农田间灌溉系统的重建和现代化-灌溉供水能源效率的基础

M. Romashchenko, M. Yatsyuk, R. Saidak, D. Strokon, T. V. Matyash, V. Popov, I. V. Voytovych, V. Knysh
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引用次数: 1

摘要

摘要本文对乌克兰灌溉的现状、存在的问题及发展方向进行了分析。综合分析了下德涅斯特灌溉系统(LDIS)的复垦基础设施的技术条件和现有潜力,包括灌溉网络的农场间工程基础设施。研究发现,LDIS泵站设备长期处于折旧状态,技术状况很差,输水损失量为一次取水的32-35%,工程基础设施基本耗尽,技术条件和参数未达到要求水平。LDIS每1000立方米抽水的平均比电力能耗为351千瓦时,能源消耗成本在灌溉供水主要成本中的份额约为60%。陈旧设备的作业是在预算资金严重短缺的情况下进行的,几乎没有资金用于设备和设施的当前和重大维修。确定了每m3灌溉用水的主要运输成本,并计算了1 m3用水户的成本。对LDIS运行的资金来源进行了调查。2020年,LDIS的运营资金来自国家预算的66%,来自用水户收入的34%。其中明确指出,服务费用偿还制度不包括灌溉用水的费用。根据技术经济分析和能源审计的结果,计算了LDIS现代化改造项目所需的总投资。介绍了项目实施的主要成果,这将使农业总产值每年增加16 - 18亿亚元。由于NDIS改造引入了一套改造措施,取水点供水比能耗将由1.03 kWh / m3降低到0.65 kWh / m3,降幅达37%。总能耗将从0.03至0.21-0.25千瓦时/立方米。关键词:灌溉,审计,技术条件,能效,现代化,改造,投资
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reconstruction and modernization of inter-farm irrigation systems – the basis of energy efficiency of water supply in irrigation
Abstract. The paper presents the results of the analysis of the current state, problems, and the directions of irrigation development in Ukraine. A comprehensive analysis of the technical condition and existing potential of reclamation infrastructure, including inter-farm engineering infrastructure of irrigation networks at the Lower Dniester Irrigation System (LDIS) was made. It was found that the equipment of the pumping stations of LDIS has long been depreciated and is in very poor technical condition, water losses during transportation are 32-35% of the primary water intake, engineering infrastructure has almost run out of its resource and technical condition and parameters do not meet the required level. The average specific power energy consumption for1 water pumping at LDIS per 1000 m3 is 351 kWh, and the share of energy consumption costs in the prime cost of supplied water for irrigation is about 60%. The operation of obsolete equipment is carried out under the conditions of a severe deficit of budget funding, there are almost no funds for current and major repairs of equipment and facilities. The prime cost of water transportation for irrigation per m3 was determined, and the cost of 1 m3 of water for water users was calculated. The sources of financial support for the operation of LDIS were investigated. The operation of LDIS in 2020 was financed by 66% of the state budget and by 34% from the revenues obtained from water users. It was specified that the system of service cost reimbursement does not cover the cost of water supply for irrigation. Based on the results of the technical and economic analysis and energy audit, the total investment needed for a modernization and reconstruction project for LDIS was calculated. The main results of the project implementation are presented, which will increase the volume of gross agricultural output by 1.6 - 1.8 billion UAH / year. Due to the introduction of a set of reconstruction measures for the reconstruction of NDIS, the specific energy consumption of water supply at the water intake point will be reduced from 1.03 kWh / m3 to 0.65 kWh / m3 or by 37%. The total energy savings will be from 0.03 to 0.21-0.25 kWh / m3. Keywords: irrigation, audit, technical condition, energy efficiency, modernization, reconstruction, investments
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