Polyurethane Foams for Domestic Sewage Treatment

The aim of the study was to assess the possibility of using polyurethane foams (PUF) as a filling of a foam-sand filter to directly treat domestic sewage with increased content of ammonium nitrogen and low organic carbon to nitrogen ratio (C/N). The study compared performance of two types of flexibl...

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Veröffentlicht in:	Materials 2021-02, Vol.14 (4), p.933
Hauptverfasser:	Dacewicz, Ewa, Grzybowska-Pietras, Joanna
Format:	Artikel
Sprache:	eng
Schlagworte:	Biofilms Biofiltration Biomass Bulk density Cellular structure Diameters Dimensional stability Efficiency Furniture Hydrophobicity Laboratories Manufacturers Microorganisms Morphology Nitrogen Organic carbon Physical properties Plastic foam Polyurethane foam Porosity Regeneration Sand Sand filters Sewage Size distribution Water absorption
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creator	Dacewicz, Ewa Grzybowska-Pietras, Joanna
description	The aim of the study was to assess the possibility of using polyurethane foams (PUF) as a filling of a foam-sand filter to directly treat domestic sewage with increased content of ammonium nitrogen and low organic carbon to nitrogen ratio (C/N). The study compared performance of two types of flexible foams: new, cylinder-shaped material (Novel Foams, NF) and waste, scrap foams (Waste Foams, WF). The foams serving as a filling of two segments of a foam-sand filter were assessed for their hydrophobic and physical properties and were tested for their cell structure, i.e., cell diameter, cell size distribution, porosity, and specific surface area. The study accounted also for selected application-related properties, such as hydrophobicity, water absorption, apparent density, dimensional stability, amount of adsorbed biomass, and the possibility of regeneration. Cell morphology was compared in reference foams, foams after 14 months of the filter operation, and regenerated foams. The experimental outcomes indicated WF as an innovative type of biomass carrier for treating domestic sewage with low C/N ratio. SEM images showed that immobilization of microorganisms in NF and WF matrices involved the formation of multi-cellular structures attached to the inner surface of the polyurethane and attachment of single bacterial cells to the foam surface. The amount of adsorbed biomass confirmed that the foam-sand filter made up of two upper layers of waste foams (with diameters and pore content of 0.50-1.53 mm and 53.0-63.5% respectively) provided highly favorable conditions for the development of active microorganisms.
doi_str_mv	10.3390/ma14040933
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The study compared performance of two types of flexible foams: new, cylinder-shaped material (Novel Foams, NF) and waste, scrap foams (Waste Foams, WF). The foams serving as a filling of two segments of a foam-sand filter were assessed for their hydrophobic and physical properties and were tested for their cell structure, i.e., cell diameter, cell size distribution, porosity, and specific surface area. The study accounted also for selected application-related properties, such as hydrophobicity, water absorption, apparent density, dimensional stability, amount of adsorbed biomass, and the possibility of regeneration. Cell morphology was compared in reference foams, foams after 14 months of the filter operation, and regenerated foams. The experimental outcomes indicated WF as an innovative type of biomass carrier for treating domestic sewage with low C/N ratio. SEM images showed that immobilization of microorganisms in NF and WF matrices involved the formation of multi-cellular structures attached to the inner surface of the polyurethane and attachment of single bacterial cells to the foam surface. The amount of adsorbed biomass confirmed that the foam-sand filter made up of two upper layers of waste foams (with diameters and pore content of 0.50-1.53 mm and 53.0-63.5% respectively) provided highly favorable conditions for the development of active microorganisms.</description><identifier>ISSN: 1996-1944</identifier><identifier>EISSN: 1996-1944</identifier><identifier>DOI: 10.3390/ma14040933</identifier><identifier>PMID: 33669295</identifier><language>eng</language><publisher>Switzerland: MDPI AG</publisher><subject>Biofilms ; Biofiltration ; Biomass ; Bulk density ; Cellular structure ; Diameters ; Dimensional stability ; Efficiency ; Furniture ; Hydrophobicity ; Laboratories ; Manufacturers ; Microorganisms ; Morphology ; Nitrogen ; Organic carbon ; Physical properties ; Plastic foam ; Polyurethane foam ; Porosity ; Regeneration ; Sand ; Sand filters ; Sewage ; Size distribution ; Water absorption</subject><ispartof>Materials, 2021-02, Vol.14 (4), p.933</ispartof><rights>2021. 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subjects	Biofilms Biofiltration Biomass Bulk density Cellular structure Diameters Dimensional stability Efficiency Furniture Hydrophobicity Laboratories Manufacturers Microorganisms Morphology Nitrogen Organic carbon Physical properties Plastic foam Polyurethane foam Porosity Regeneration Sand Sand filters Sewage Size distribution Water absorption
title	Polyurethane Foams for Domestic Sewage Treatment
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