Web-based tool for analyzing the seawater-freshwater interface using analytical solutions and SEAWAT code comparison

Web-based tool for analyzing the seawater-freshwater interface using analytical solutions and SEAWAT code comparison

Saltwater Intrusion (SI) poses a significant environmental threat to freshwater resources in coastal aquifers globally. The primary objective of this research is to illustrate the variations in the saltwater-freshwater interface using several established analytical solutions, integrated within a use...

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Bibliographic Details
Main Authors: Asaad M. Armanuos, Mohamed Selmy, Hewida Omara, Bakenaz A. Zeidan, Sobhy R. Emara
Format: Article
Language:English
Published: Groundwater Science and Engineering Limited 2025-09-01
Series:Journal of Groundwater Science and Engineering
Subjects:
saltwater intrusion
numerical simulation
coastal aquifers
sea level rise
seawat
Online Access:https://www.sciopen.com/article/10.26599/JGSE.2025.9280053
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Summary:Saltwater Intrusion (SI) poses a significant environmental threat to freshwater resources in coastal aquifers globally. The primary objective of this research is to illustrate the variations in the saltwater-freshwater interface using several established analytical solutions, integrated within a user-friendly web-based tool. Three case studies, including a hypothetical unconfined coastal aquifer, an experimental coastal aquifer, and a real-world coastal aquifer in Gaza, were applied to examine the interface dynamics using the developed tool, built with JavaScript. To simulate variable-density flow within the Gaza coastal aquifer, the public domain code SEAWAT was employed. The resulting lengths of seawater intrusion, as simulated by SEAWAT and the observed toe length, were compared with those obtained from the web-based analytical solutions under both constant head and constant flux boundary conditions. This comparison demonstrated a strong correlation between the experimental results, SEAWAT model outputs, and analytical solutions. This research provides valuable insights into SI in coastal aquifers, with a specific focus on the impact of Sea Level Rise (SLR) on the shifting position of the seawater intrusion toe. The outcomes are presented through an accessible web-based interface, thereby promoting broader dissemination and practical application of the research outcomes.
ISSN:2305-7068

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