SUSTAINABLE TRANSBOUNDARY HYDROPOWER SYSTEM ON DRINA RIVER AS SYNERGY OF WATER -FOOD-ENERGY-CLIMATE NEXUS

S. Stevović
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Abstract

The Drina River has always been a source of drinking water and irrigation for food production, with all its tributaries and branching catchment area across the territories of Bosnia and Herzegovina, Montenegro and Serbia. It has connected peoples and cultures for centuries with its bridges. At the same time, with its great head, the Drina has always represented a significant hydropower potential. Throughout history, numerous watermills have been built on it. Currently, there are several constructed hydro-technical facilities on the Drina and in its catchment area. Among them, the most important are dams, with roads over them, associated hydroelectric power plants and belonging structures for flood control, water intakes for drinking water or irrigation. Due to multiple possible, almost always conflicting purposes, as well as several states, entities and other stakeholders, the management of Drina River water resources from the angle of the water-food-energy and climate nexus is an extremely complex problem. In addition to the impact on hydropower, agriculture, forestry, transport, irrigation and drainage, tourism and socio-cultural events, the construction of such strategic structures has also an impact on the climate of the Western Balkans. The issue of optimization within the nexus of the water-food-energy-climate requires holistic research to find synergistic solutions. These solutions are certainly a compromise. But inevitably, they must meet the criteria of sustainable development and the requirements of reducing global warming, according to the set conditions of the adopted European Green Plan for the Western Balkans. This paper proposes a methodology for finding optimal/compromise hydropower solutions, which synergistically include all parameters of influence. Holistic research of sustainable hydropower systems on the Drina River, from the angle of the water-food-energyclimate nexus, is presented. Particularly detailed analyses of the course of the river between the towns of Foča and Goražde, as well as the downstream part between Zvornik and mouth, known as the Lower Drina. In these sections, the most pronounced conflict is whether water will be used for drinking and/or food production and/or energy production and what impact possible solutions have on the climate of the region.
干旱河上可持续跨界水电系统:水-粮食-能源-气候关系的协同作用
德里纳河一直是饮用水和粮食生产灌溉的来源,其所有支流和分支集水区横跨波斯尼亚-黑塞哥维那、黑山和塞尔维亚的领土。几个世纪以来,它通过桥梁将各国人民和文化联系在一起。与此同时,德里纳河有着巨大的头部,一直代表着巨大的水电潜力。纵观历史,无数的水磨坊都建在上面。目前,在德里纳河及其集水区有几个已建成的水利技术设施。其中,最重要的是水坝,上面有道路,相关的水力发电厂和用于防洪的归属结构,饮用水或灌溉的取水口。由于多个可能的、几乎总是相互冲突的目的,以及多个国家、实体和其他利益相关者,从水-食物-能源和气候关系的角度管理德里纳河水资源是一个极其复杂的问题。除了对水电、农业、林业、运输、灌溉和排水、旅游和社会文化活动产生影响外,这种战略结构的建设也对西巴尔干地区的气候产生影响。优化水-粮食-能源-气候关系的问题需要进行全面的研究,以找到协同的解决办法。这些解决方案当然是一种妥协。但是,它们不可避免地必须符合可持续发展的标准和根据已通过的《欧洲西巴尔干绿色计划》所规定的条件减少全球变暖的要求。本文提出了一种寻找最优/折衷水电解决方案的方法,该方法协同包括所有影响参数。从水-食物-能源-气候关系的角度,对德里纳河流域可持续水电系统进行了全面研究。特别详细地分析了fo a和Goražde之间的河道,以及兹沃尼克和河口之间的下游部分,被称为下德里纳河。在这些章节中,最明显的冲突是水是否将用于饮用和/或粮食生产和/或能源生产,以及可能的解决方案对该地区气候的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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