Solid-phase fluorescence spectroscopy to characterize organic wastes

► The fluorescence fingerprints of solid organic wastes were recorded using solid-phase fluorescence spectroscopy (SPF). ► Two methods were investigated: three dimensional SPF (3D-SPF) and laser induced fluorescence spectroscopy (LIF). ► The 3D-SPF was efficient on the less colored samples while LIF...

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Veröffentlicht in:	Waste management (Elmsford) 2011-09, Vol.31 (9), p.1916-1923
Hauptverfasser:	Muller, Mathieu, Milori, Débora Marcondes Bastos Pereira, Déléris, Stéphane, Steyer, Jean-Philippe, Dudal, Yves
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Sprache:	eng
Schlagworte:	Agricultural sciences Applied sciences Composting Escherichia coli Exact sciences and technology Excitation–emission-matrix Fluorescence Humic acids Laser Lasers Life Sciences Management Municipal solid waste Organic Chemicals - analysis Organic waste Other industrial wastes. Sewage sludge Other wastes and particular components of wastes Pollution Sewage sludge Spectra Spectrometry, Fluorescence Spectroscopy Tryptophan Urban and domestic wastes Waste Products - analysis Wastes
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container_title	Waste management (Elmsford)
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creator	Muller, Mathieu Milori, Débora Marcondes Bastos Pereira Déléris, Stéphane Steyer, Jean-Philippe Dudal, Yves
description	► The fluorescence fingerprints of solid organic wastes were recorded using solid-phase fluorescence spectroscopy (SPF). ► Two methods were investigated: three dimensional SPF (3D-SPF) and laser induced fluorescence spectroscopy (LIF). ► The 3D-SPF was efficient on the less colored samples while LIF was efficient whatever the samples considered. ► We showed that the SPF is quantitative using a protein as a model compound. ► The SPF could be a helpful method for rapid and relevant characterization of solid organic wastes. The production of solid organic waste (SOW) such as sewage sludge (SS) or municipal solid waste (MSW) has been continuously increasing in Europe since the beginning of the 1990’. Today, the European Union encourages the stabilization of these wastes using biologic processes such as anaerobic digestion and/or composting to produce bio-energy and organic fertilizers. However, the design and management of such biologic processes require knowledge about the quantity and quality of the organic matter (OM) contained in the SOW. The current methods to characterize SOW are tedious, time-consuming and often insufficiently informative. In this paper, we assess the potential of solid-phase fluorescence (SPF) spectroscopy to quickly provide a relevant characterization of SOW. First, we tested well known model compounds (tryptophan, bovine serum albumin, lignin and humic acid) and biologic matrix ( Escherichia coli) in three dimensional solid-phase fluorescence (3D-SPF) spectroscopy. We recorded fluorescence spectra from proteinaceous samples but we could not record the fluorescence emitted by lignin and humic acid powders. For SOW samples, fluorescence spectra were successfully recorded for MSW and most of its sub-components (foods, cardboard) but impossible for SS, sludge compost (SC) and ligno-cellulosic wastes. Based on visual observations and additional assays, we concluded that the presence of highly light-absorptive chemical structures in such dark-colored samples was responsible for this limitation. For such samples, i.e. lignin, humic acid, SS, SC and ligno-cellulosic wastes, we show that laser induced fluorescence (LIF) spectroscopy enables the acquisition of 2D fluorescence spectra.
doi_str_mv	10.1016/j.wasman.2011.05.012
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The production of solid organic waste (SOW) such as sewage sludge (SS) or municipal solid waste (MSW) has been continuously increasing in Europe since the beginning of the 1990’. Today, the European Union encourages the stabilization of these wastes using biologic processes such as anaerobic digestion and/or composting to produce bio-energy and organic fertilizers. However, the design and management of such biologic processes require knowledge about the quantity and quality of the organic matter (OM) contained in the SOW. The current methods to characterize SOW are tedious, time-consuming and often insufficiently informative. In this paper, we assess the potential of solid-phase fluorescence (SPF) spectroscopy to quickly provide a relevant characterization of SOW. First, we tested well known model compounds (tryptophan, bovine serum albumin, lignin and humic acid) and biologic matrix ( Escherichia coli) in three dimensional solid-phase fluorescence (3D-SPF) spectroscopy. We recorded fluorescence spectra from proteinaceous samples but we could not record the fluorescence emitted by lignin and humic acid powders. For SOW samples, fluorescence spectra were successfully recorded for MSW and most of its sub-components (foods, cardboard) but impossible for SS, sludge compost (SC) and ligno-cellulosic wastes. Based on visual observations and additional assays, we concluded that the presence of highly light-absorptive chemical structures in such dark-colored samples was responsible for this limitation. 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The production of solid organic waste (SOW) such as sewage sludge (SS) or municipal solid waste (MSW) has been continuously increasing in Europe since the beginning of the 1990’. Today, the European Union encourages the stabilization of these wastes using biologic processes such as anaerobic digestion and/or composting to produce bio-energy and organic fertilizers. However, the design and management of such biologic processes require knowledge about the quantity and quality of the organic matter (OM) contained in the SOW. The current methods to characterize SOW are tedious, time-consuming and often insufficiently informative. In this paper, we assess the potential of solid-phase fluorescence (SPF) spectroscopy to quickly provide a relevant characterization of SOW. First, we tested well known model compounds (tryptophan, bovine serum albumin, lignin and humic acid) and biologic matrix ( Escherichia coli) in three dimensional solid-phase fluorescence (3D-SPF) spectroscopy. We recorded fluorescence spectra from proteinaceous samples but we could not record the fluorescence emitted by lignin and humic acid powders. For SOW samples, fluorescence spectra were successfully recorded for MSW and most of its sub-components (foods, cardboard) but impossible for SS, sludge compost (SC) and ligno-cellulosic wastes. Based on visual observations and additional assays, we concluded that the presence of highly light-absorptive chemical structures in such dark-colored samples was responsible for this limitation. 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subjects	Agricultural sciences Applied sciences Composting Escherichia coli Exact sciences and technology Excitation–emission-matrix Fluorescence Humic acids Laser Lasers Life Sciences Management Municipal solid waste Organic Chemicals - analysis Organic waste Other industrial wastes. Sewage sludge Other wastes and particular components of wastes Pollution Sewage sludge Spectra Spectrometry, Fluorescence Spectroscopy Tryptophan Urban and domestic wastes Waste Products - analysis Wastes
title	Solid-phase fluorescence spectroscopy to characterize organic wastes
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