Reda Abd El Hamed, Ezat Ahmed, Ibrahim El-Sayed, Salah El Sayed, M. Gad
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引用次数: 0
摘要
综合利用灌溉水质指数、地球化学相和控制机制,对可持续发展条件下灌溉排水的最佳利用进行了测度。在2021年夏季,在Rosette Branch周围收集了50个排水样本。根据它们的理化性质,得到了主要离子浓度的顺序:hco3 -> Cl -> so42 -> CO 32和Na + > ca2 + > Mg 2+ > K +。由于蒸发作用和岩水相互作用,地表水相主要为碳酸氢钙镁型和硫酸钙镁型。根据IWQI结果,约4%的样品具有高限制灌溉用水,30%的样品具有中等限制灌溉用水,18%的样品具有限制灌溉用水。根据钠百分比(Na %)读数,50%的排水管可用于灌溉,而其他的则允许用于灌溉。根据钠吸收比(SAR)和残余碳酸钠(RSC),所有排水样品均可用于灌溉。
Application of Water Quality Indices Measurements to Study the Suitability of Drain Water Quality for Irrigation in Egypt
Irrigation water quality indices (IWQIs), geochemical facies, and controlling mechanisms were used in an integrated manner to measure the optimum use of drain water for irrigation under sustainable development conditions. During the summer of 2021, 50 samples of drain water were collected around Rosette Branch. The principal ion concentrations have been obtained in the following order, according to their physicochemical properties: HCO 3-> Cl - > SO 42-> CO 32-and Na + > Ca 2+ > Mg 2+ > K + . Due to evaporation and rock-water interaction, the surface water facies reflect calcium and magnesium bicarbonate type and the calcium and magnesium sulfate type. According to IWQI results, about 4% of samples had high restrictions for irrigation use, 30% had moderate restrictions, and 18% of the samples were subject to restrictions for irrigation use. In accordance with the sodium percentage (Na %) readings, 50% of the drains were acceptable for irrigation, while the other were permissible use for irrigation. All drain water samples scored acceptable for irrigation, according to sodium absorption ratio (SAR) and residual sodium carbonate (RSC).
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