Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Groundwater quality status based on a modification of water quality index in an arid area, Iran
Increasing population, high demand for food, and uncontrolled abstraction of aquifers have severely affected the water quality. This study aimed to evaluate the water quality of 17 deep agricultural wells in Bahabad plain from the perspective of irrigation and drinking. In order to determine the water quality of wells and analyze the water quality index (WQI), a set of statistical methods such as a fuzzy analytic hierarchy process (FAHP) and TOPSIS were used. WQI is considered one of the primary methods for assessing drinking water quality. Still, due to the discrepancy between the results and the WQI (WHO), it was decided to modify the WQI method. The integrated use of FAHP-WQI and the TOPSIS method led to significant changes in the grading and the classification of water wells. The results showed that these two methods combined could be used as a good and complementary technique to eliminate ranking inconsistencies by WQI. Combining WQI results with GIS also allows for a deeper analysis of drinking water quality. The results showed that most of the water quality problems are due to wells in the northern region of the plain, and more than 41% of wells in this region are not in good condition. HIGHLIGHTS This study aims to evaluate groundwater quality of the Bahabad plain.; TDS, pH, EC, and HCO3− are the most important parameters of the project.; FAHP was used to identify parameter weights in the Bahabad plain WQI.; The use of TOPSIS method leads to many changes in the ranking and classification of water wells.;
Groundwater quality status based on a modification of water quality index in an arid area, Iran
Increasing population, high demand for food, and uncontrolled abstraction of aquifers have severely affected the water quality. This study aimed to evaluate the water quality of 17 deep agricultural wells in Bahabad plain from the perspective of irrigation and drinking. In order to determine the water quality of wells and analyze the water quality index (WQI), a set of statistical methods such as a fuzzy analytic hierarchy process (FAHP) and TOPSIS were used. WQI is considered one of the primary methods for assessing drinking water quality. Still, due to the discrepancy between the results and the WQI (WHO), it was decided to modify the WQI method. The integrated use of FAHP-WQI and the TOPSIS method led to significant changes in the grading and the classification of water wells. The results showed that these two methods combined could be used as a good and complementary technique to eliminate ranking inconsistencies by WQI. Combining WQI results with GIS also allows for a deeper analysis of drinking water quality. The results showed that most of the water quality problems are due to wells in the northern region of the plain, and more than 41% of wells in this region are not in good condition. HIGHLIGHTS This study aims to evaluate groundwater quality of the Bahabad plain.; TDS, pH, EC, and HCO3− are the most important parameters of the project.; FAHP was used to identify parameter weights in the Bahabad plain WQI.; The use of TOPSIS method leads to many changes in the ranking and classification of water wells.;
Groundwater quality status based on a modification of water quality index in an arid area, Iran
Mohammad Reza Goodarzi (Autor:in) / Mohammad Javad Abedi (Autor:in) / Amir Reza R. Niknam (Autor:in) / Mahnaz Heydaripour (Autor:in)
2022
Aufsatz (Zeitschrift)
Elektronische Ressource
Unbekannt
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