranian Khorasani, H., Davari, K., Bagheri, A. & Ghaysani, A. (2014). Implementation of strategic management of water resources: A proposed framework using a road map tool. Water and Sustainable Development, 1(2):101-112.(In Persian)
Renault, D. &Wahaj, R. (2011). Irrigation modernization: the hard way but the only way forward. Proceedings of the workshop held as a side event of the 21st ICID congress, Oct. 20, 201, Tehran, Iran.
Rijsberman, R.F.& Grigg N.S .(1985). Identifying priorities in irrigation systems: problems and solutions. In: 10th Technical Conference on Irrigation, Drainage and Flood Control (Reno, Nevada 1985) U.S. Committee of ICID.
Rocamora, C., Vera, J. Abadía, R. (2012). Strategy for efficient energy management to solve energy problems in modernized irrigation: Analysis of the Spanish case. Irrig. Sci., DOI 10.1007/s00271-012-0394-5.
Pereira, L.S. (1988) Modernization of irrigation systems: A case of research, oriented to improve management. Irrigation and Drainage Systems, 2:63-77.
Pfeiffer, L., Lin C.Y.C . (2014). Does efficient irrigation technology lead to reduced groundwater extraction?: Empirical evidence. Journal of Environmental Economics and Management, 67:189–208.
Playan, E. & Mateos, L.(2006). Modernization and optimization of irrigation systems to increase water productivity. Agricultural Water Management. 80: 100–116.
Rodriguez-Diaz JA, Camacho-Poyato E, Lopez-Luque R & Perez-Urrestarazu, L. (2008) Benchmarking and multivariate data analysis techniques for improving the efficiency of irrigation districts: An application in Spain. Agricultural Systems, 96:250-259.
Xu, H., Yang, R. & Song, J. (2021). Agricultural water use efficiency and rebound effect: A study for China. International Journal of Environmental Research and Public Health, 18:7151-7160. | ||
|
آمار تعداد مشاهده مقاله: 380 تعداد دریافت فایل اصل مقاله: 318 |
||