Design and sustainability assessment of water strategy scenarios based on resource carrying capacity and multi-criteria decision-making: the case of Algiers

IF 3.8 3区经济学 Q3 ENERGY & FUELS

Utilities Policy Pub Date : 2025-06-16 DOI:10.1016/j.jup.2025.101987

Meriem Naimi Ait-Aoudia

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引用次数: 0

Abstract

In semi-arid countries, water scarcity is one of the leading challenges for urban and regional sustainable development. Urban growth trends and increasing competition for limited natural water resources among different uses and localities have prompted governments to resort to intensive desalination. Taking the case of Algiers Province, this paper examines the possibilities of supporting urban growth through a sustainable urban water intervention strategy in the face of drought threats. To this end, it puts forward an original scenario selection method based on targeted water resource carrying capacity (WRCC) and combined multi-criteria decision-making (MCDM) techniques. The research novelty lies in the fact that scenarios are developed by cross-referencing supply and demand scenarios in response to a predefined WRCC. To achieve this, we adopt a scenario approach that focuses on improving the existing water system and adapting it to anticipated growth and drought trends while reducing dependence on conventional water, which is subject to disputes between different uses and localities. Finally, the sustainability assessment of scenarios relies on the use of hybrid MCDM methods, in which Game theory is employed to combine criteria weights. The results indicate that intensive desalination is not a sustainable option and that reducing demand, along with the use of recycled water, can achieve a balance between supply and demand, supporting growth while maintaining efficient management of water resources. The proposed model can help officials and decision-makers plan a sustainable water strategy for drought-prone areas.

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基于资源承载能力和多标准决策的水战略方案的设计和可持续性评估：阿尔及尔案例

在半干旱国家，缺水是城市和区域可持续发展面临的主要挑战之一。城市发展的趋势以及不同用途和地区之间对有限的自然水资源日益激烈的竞争促使政府采取密集的海水淡化措施。本文以阿尔及尔省为例，探讨了在面临干旱威胁的情况下，通过可持续的城市水干预战略支持城市增长的可能性。为此，提出了一种基于目标水资源承载能力（WRCC）和多准则决策（MCDM）相结合的情景选择方法。研究的新颖之处在于，情景是根据预先确定的WRCC，通过交叉参考供需情景而制定的。为了实现这一目标，我们采用了一种情景方法，重点是改善现有的水系统，使其适应预期的增长和干旱趋势，同时减少对传统水的依赖，这受到不同用途和地方之间的争议。最后，方案的可持续性评估依赖于混合MCDM方法的使用，其中采用博弈论来组合标准权重。结果表明，密集的海水淡化不是一个可持续的选择，减少需求以及使用循环水可以实现供需平衡，在支持增长的同时保持对水资源的有效管理。提出的模型可以帮助官员和决策者为干旱易发地区制定可持续的水资源战略。

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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来源期刊

Utilities Policy ENERGY & FUELS-ENVIRONMENTAL SCIENCES

CiteScore

6.80

自引率

10.00%

发文量

审稿时长

66 days

期刊介绍： Utilities Policy is deliberately international, interdisciplinary, and intersectoral. Articles address utility trends and issues in both developed and developing economies. Authors and reviewers come from various disciplines, including economics, political science, sociology, law, finance, accounting, management, and engineering. Areas of focus include the utility and network industries providing essential electricity, natural gas, water and wastewater, solid waste, communications, broadband, postal, and public transportation services. Utilities Policy invites submissions that apply various quantitative and qualitative methods. Contributions are welcome from both established and emerging scholars as well as accomplished practitioners. Interdisciplinary, comparative, and applied works are encouraged. Submissions to the journal should have a clear focus on governance, performance, and/or analysis of public utilities with an aim toward informing the policymaking process and providing recommendations as appropriate. Relevant topics and issues include but are not limited to industry structures and ownership, market design and dynamics, economic development, resource planning, system modeling, accounting and finance, infrastructure investment, supply and demand efficiency, strategic management and productivity, network operations and integration, supply chains, adaptation and flexibility, service-quality standards, benchmarking and metrics, benefit-cost analysis, behavior and incentives, pricing and demand response, economic and environmental regulation, regulatory performance and impact, restructuring and deregulation, and policy institutions.