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Hydrology, Volume 11, Issue 5

May 2024 - 13 articles

Cover Story: Coal mining produces profound alterations in hydrological and pedological conditions, disturbing processes such as overland flow, infiltration, and percolation. The formation of Technosols in coal mining residue deposition areas induces changes in the water circulation in the unsaturated zone and increases the leaching of major ions and Potentially Toxic Elements (PTEs). This study was carried out through an integrative approach in the scope of the project “SHS–Soil health surrounding former mining areas: characterization, risk analysis, and intervention” to assess changes in the hydropedological conditions in an area with a coal mining waste pile that underwent self-burning. The research results express substantial contrasts regarding hydropedological zoning, including the development of different soil profiles, diverse PTE geochemistry and mineralogy… View this paper
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Articles (13)

  • Feature Paper
  • Article
  • Open Access
3 Citations
2,432 Views
17 Pages
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Hydropedological Characterization of a Coal Mining Waste Deposition Area Affected by Self-Burning

  • Jorge Espinha Marques,
  • Aracelis Narayan,
  • Patrícia Santos,
  • Joana Ribeiro,
  • Sara C. Antunes,
  • Armindo Melo,
  • Fernando Rocha,
  • Deolinda Flores and
  • Catarina Mansilha
Hydrology2024, 11(5), 62;https://doi.org/10.3390/hydrology11050062

25 April 2024

Coal mining often produces severe environmental effects, including impacts on the soil system and, specifically, on hydropedological conditions that control the leaching of significant ions and Potentially Toxic Elements (PTEs). The research objectiv...

Full Article
  • Review
  • Open Access
13 Citations
3,815 Views
28 Pages
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Perspective of Hydrodynamics in Microbial-Induced Carbonate Precipitation: A Bibliometric Analysis and Review of Research Evolution

  • Armstrong Ighodalo Omoregie,
  • Tariq Ouahbi,
  • Dominic Ek Leong Ong,
  • Hazlami Fikri Basri,
  • Lin Sze Wong and
  • Jibril Adewale Bamgbade
Hydrology2024, 11(5), 61;https://doi.org/10.3390/hydrology11050061

25 April 2024

Microbial-induced carbonate precipitation (MICP) is a promising process with applications in various industries, including soil improvement, bioremediation, and concrete repair. However, comprehensive bibliometric analyses focusing on MICP research i...

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  • Article
  • Open Access
1 Citations
3,493 Views
22 Pages
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A Simulation–Optimization Model for Optimal Aquifer Remediation, Using Genetic Algorithms and MODFLOW

  • Yiannis Ν. Kontos
Hydrology2024, 11(5), 60;https://doi.org/10.3390/hydrology11050060

24 April 2024

This paper investigates the optimal remediation process in an aquifer using Modflow 6 software and genetic algorithms. A theoretical confined aquifer has been polluted over a long period of time by unnoticed leakage in a pipeline conveying leachate f...

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