Dikra Bouras, Mohammed Rasheed, R. Barille and Mustafa Nuhad Aldaraji (2022) Efficiency of adding DD3+(Li/Mg) composite to plants and their fibers during the process of filtering solutions of toxic organic dyes. Optical Materials , 131(0925-3467), 112725, ُElsevier
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Abstract
A comparison was made between two types of plants, cauliflower and Anisosciadium, to find out which one is
better and to address the main catalyst and the factors that achieve the white color of the solution in the filtering
process. Where this process takes place under the sun’s rays. We worked on two methods, the first is to use a
portion of cauliflower leaves and peas stalks, and the second is to extract the fibers that make up the two
aforementioned materials and work on them. To improve the process of filtration and photocatalysis together, we
used a new method that gives excellent efficacy in just minutes, by depositing (Li/Mg) materials on one side, and
on the other hand depositing (Li/Mg)+kaolinite type DD3 on these plants without heat treatment.
This process preserves the shape of the fibers, leaves or leg, according to the types used, without being
damaged. The results showed effectiveness in filtering both polluting solutions without discrimination, but the
fastest degradation time was by using the fibers of both plants with precipitants (Li/Mg + DD3) in the case of
solutions with organic dye MB, where we obtained a percentage of 100 within 60 mn. Compared with the OII,
where is the estimated time to get the full liquidation 120 mn. The samples were studied before and after the
filtration process by infrared to confirm the presence of impurities belonging to the two highly toxic organic
solutions, and also the obtained solution was analyzed after the operation and it was found that it matches the
spectrum of distilled water.
better and to address the main catalyst and the factors that achieve the white color of the solution in the filtering
process. Where this process takes place under the sun’s rays. We worked on two methods, the first is to use a
portion of cauliflower leaves and peas stalks, and the second is to extract the fibers that make up the two
aforementioned materials and work on them. To improve the process of filtration and photocatalysis together, we
used a new method that gives excellent efficacy in just minutes, by depositing (Li/Mg) materials on one side, and
on the other hand depositing (Li/Mg)+kaolinite type DD3 on these plants without heat treatment.
This process preserves the shape of the fibers, leaves or leg, according to the types used, without being
damaged. The results showed effectiveness in filtering both polluting solutions without discrimination, but the
fastest degradation time was by using the fibers of both plants with precipitants (Li/Mg + DD3) in the case of
solutions with organic dye MB, where we obtained a percentage of 100 within 60 mn. Compared with the OII,
where is the estimated time to get the full liquidation 120 mn. The samples were studied before and after the
filtration process by infrared to confirm the presence of impurities belonging to the two highly toxic organic
solutions, and also the obtained solution was analyzed after the operation and it was found that it matches the
spectrum of distilled water.
Information
| Item Type | Journal |
|---|---|
| Divisions | |
| ePrint ID | 4415 |
| Date Deposited | 2023-09-13 |
| Further Information | Google Scholar |
| URI | https://univ-soukahras.dz/en/publication/article/4415 |
BibTex
@article{uniusa4415,
title={Efficiency of adding DD3+(Li/Mg) composite to plants and their fibers during the process of filtering solutions of toxic organic dyes},
author={Dikra Bouras, Mohammed Rasheed, R. Barille and Mustafa Nuhad Aldaraji},
journal={Optical Materials}
year={2022},
volume={131},
number={0925-3467},
pages={112725},
publisher={ُElsevier}
}
title={Efficiency of adding DD3+(Li/Mg) composite to plants and their fibers during the process of filtering solutions of toxic organic dyes},
author={Dikra Bouras, Mohammed Rasheed, R. Barille and Mustafa Nuhad Aldaraji},
journal={Optical Materials}
year={2022},
volume={131},
number={0925-3467},
pages={112725},
publisher={ُElsevier}
}