Soheil Talebi - Department of Civil Engineering, Faculty of Engineering, Shiraz University, Shiraz, Iran.
Gholamreza Rakhshandehro - Department of Civil Engineering, Faculty of Engineering, Shiraz University, Shiraz, Iran.
Mohamad ParsiMehr - Department of Environment, Faculty of Natural Resources and Environment, Malayer University, Malayer, Hamedan, Iran.
Shima Rezaei - Department of Environmental Health Engineering, Environmental Health Research Center, Research Institute for Health Development, Kurdistan University of Medical Sciences, Sanandaj, Iran.

Background: The improper exploitation of water resources by humans has disrupted the natural balance of groundwater. Given the water resources restriction, it is crucial to manage these resources properly, recognize the current situation, and anticipate the harvesting or feeding effects. In this regard, simulators or models can act as valuable tools.Methods: In this research, we performed quantitative modeling of groundwater flow in the Quar-Maharlu plain, Fars Province, Iran using the PMWIN software. The model included three years’ calibration (۲۰۱۱-۲۰۱۴) for hydraulic conductivity coefficient and one year’s verification (۲۰۱۴-۲۰۱۵). To evaluate the model error in calibration and verification, the root mean square deviation (RMSD) was used. After simulating the aquifer to optimize the artificial recharge location by the flood spreading method, different scenarios were defined and examined by considering the natural and artificial factors.Results: The RMSD values for calibration were ۱.۵۵, ۱.۴۹, and ۱.۵۶ m for ۲۰۱۱, ۲۰۱۲, and ۲۰۱۳, respectively. The RMSD for verification of one year was ۱.۷۷ m, indicating the acceptable ability of the model to predict groundwater flow parameters. The stock variation for the whole aquifer was -۸.۸۸ mm۳ in ۲۰۱۴. In the next step, the best recharging location was selected to create the maximum head increase (۵.۳cm) in the entire area of the plain.Conclusion: One of the effective ways to offset the negative balance is to strengthen the aquifer through artificial recharge.

Artificial recharge, Groundwater, Numerical modeling, optimization, PMWin, Quar Plain