Development of a new compound based on low-density polyethylene degraded with zeolite waste for the removal of diesel from water

Development of a new compound based on low-density polyethylene degraded with zeolite waste for the removal of diesel from water

A new adsorbent composite has been developed based on low-density polyethylene and zeolite. This material was used to remove diesel as pollutant in an aqueous system. In the synthesis of the composite and diesel removal were combined these effects: capacity of the zeolite to degrade polyethylene, pa...

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Bibliographic Details
Published in:Journal of environmental management Vol. 271; p. 110939
Main Authors: Molina Flores, Samantha, Dumon, Michel, Elizondo Martínez, Perla, Sánchez Anguiano, Ma Guadalupe
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-10-2020
Elsevier
Subjects:
Chemical Sciences
Degradation
Diesel
Low-density polyethylene
Polymers
Remove
Water
Zeolite
Degradation
Water
Diesel
Zeolite
Remove
Low-density polyethylene
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Summary:A new adsorbent composite has been developed based on low-density polyethylene and zeolite. This material was used to remove diesel as pollutant in an aqueous system. In the synthesis of the composite and diesel removal were combined these effects: capacity of the zeolite to degrade polyethylene, partial filling of the zeolite with the polyethylene degradation products, favorable thermodynamic interactions between composite-diesel and porosity of the composite (imbibition effect). The term composite is used in the sense that partially degraded-polyethylene oligomers (waxes) are introduced into the zeolite pores in intergranular positions, insuring a good cohesion of waxes and zeolite. The material was synthetized easily by mixing low-density polyethylene and zeolite (1:1) and degraded at 200 °C at three different times: 2, 4 and 6 h. Several techniques as Differential Scanning Calorimeter, Thermogravimetric analysis, Size Exclusion Chromatography and X-Ray Diffraction are combined to study the steps of synthesis and the mechanism of diesel adsorption. The molecular weight obtained at different degradation time varied between 8470 and 99,100, while the molecular weight of the original LDPE was 136,300 g/mol. Diesel removal capacity was determined by TGA through the difference of weight loss at diesel evaporation temperatures (115–275 °C). All the prepared materials presented buoyancy in water and swelling of diesel. Highlighting among them the material prepared at 2 h with a weight loss of 39%, meanwhile the materials prepared for 4 and 6 h presented a weight loss of 29% and 23% respectively, that corresponded to the diesel removed from the water. [Display omitted] •LDPE is degraded partially until wax formation in presence of zeolite.•The wax is inserted inside the crystalline mineral structure of the zeolite.•Composite formed by LDPE degraded and waste zeolite removes residual diesel.•The composite act as adsorbing due to capillary effects and thermodynamic interactions.
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ISSN:0301-4797
1095-8630
DOI:10.1016/j.jenvman.2020.110939