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Hydrokinetic powered irrigation network automation: A scalable architecture for the enablement of real-time automated decentralized control of the irrigation water delivery system in developing countries

机译：流体动力灌溉网络自动化：可扩展的体系结构，用于实现发展中国家灌溉水输送系统的实时自动化分散控制

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This paper proposes an innovative design for the enablement of smart irrigation networks. The proposed design is a self-sustaining system that relies on harnessing hydrokinetic power at a suitable scale from slow moving water bodies. Our proposed design, Hydrokinetic powered Irrigation Network Automation (HINA), serves as a building block for network expansion and integration. HINA is a novel design for a unique opportunity to explore renewable energy potential of extremely slow moving waters in irrigation canals and the overall approach takes into account different factors like cost, efficiency, performance, scalability and reliability. The aim is to optimize all these factors simultaneously. This paper deals with the design, simulation, testing and implementation of HINA. It has three sub-units: Power Generation Unit (PGU), the Power Electronic Unit (PEU) and the Motor Drive Unit (MDU). Different design components are analyzed, modeled, simulated and tested to verify the working principles. A prototype system is also implemented and its working is verified in our laboratory before finally being tested and installed at a local irrigation canal, Khaira distributary in Lahore, Pakistan.

机译：本文提出了一种实现智能灌溉网络的创新设计。拟议的设计是一种自我维持的系统，该系统依赖于从缓慢移动的水体中以合适的规模利用水动力。我们提出的设计，即由水动力驱动的灌溉网络自动化（HINA），可作为网络扩展和集成的基础。 HINA是一种新颖的设计，它为探索灌溉渠中极慢运动的水域的可再生能源潜力提供了独特的机会，并且整体方案考虑了成本，效率，性能，可扩展性和可靠性等不同因素。目的是同时优化所有这些因素。本文涉及HINA的设计，仿真，测试和实现。它具有三个子单元：发电单元（PGU），电力电子单元（PEU）和电动机驱动单元（MDU）。对不同的设计组件进行了分析，建模，模拟和测试，以验证工作原理。还实施了原型系统，并在我们的实验室中对其工作进行了验证，然后最终在巴基斯坦拉合尔的Khaira分水厂的本地灌溉渠进行了测试和安装。

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《IEEE Energy Conversion Congress and Exposition》|2017年|4773-4779|共7页
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作者
Mohammad A. Bharmal; Syeda Q. Akbar; Sana Noor; Rabiya Farooq; Nauman A. Zaffar;
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Irrigation; Wind turbines; Blades; Water resources; Hydraulic turbines;

机译：灌溉;风力涡轮机;叶片;水资源;水力涡轮机;

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专利

1. Developing a centralized automatic control system to increase flexibility of water delivery within predictable and unpredictable irrigation water demands [J] . Computers and Electronics in Agriculture . 2019,第期

机译：开发一种集中式自动控制系统，以提高可预测和不可预测的灌溉用水需求内的水分递送的灵活性
2. DETERMINATION OF WATER-YIELD RELATIONSHIP OF COMICE PEAR {PYRUS COMMUNISL,) VARIETY IRRIGATED BY THE IRRIGATION AUTOMATION SYSTEM (IAS) BASED ON PROGRAMMABLE LOGIC CONTROLLER (PLC) [J] . Cafer Gencoglan, Serpil Gencoglan, Yusuf Nikpeyma, Fresenius environmental bulletin . 2019,第4期

机译：基于可编程逻辑控制器（PLC）的灌溉自动化系统（IAS）灌溉的黄花梨（PYRUS COMMUNISL，）品种的水产关系测定
3. DETERMINATION OF WATER-YIELD RELATIONSHIP OF COMICE PEAR {PYRUS COMMUNISL,) VARIETY IRRIGATED BY THE IRRIGATION AUTOMATION SYSTEM (IAS) BASED ON PROGRAMMABLE LOGIC CONTROLLER (PLC) [J] . Cafer Gencoglan, Serpil Gencoglan, Yusuf Nikpeyma, Fresenius environmental bulletin . 2019,第4期

机译：基于可编程逻辑控制器（PLC）的灌溉自动化系统（IAS）灌溉的黄花梨（PYRUS COMMUNISL，）品种的水产关系测定
4. Hydrokinetic powered Irrigation Network Automation: A scalable architecture for the enablement of real-time automated decentralized control of the irrigation water delivery system in developing countries [C] . Bharmal Mohammad A., Akbar Syeda Q., Noor Sana, IEEE Energy Conversion Congress and Exposition . 2017

机译：水动力灌溉网络自动化：可扩展架构，用于启用发展中国家灌溉水输送系统的实时自动化控制
5. Decision support systems for managing efficient irrigation water deliveries---A case study of irrigated agriculture in the Middle Rio Grande. [D] . Manana, Nkosinathi David. 2011

机译：用于管理有效灌溉水输送的决策支持系统-以里约格兰德中部的灌溉农业为例。
6. Understanding clients providers and the institutional dimensions of irrigation services in developing countries: A study of water markets in Bangladesh [O] . Khondoker A. Mottaleb, Timothy J. Krupnik, Alwin Keil, -1

机译：了解发展中国家的灌溉服务的客户提供者和机构规模：孟加拉国的水市场研究
7. Multi-Country Scale Assessment of Available Energy Recovery Potential Using Micro-Hydropower in Drinking, Pressurised Irrigation and Wastewater Networks, Covering Part of the EU [O] . Djordje Mitrovic, Miguel Crespo Chacón, Aida Mérida García, 2021

机译：使用微水中的多国比例评估使用微水中的饮用，加压灌溉和废水网络，覆盖欧盟的一部分
8. Automation of Pivot Sprinkler Irrigation Systems to More Efficiently Utilize Rainfall and Irrigation Water [R] . Wendt, C. W. , Runkles, J. R. , Gerst, M. D. , 1980

机译：自动喷水灌溉系统可以更有效地利用降雨和灌溉水

Hydrokinetic powered irrigation network automation: A scalable architecture for the enablement of real-time automated decentralized control of the irrigation water delivery system in developing countries

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