The Department of Chemistry at the College of Education for Pure Sciences discusses an MA thesis entitled (Removing and adsorbing some textile dyes and contaminated drugs)
The Department of Chemistry at the College of Education for Pure Sciences discusses an MA thesis entitled (Removing and adsorbing some textile dyes and contaminated drugs)
The Department of Chemistry at the College of Education for Pure Sciences discusses an MA thesis entitled (Removing and adsorbing some textile dyes and contaminated drugs)
The Department of Chemistry at the College of Education for Pure Sciences at the University of Karbala discussed the master’s thesis tagged ((removal and adsorption of some tissue dyes and contaminated drugs on the surface of a nanocomposite polymer as a new maz surface)) for the student Haitham Muhiwi Awad under the supervision of a. Dr.. Mohammed Nazem Bahjat Al-Bayati and MD. Iyad Fadhil Muhammad Al-Qayyim, the aim of the message was to prepare a nanoparticle polymer and use it to remove and adsorb some of the organic pollutants of water, including tissue dyes and some of the contaminated drugs, and to choose the blue dye oxylone as one of the tissue dyes and vitamin B12 as one of the types of contaminated drugs to prepare a linear joint polymer through an acid reaction Triphthyalic with glycerol as a first step and adding an amount of malic acid anhydride to the linear co-polymer solution prepared in the first step to obtain a co-polymer coated, and loading the resulting polymer with the minutes of the active carbon to make the result a nano superimposed polymer , Was used to remove the adsorption both blue dye Almaxlon and vitamin B12, and the study of factors affecting the adsorption process and the most important of these factors, the effect of the concentration of adsorbent, Tothiraldalh acid PH, temperature effect and the effect of the amount of material mezze. The results showed that the adsorption efficiency increases with increasing adsorbent concentration and temperature, and adsorption efficiency increases with increasing solution PH while adsorption efficiency decreases with increasing amount of absorbent material.