In spite of the abundance of water resources in the watershed of Khenchela region, the strong urban growth and the expansion of agricultural land resulted in a considerable increase in water needs. This fact exposed groundwater and surface vulnerability to an overlooked growing pollution.In this vein, this study aims to determine the global quality of groundwater oriented to drinking water supply in Khenchela city. It focuses particularly on looking for minerals, nutrients and salt concentration and to assess their spatial and temporal variability. This area has been the subject of several previous studies due to the importance of its watershed (hydrology, geology, geomorphology, bacteriology...). The dosage of the considered parameters revealed vulnerability of water of the North and the North Western part of the watershed to the strong mineralization and excess of organic minerals. This requires in the short term an obligation to treat this water before distribution. A permanent monitoring and the use of other evaluation means for quality protection of this vulnerable resource have been taken into account.
Purpose This paper represents an analytical study conducted in the laboratory. The purpose of this paper is to monitor changes of some parameters related to water treatment in Hamman Bebagh (Bouhamdane Watershed). Design/methodology/approach This study was focused on three sites: river water, dam water and treated water during the first six months of 2014 (January-June). It included 16 physico-chemical parameters (PH, T, conductivity, etc.) and two bacteriological (E. coli, fecal streptococci). These parameters were analyzed to make a comparison between stagnant dam water (before and after treatment) and river water. Findings The obtained results over the whole period of analysis indicated that treated dam water was less loaded with organic materials, solids, dissolved salts (Cl−, Ca2+, and Mg2+) that were deposited at the bottom of the dam than dam water before treatment. On the other hand, river water was found to be more charged of suspended matter than the dam water and the treated water since flowing water carried all materials in its course. In terms of bacteriological quality, treated water was found to be free from all traces of bacteria analyzed that were present in the dam and the river before the treatment. Originality/value This study was proposed in order to see if it is necessary to establish a second treatment plant in the medium term. On the basis of this analysis, the end results have shown that the treatment plant was effective enough to reach the desired goal (treated water which respects the norms of OMS).
Purpose – The purpose of this paper is to give a better knowledge of water resources in the region of Ben Azzouz, and to improve the actual water management through harmonization between the various human communities needs. Design/methodology/approach – After an overview of the geology and hydroclimatology of the study area, the work will be to identify the factors involved in the water balance in the quantitative assessment of groundwater resources, to define areas of use and to estimate water needs for different uses. Findings – The study of the area shows two distinct water reservoirs: the deep aquifer composed of fractured limestone, sands and gravels, and surface massive dune sand aquifer. The impermeable formations are the metamorphic basement and overlying flyschs nappes. Because the average rainfall is relatively high (∼708 mm/year), the region is known by its agricultural vocation and, therefore, most of surface water is assigned to irrigation. The second potential water consumer is population with 2.660 Hm3/year, then industrial needs are 1.793 Hm3/year. Although there was no marked water deficit in the region in the period 2007-2013, it is now time to apply concepts of integrated and sustainable management of water resources in this region because of the growing agricultural practice and population needs. Originality/value – A quantitative diagnosis of water potential of the study area was evaluated for a better rational use of water resources.
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