Hydrogeoochemical Evaluation Of Middle Eocene Limestone Aquifer Using Multivariate Statistics And Visual Models, East El Minia Governorate, Egypt
Abdel-Aziz, A., Mostafa, A., Salman, S., Mohamed, R., Ismail, E. (2644). Hydrogeoochemical Evaluation Of Middle Eocene Limestone Aquifer Using Multivariate Statistics And Visual Models, East El Minia Governorate, Egypt. EKB Journal Management System, 2023(1), -. doi: 10.58675/2636-3305.1637
Abdel-Aziz A. Abdel-Aziz; Alaa Mostafa; Salman A. Salman; Ramadan S. A. Mohamed; Esam A. Ismail. "Hydrogeoochemical Evaluation Of Middle Eocene Limestone Aquifer Using Multivariate Statistics And Visual Models, East El Minia Governorate, Egypt". EKB Journal Management System, 2023, 1, 2644, -. doi: 10.58675/2636-3305.1637
Abdel-Aziz, A., Mostafa, A., Salman, S., Mohamed, R., Ismail, E. (2644). 'Hydrogeoochemical Evaluation Of Middle Eocene Limestone Aquifer Using Multivariate Statistics And Visual Models, East El Minia Governorate, Egypt', EKB Journal Management System, 2023(1), pp. -. doi: 10.58675/2636-3305.1637
Abdel-Aziz, A., Mostafa, A., Salman, S., Mohamed, R., Ismail, E. Hydrogeoochemical Evaluation Of Middle Eocene Limestone Aquifer Using Multivariate Statistics And Visual Models, East El Minia Governorate, Egypt. EKB Journal Management System, 2644; 2023(1): -. doi: 10.58675/2636-3305.1637

Hydrogeoochemical Evaluation Of Middle Eocene Limestone Aquifer Using Multivariate Statistics And Visual Models, East El Minia Governorate, Egypt

Al-Azhar Bulletin of Science
Volume 2023, Issue 1, January 2023  XML
DOI: 10.58675/2636-3305.1637
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Authors
Abdel-Aziz A. Abdel-Aziz1; Alaa Mostafa2; Salman A. Salman3; Ramadan S. A. Mohamed4; Esam A. Ismail4
1Misr Cement Maintenance (Misr Cement Group), Minia, Egypt
2Geology Department, Faculty of Science, Al Azhar University, Assiut Branch, Egypt
3Geological Sciences Dept., National Research Centre, Dokki, Giza, Egypt
4Geology Department, Faculty of Science, Minia University, Minia, Egypt
Abstract
East Minia is considered as one of the most promising areas for the establishment of numerous sustainable development projects. The Middle Eocene Limestone aquifer is the main water source needed for the establishment of these projects. Therefore, 32 collected samples from different wells and chemically analyzed to determine the suitability of that water for drinking and irrigation, as well as mentioned to the various factors controlling the water quality through the application of hydrochemical diagrams and statistical analysis. TDS value of the studied water samples was ranged from 271 to 2328 ppm which indicates that nearby is 93.8% of the investigated water samples are acceptable for drinking uses, while total hardness value ranged from 32.19 to 1035.44 which indicates that there is 93.8% of the studied groundwater samples are suitable for domestic uses. Statistical analyses, Gibbs and End-member diagrams indicate that the water-rock interactions, geochemical process (Redox), besides anthropogenic activities are the essential contributor to the investigated groundwater chemical composition. Thus, the studied water is suitable for irrigation purposes based on the calculated sodium hazards and salinity.
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