مقالات رزومه دکتر محمدرضا حیدری

phosphorus considered among the major pollutants in water environments. Phosphoris contamination in surface water and groundwater resources originates mainly from the excessive use of fertilizers and uncontrolled land discharges of untreated wastewater. Discharge of it into the enviroment causes many negative health impact.The aim of this study was to investigate the efficiency of Fenton’s advanced oxidation process (H2O2/Fe+2) in the phosphorus removal from aqueous solutions. This is an experimental study which is carried out in laboratory scale. In this study, the effect of the important operational variables including pH,Fe+2 dosage, H2O2 dosage, initial phosphorconcentration,and Contact time were evaluated on the phosphate removal from Aqueous Solution by Fenton has been investigated.
Findings: The results showed that this method has the ability to remove phosphorus from aqueous solutions to less than standard level WHO (≤1mg/l).pH , ratio H2O2 / Fe+2 and Contact time have direct effect and initial phosphor concentration has reverse effect of phosphor removal. The results showed that the Fenton process, can reach respectively 97% phosphor removal. So that optimum condition of the phosphorus removal is in the Ratio H2O2 / Fe2+ dosage = 2200 /1000 mg/l, contact time of 60 min, pH = 3.5 in initial phosphor Concentration in 100mg /L. SPSS statistical test showed that the mean concentration in the before and after doing all process, there were significant differences ( P ≤ 0.05 ).
Discussion and Results show, the efficient removal of phosphate using Fenton process is desirable in the water treatment and pollution control.The results of the study is consistent with similar cases by other researchers.

Providing safe water for consumption with low cost is one of the main objective of water supply systems. A main source of nitrate in water is using excessive fertilizer. The high amounts of nitrate in water has a deteriorating effect on the environment and health so nitrate removal must be below the recommended levels of WHO guidelines. The purpose of this study is nitrate removal from aqueous solution by Poly Aluminum Silicate Chloride (PASIC) and Electro Coagulation process (EC). This experimental study was aimed to examine efficiency of the effects of various operating parameters such pH (4-11), initial nitrate (25-100 mg L-1), contact time (5-60 min), residual aluminum in finished water by application of EC process and PASIC.. The results showed that the applied methods have the ability to remove nitrate from aqueous solutions to levels less than standard those of WHO. PH and electrical potential difference had direct effect while contrast initial nitrate concentration had reverse effect of nitrate removal. The results showed that the coagulant PASIC and EC process, can reach nitrate removal respectively 65% and 55%, so that the optimum condition of the nitrate removal for EC was contact time of 60 min, a voltage of 30 W, pH = 10 and for PASIC was Concentration in 5 mg /L, contact time of 15 min, pH = 10. Our results showed significant differences between the mean concentration in all variables of the raw water before and after doing all process (P ≤ 0.05). According to our findings PASIC coagulants in removing nitrates AD better performance than electro coagulation process. Given the higher performance of PASIC in the low concentration and natural pH of water than the EC process, it would be more cost- effective and economical. Residual aluminum in finished water was below the recommended WHO guidelines and Iranian standard institute. In terms of cost and efficacy this method could be considered as an alternative method to the drinking water treatment plant.