APPLICATION OF THE METHOD GALDIT FOR THE CARTOGRAPHY OF GROUNDWATERS VULNERABILITY: AQUIFER OF CHAOUIA COAST (MOROCCO)

This study focuses on the application of the new method, GALDIT, for the cartography of aquifer vulnerability due to seawater intrusion in the area of Chaouia coast (Morocco) which is characterized by intense agricultural activity and low depth of the groundwater. The method was developed by Chachadi and Lobo-Ferreira in 2001 after that modified in 2005 and is specific for coastal aquifers. The computing of the GALDIT index (GI) is based on six parameters: Groundwater occurrence (aquifer type); Aquifer hydraulic conductivity; Depth to groundwater level above the sea; Distance from the shore (distance inland perpendicular from shoreline); Impact of existing status of seawater intrusion in the area; and Thickness of the aquifer. This GALDIT is the indicator scores and summing them and dividing by the total weight for determining the relative role of each one. The results of this study show a vulnerability of the aquifer to the seawater intrusion with a high risk in the fringe littoral areas and areas in proximity to the estuary of Oum Er-Rbia River and can reach 3 km towards land.

Voltammetric studies on mercury behavior in different aqueous solutions for further development of a warning system designed for environmental monitoring

This article presents some results concerning the electrochemical detection of mercury in different aqueous solutions, using the following electrodes: platinum-disk electrode (PDE), carbon paste electrode (CPE) and glass carbon electrode (GCE). Using the voltam­metric technique applied on the above mentioned electrodes, the experimental conditi­ons were established in order to obtain the maximum current peaks, in terms of the best analytical characteristics for mercury analyses. The dependence equations of cathodic current intensity on the scan rate were established in the case of mercury ion discharge in each prepared solution of 0.984 mM HgCl2 in different electrolyte background: 0.1 M KCl, 0.1 M H2SO4 and 0.9 % NaCl. Among the three investigated electrodes, the carbon paste electrode presented the highest detection sensitivity toward mercury ions in the aqueous solution. It was observed that, at a low scanning rate, the pH had an in­si­gnificant influence over the current peak intensity; however, the quantification of this in­fluence was achieved using a quadratic polynomial equation, which could prevent the er­rors in mercury detection in case of industrial waste stream pH changes. The calibration curves for mercury in 0.9 % NaCl solution and in the tap water respectively were carried out

Fractional Factorial Design Study on the Performance of GAC-Enhanced Electrocoagulation Process Involved in Color Removal from Dye Solutions

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