Your search keyword '"Farid, H. Umar"' showing total 3 results

1. Groundwater Vulnerability Mapping in Faisalabad District Using GIS Based Drastic Model

Author

Shakoor Aamir, Zahid Mahmood Khan, Farid H. Umar, Sultan Muhammad, Aftab Ahmad Khan, Ahmad Ijaz, and Azmat Muhammad

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

The demand of groundwater has significantly increased during the past two decades to meet the food and fiber requirements due to constrained surface irrigation water. The groundwater has a major share to grow agriculture in Punjab-Pakistan, which produces more than 90% gains of the country. Beside the importance of groundwater, a major concern in recent years is the contamination of groundwater. The consecutive monitoring and mapping of aquifer water quality in large areas is a hectic job and not even economically feasible. Thus groundwater vulnerability maps are becoming more in demands to represents regional aquifer contamination potential. The aim of this research work was to find out the groundwater vulnerability potential zones in Faisalabad and its nearby areas, which is the fastest growing city of Pakistan. For this purpose, GIS based DRASTIC model was used to measure vulnerability related to agriculture in Faisalabad district. The inputs of the model are based on seven different layers. The results of the model were compared with groundwater samples. It was found that the DRASTIC model accurately identified the vulnerability of Faisalabad District with prediction efficiency of about 73%. The results revealed that more than 30% of study area was under high vulnerability potential. The areas under high vulnerable pollution are located in middle and upper part of Faisalabad District. The high vulnerable pollution in surrounding of Salarwala, Chak Jhumra and Khurianwala cities was due to shallow groundwater table, high recharge, gradual slope, sandy aquifer media and soil media consist of medium sand. The high vulnerable pollution in surrounding of Dijkot city was due to shallow groundwater table, gradual slope, vadose zone consist of course sand and high hydraulic conductivity. It is therefore recommended that Rainwater harvesting and ASR (Aquifer Storage and Recovery Wells) should be adopted in medium and high vulnerability areas to reduce water salinity.

Published

2018

2. Groundwater Vulnerability Mapping in Faisalabad District Using GIS Based Drastic Model.

Author

Lei, X., Cai, S., Yu, Y., Li, H., Shakoor, Aamir, Zahid, Mahmood Khan, Farid, H. Umar, Sultan, Muhammad, Aftab, Ahmad Khan, Ahmad, Ijaz, and Azmat, Muhammad

Published

2018

3. DEVELOPMENT OF GROUNDWATER FLOW MODEL (MODFLOW) TO SIMULATE THE ESCALATING GROUNDWATER PUMPING IN THE PUNJAB, PAKISTAN.

Author

Shakoor, Aamir, Arshad, Muhammad, Ahmad, Riaz, Khan, Zahid Mahmood, Qamar, Uzair, Farid, H. Umar, Sultan, Muhammad, and Ahmad, Fiaz

Subjects

GROUNDWATER flow, WATER temperature, GROUNDWATER management, WATER table

Abstract

The application of groundwater resources in Punjab, Pakistan to meet the crop water requirements is increasing rapidly due to constrained surface water supplies. However, the abundant abstraction of groundwater has created serious negative concerns in terms of lowering water table. Thus the sustainability of regional groundwater resources depends upon its proficient management through groundwater modeling technique. Therefore, a research was accomplished to quantify the groundwater pumping and to identify the groundwater depletion areas using MODFLOW model. Three pumping scenarios were developed up to year 2030: such as Scenario-I (Maintaining the current pumping rate for the study period); Scenario-II (Increase in pumping rate according to the historical trend); and Scenario-III (Adjusted canal water supplies and groundwater patterns). The results of Scenario-I indicated that the groundwater level would decline up to 14m for the study period. Scenario-II results showed maximum decline of groundwater level, which would be 18m up to year 2030. The adjusted canal and groundwater supplies among upper and middle part of the study area in Scenario-III, which will recover the groundwater by 2-3m in the middle part of the study area, gave a good management strategy. So, in lower and middle part of study area, groundwater should be artificially recharged and more canal should be supplied water to avoid depletion. [ABSTRACT FROM AUTHOR]

Published

2018