Abstract
Human and industrial activities have contaminated the groundwater and surface water. This is a significant issue today. Therefore, the analysis of water quality is crucial. The purpose of this study is to evaluate the water quality index (WQI) of groundwater at various locations for physiochemical analysis. For calculating the current water quality status using statistical analysis and in the water quality index, the following parameters were considered: pH, total dissolved solids, total alkalinity, chlorides, hardness, dissolved oxygen, Biochemical oxygen demand, and chemical oxygen demand. The acquired results are compared to the Indian drinking water standard IS: 10500–2012. The investigation of the physicochemical and biological characteristics of this ground water sample indicates that the evaluation of water quality parameters and resources is necessary. In the water quality index of six different places Gudlavalleru, Ainampudi, Penjendra, Gudlavalleru Gudem, Angaluru and Kondiparru. In the six locations the pH value vary from (6.72–8.3), temperature vary from (34 °C-36.5 °C), acidity vary from (15–40), alkanity vary from (10–25), turbidity vary from (0.8–60.4), DO vary from (3.7–6.2), COD vary from (209–477), Iron vary from (3–5), fluorides is zero, phosphorous vary from (0–0.5), ammonium vary from (0–1), nitrates vary from (0–5), chlorides vary from (375–575), hardness vary from (200–505), nitrites vary from (0–1), total solids vary from (729–1573), suspended solids vary from (468–971) and dissolved solids vary from (301–602). Using dry flowers biosorbents for biosorptions of heavy metals from polluted water or treat contaminated groundwater. Biological reactions occur to control the concentration of contaminated water when fine, dried powder of flower waste biosorbents is added to contaminated water. In this study, we employ four different flower waste biosorbents, including Targets or marigold flower waste, Ixora-coccinea flower waste, Hibiscus flower waste, and Allamanda flower waste. The Targets or marigold flower waste biosorbents have the highest performance for removing toxic metals from contaminated water among the four flower waste biosorbents. Further optimization of the various parameters, i.e. biosorbents dosage, contact time, pH, temperature, and agitation speed, was performed on Targets or marigold flowers waste biosorbents in order to increase pollutant biosorption. Further research is required into the mechanisms of biosorbents, the kinetics and reusability of metal uptake, the recovery and regeneration of biosorbents, process design, and the commercial application of Targets or marigold flower refuse biosorbents.
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