A Review Paper on Smoak Absorber Plate from Chemical Analysis of Air Particulate Matter Trapped by a Porous Material, Synthesized from Silica Fume, Sodium Alginate, Calcium Iodate, Sodium Bicarbonate, Ultrapure Deionized Water


Authors : Tina M.Khandale; Tejas Kade; Pooja Sonkusale; Kishan Watwani; ShivaniChahande

Volume/Issue : Volume 7 - 2022, Issue 10 - October

Google Scholar : https://bit.ly/3IIfn9N

Scribd : https://bit.ly/3DgrfiE

DOI : https://doi.org/10.5281/zenodo.7261682

Abstract : The aim of this paper was the evaluation of hybrid porous materials, Sustainable materials synthesized from by-Products and alginates for Clean air and better Environment, realized with raw materials such as silica fume. Hydrogen peroxide was used as pore former to generate a porosity able to trap particulate matter (PM). These new materials are compared with the reference recently proposed porous SUNSPACE hybrid material, which was obtained in a similar process, by using silica fume. The testing of material was done by testing the concentration of hydrocarbon, carbon dioxide and carbon. The concentration of hydrocarbon and carbon dioxide released was less which proves that the porous material can adsorb hydrocarbon & carbon dioxide release in air. The material prepared was successfully able to reduce the quantity of byproducts by trapping the emitted gases and this process of preparing porous material is highly efficient adsorbent to control contamination of air is possible

Keywords : Plastic, porous material, air, absorbent, SUNSPACE, chemicals.

The aim of this paper was the evaluation of hybrid porous materials, Sustainable materials synthesized from by-Products and alginates for Clean air and better Environment, realized with raw materials such as silica fume. Hydrogen peroxide was used as pore former to generate a porosity able to trap particulate matter (PM). These new materials are compared with the reference recently proposed porous SUNSPACE hybrid material, which was obtained in a similar process, by using silica fume. The testing of material was done by testing the concentration of hydrocarbon, carbon dioxide and carbon. The concentration of hydrocarbon and carbon dioxide released was less which proves that the porous material can adsorb hydrocarbon & carbon dioxide release in air. The material prepared was successfully able to reduce the quantity of byproducts by trapping the emitted gases and this process of preparing porous material is highly efficient adsorbent to control contamination of air is possible

Keywords : Plastic, porous material, air, absorbent, SUNSPACE, chemicals.

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