Environmental applications of evaporative salt precipitation in porous media: numerical modeling and experimental investigations

Laufzeit: 01.03.2019 bis 31.12.2020
Abteilung: LH2

Inhalt

Understanding saline water evaporation processes is important for a wide range of applications in many fields of research. In an agricultural and environmental context, salt recycling processes may occur during irrigation periods, which can lead to excess accumulation of solutes and the salinization of soil and groundwater. Accumulation of salt in soil adversely hinders plant growth, vegetation and crop production and is considered the most widespread soil degradation processes in the world. Further, the evaporation of saline water has been recognized as the main reason of salt build-up leading to the damage of many constructions and alteration of cultural monuments. Salt crystallization, resulting from saline water evaporation, occurs when the concentration of the salt dissolved in the pore water reaches a saturated concentration. Many monuments have been altered because of the salt crystallization such as the monuments in the archeological site in Cartago in Tunis. This project focuses on the evaporative salinization in porous media, a research topic of worldwide importance. In the framework of this project, we will focus on developing a predictive simulation tool which can be used for both scientific research purposes and for environmental and civil engineering applications. The focus of this project is split into two application areas. First, we will investigate soil and groundwater salinization influenced by salt recycling due to irrigation practices in an arid Tunisian area.

Second, we focus on understanding the influence of evaporative salt precipitation on the alteration and damage of monuments in archaeological sites in Tunisia.

Stellvertreter

Bearbeiter

Maiza, Safa

Mannai, Aroua

Zemni, Nesrine

Abteilung

LH2

LMHE (Laboratoire de Modélisation en Hydraulique et Environnement)

 

Zeitraum

01.03.2019 bis 31.12.2020

Finanzen

Deutscher Akademischer Austauschdienst (DAAD)

Partner

Prof. Rachida Bouhlila, National Engineering School of Tunis (ENIT)

Dr. Johannes Hommel, IWS, University of Stuttgart

Dr. Nima Shokri, University of Manchester

Prof.Dr. Sander Huismann, Research center of Jülich

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