Chemical conversion
Khadijeh Khorram Margavi; Noureddin Nazarnezhad; Seyd Majid Zabihzadeh
Abstract
Background and objectives: Contamination in pulp mill wastewater and subsequently surface and underground water sources contamination with heavy metals is one of the most important problems which threatens the health of human being and other creatures. These metals penetrate and pollute the soil and ...
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Background and objectives: Contamination in pulp mill wastewater and subsequently surface and underground water sources contamination with heavy metals is one of the most important problems which threatens the health of human being and other creatures. These metals penetrate and pollute the soil and water. In this regard, this study investigated and determined heavy metals in the pulp mill wastewater before and after the wastewater treatment process. In this study the newspaper adsorbent was prepared and the efficiency of the adsorbent in the adsorption of copper, lead and cadmium metals was studied.Methodology: The adsorption experiments were performed to investigate the effect of the time of contact of the newspaper adsorbent and metals, and dose of the adsorbent. For this purpose, waste newspapers were first treated with sodium bicarbonate for one hour and then refluxed with 5% disodium hydrogen phosphate for 4 hours at 100 degrees Celsius and finally washed. Aqueous solutions with an initial concentration of 30 ppm for three metals lead, copper and cadmium were prepared by diluting the standard solution with distilled water. A specific amount of adsorbent was added to 10 ml of each solution and stirred in a mechanical shaker for specific times. Then they were filtered by filter paper purified and analyzed by atomic absorption spectroscopic device. After drying, the solid phase of the wastewater sample was subjected to acid digestion with nitric acid at a ratio of one to five. Then, the digested samples were analyzed with an atomic absorption spectrometer after washing.Results: The results of wastewater analysis in the basins before and after treatment showed that the amount of lead, copper and cadmium in the wastewater before treatment were 0.2129, 0.5983 and 0.0004 ppm, respectively. The amount of metals after the treatment process was 0.0469, 0.134 and 0.0001 ppm for lead, copper and cadmium, respectively. Also, according to the results, taking into account that the absorption rate was high and the same in the amount of absorbent used and the treatment times; the amount and time of the desired treatment in this experiment were not effective factors in the amount of metal absorption. Conclusion: The newspaper adsorbent is a good adsorbent for removing heavy metals from aqueous solutions due to high absorption capacity and low cost, which make the newspaper a potential adsorbent for the removal and wastewater treatment of the heavy metals. According to the results, the dosage and time of treatment with the newspaper adsorbent were not effective factors in metal removal.
shaghayegh rezanezhad; Hossein Resalati; Seyed Majid Zabihzadeh
Abstract
Biodegradable magnetic nanocomposites of cellulose have been widely used in adsorption of heavy metals from water. In this research, nano magnetic papers were produced by commercial craft long fiber (NMP), magnetic fibers with 1% gluconic acid (NMP / GA 1%), nanocrystalline cellulose (MNCC) as well as ...
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Biodegradable magnetic nanocomposites of cellulose have been widely used in adsorption of heavy metals from water. In this research, nano magnetic papers were produced by commercial craft long fiber (NMP), magnetic fibers with 1% gluconic acid (NMP / GA 1%), nanocrystalline cellulose (MNCC) as well as carboxymethyl cellulose (MCMC), and the adsorbents were used to remove heavy metals of lead (Pb) and nickel (Ni). The nanocomposites were evaluated by X-ray diffraction analysis (XRD), scanning electron microscopy (SEM), atomic force microscopy (AFM) and sample vibration magnetometer (VSM). X-ray diffraction patterns showed that magnetic fibers and composites were successfully produced and the nano magnetite peaks were observed in all samples. Examination of nano magnetite and cellulose nanocrystals showed that most of the particles were in the range of 1 - 19 and 1 - 65 nm, respectively. The highest magnetic saturation was related to the nanocrystalline cellulose magnetic composite. Adsorption samples were examined by a microwave plasma atomic emission spectrometer. The results of lead and nickel adsorption test showed that the NMP / GA 1%, MCMC and control sample adsorbents had highest and lowest amount of lead and nickel adsorption, respectively. Lead metal also has a higher adsorption than nickel with all the adsorbents.