Energy-based hydro-economic modeling of climate change effects on the Upper Euphrates Basin

Journal of Water & Climate Change Pub Date : 2024-02-01 DOI:10.2166/wcc.2024.550

Ayca Aytac, Mustafa Sahin Dogan, M. Cihat Tuna

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Abstract

Climate change and global warming are expected to affect water resources management and planning, requiring adaptations to changing conditions. Therefore, it is very important, especially for decision-makers, to identify demand deficits due to less water availability with climate change that may occur in the existing water supply system in advance. FEHEM, a hydroeconomic optimization model of the integrated reservoir system of the Upper Euphrates Basin, which is the largest and main basin providing water flow to the Euphrates River, is developed. Using a 45-year historical hydrological dataset, water management and hydroelectric operations are evaluated with a linear programming model at monthly time steps. The effects of climate change on the Upper Euphrates Basin are evaluated under low and high carbon emission scenarios. According to the average of the different climate scenarios studied in the model, the average decrease in flows is 37.5%. With climate change, peak flows will occur about 1–2 months earlier on average. As a result of these hydrological changes, the total amount of energy production in the basin will decrease by about 54% and energy revenue by the same percentage.

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基于能源的气候变化对幼发拉底河上游流域影响的水文经济建模

气候变化和全球变暖预计将影响水资源管理和规划，需要适应不断变化的条件。因此，特别是对于决策者来说，提前识别现有供水系统中可能出现的因气候变化导致供水量减少而造成的需求缺口非常重要。FEHEM 是幼发拉底河上游流域（为幼发拉底河提供水流的最大主要流域）综合水库系统的水文经济优化模型。利用 45 年的历史水文数据集，采用线性规划模型对水管理和水电运行按月时间步长进行评估。在低碳排放和高碳排放情景下，评估了气候变化对幼发拉底河上游流域的影响。根据模型研究的不同气候情景的平均值，流量平均减少 37.5%。随着气候变化，峰值流量将平均提前约 1-2 个月出现。由于这些水文变化，该流域的能源生产总量将减少约 54%，能源收入也将减少相同的百分比。

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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Journal of Water & Climate Change

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