Abstract
The alluvial fan of Mandali located between latitude 30˚45’00” N longitude 45˚30’00” E in east of Diyala Governorate, Iraq. Thirty-five wells were identified in the study area with average depth of 84 m and estimated area of 21550 ha. A three-dimensional conceptual model was prepared by using GMS program. From wells cross sections, four geological layers have been identified. The hydraulic conductivity of these layers was calculated for steady state condition, where the water levels for nine wells distributed over the study area were observed at same time. Afterward, PEST facility in the GMS was used to estimate the aquifer hydraulic characteristics. Other characteristics such as storage coefficient and specific yield have been determined from one year field observations that were collected by General Authority of Groundwater, Diyala Governorate. Also, the observations were used for calibration of unsteady state model. Then wells were hypothetically redistributed and increased to 103 wells, assuming a distance of 1500 m between the wells, a well productivity rate of were 7 l/s, annual rainfall rate was used for recharging. Three different wells operating times were suggested and these 6, 12, and 18 hr/day with total discharge of 150, 300, 450 m3/day and maximum drawdown of 7, 11, and 20 m respectively. For water quality assessment, the collected groundwater samples were analysed at the laboratory. Results showed that the TDS in all wells was ranged from 1000-3000 mg/l but TDS in well number 18 was exceeded 3000 mg/l which indicate that the groundwater in this well is not recommended to be used for irrigation. According to Iraqi standard for drink (IQS 2009), it can be used for drinking if saline treatment units were provided.
Highlights
Water being one of the necessities for life, the human through history has striven to locate and develop it
Software has been developed as hydraulics modelling to simulate groundwater flow, which gives a better idea on of the nature of groundwater usage [3]
The research methodology consists of collecting data for 31 wells drilled at the study area, represented by the location of wells, their depths, and groundwater levels, and the physical and chemical characteristics of groundwater and these were presented using GIS program including the alluvial fan boundaries borrowed from the satellite maps
Summary
Water being one of the necessities for life, the human through history has striven to locate and develop it. The lack of surface water due to climatic change and construction of dams on the water sources in the riparian countries increases the importance of groundwater as an alternative source. It is requiring knowledge and study on groundwater at the above areas in order to control and organize usage, as well as to define the quality and indicate the suitability for domestic, irrigation and industrial purposes [2]. Software has been developed as hydraulics modelling to simulate groundwater flow, which gives a better idea on of the nature of groundwater usage [3]
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