Kinetics of thermophilic batch anaerobic digestion of thermal hydrolysed waste activated sludge

Enhancing waste activated sludge (WAS) anaerobic digestion by thermal pretreatment has become of high interest. However, thermal treatment has been mainly combined to mesophilic anaerobic digestion. This paper presents the combination of sludge thermal pretreatment (110, 165 and 220 °C) and batch th...

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Published in:	Biochemical engineering journal Vol. 46; no. 2; pp. 169 - 175
Main Authors:	Mottet, A., Steyer, J.P., Déléris, S., Vedrenne, F., Chauzy, J., Carrère, H.
Format:	Journal Article
Language:	English
Published:	Amsterdam Elsevier B.V 01-10-2009 Elsevier
Subjects:	Anaerobic digestion Biological and medical sciences Biotechnology Environmental Sciences Fundamental and applied biological sciences. Psychology Life Sciences Methane potential Sludge management Thermal pretreatment Volatile fatty acids Methane potential Sludge management Volatile fatty acids Thermal pretreatment Anaerobic digestion Methane Activated sludge Thermophily Batchwise Volatile fatty acid Kinetics Wastes Pretreatment METHANE POTENTIAL ANAEROBIC DIGESTION VOLATILE FATTY ACIDS SLUDGE MANAGEMENT THERMAL PRETREATMENT
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Abstract	Enhancing waste activated sludge (WAS) anaerobic digestion by thermal pretreatment has become of high interest. However, thermal treatment has been mainly combined to mesophilic anaerobic digestion. This paper presents the combination of sludge thermal pretreatment (110, 165 and 220 °C) and batch thermophilic anaerobic digestion (55 °C). Optimal conditions of thermal pretreatment were shown to be 165 °C, involving a chemical oxygen demand (COD) and volatile solids (VS) solubilisation of 18 and 15% and a biodegradability increase from 47 to 61%. Treatments at 165 °C were carried out in electric and steam modes and no significant difference on the impact of heating mode on sludge anaerobic biodegradability was observed. Moreover, it may be recommended not to carry out successive batch experiments to assess thermophilic BMP of sludge as accumulation of volatile fatty acids (VFA), particularly propionate, and a decrease of VFA uptake rates may occur. However, thermal pretreatment at 165 °C allowed the decrease of propionate accumulation and an higher methane production.
AbstractList	Enhancing waste activated sludge (WAS) anaerobic digestion by thermal pretreatment has become of high interest. However, thermal treatment has been mainly combined to mesophilic anaerobic digestion. This paper presents the combination of sludge thermal pretreatment (110, 165 and 220 °C) and batch thermophilic anaerobic digestion (55 °C). Optimal conditions of thermal pretreatment were shown to be 165 °C, involving a chemical oxygen demand (COD) and volatile solids (VS) solubilisation of 18 and 15% and a biodegradability increase from 47 to 61%. Treatments at 165 °C were carried out in electric and steam modes and no significant difference on the impact of heating mode on sludge anaerobic biodegradability was observed. Moreover, it may be recommended not to carry out successive batch experiments to assess thermophilic BMP of sludge as accumulation of volatile fatty acids (VFA), particularly propionate, and a decrease of VFA uptake rates may occur. However, thermal pretreatment at 165 °C allowed the decrease of propionate accumulation and an higher methane production. Enhancing waste activated sludge (WAS) anaerobic digestion by thermal pretreatment has become of high interest. However, thermal treatment has been mainly combined to mesophilic anaerobic digestion. This paper presents the combination of sludge thermal pretreatment (110, 165 and 220 degree C) and batch thermophilic anaerobic digestion (55 degree C). Optimal conditions of thermal pretreatment were shown to be 165 degree C, involving a chemical oxygen demand (COD) and volatile solids (VS) solubilisation of 18 and 15% and a biodegradability increase from 47 to 61%. Treatments at 165 degree C were carried out in electric and steam modes and no significant difference on the impact of heating mode on sludge anaerobic biodegradability was observed. Moreover, it may be recommended not to carry out successive batch experiments to assess thermophilic BMP of sludge as accumulation of volatile fatty acids (VFA), particularly propionate, and a decrease of VFA uptake rates may occur. However, thermal pretreatment at 165 degree C allowed the decrease of propionate accumulation and an higher methane production. Enhancing waste activated sludge (WAS) anaerobic digestion by thermal pretreatment has become of high interest. However, thermal treatment has been mainly combined to mesophilic anaerobic digestion. This paper presents the combination of sludge thermal pretreatment (110, 165 and 220 °C) and batch thermophilic anaerobic digestion (55 °C). Optimal conditions of thermal pretreatment were shown to be 165 °C, involving a chemical oxygen demand (COD) and volatile solids (VS) solubilisation of 18 and 15% and a biodegradability increase from 47 to 61%. Treatments at 165 °C were carried out in electric and steam modes and no significant difference on the impact of heating mode on sludge anaerobic biodegradability was observed. Moreover, it may be recommended not to carry out successive batch experiments to assess thermophilic BMP of sludge as accumulation of volatile fatty acids (VFA), particularly propionate, and a decrease of VFA uptake rates may occur. However, thermal pretreatment at 165 °C allowed the decrease of propionate accumulation and an higher methane production.
Author	Carrère, H. Steyer, J.P. Mottet, A. Déléris, S. Chauzy, J. Vedrenne, F.
Author_xml	– sequence: 1 givenname: A. surname: Mottet fullname: Mottet, A. email: mottet@supagro.inra.fr organization: INRA, UR50, Laboratoire de Biotechnologie de l’Environnement, Avenue des Etangs, Narbonne, F-11100, France – sequence: 2 givenname: J.P. surname: Steyer fullname: Steyer, J.P. email: steyer@supagro.inra.fr organization: INRA, UR50, Laboratoire de Biotechnologie de l’Environnement, Avenue des Etangs, Narbonne, F-11100, France – sequence: 3 givenname: S. surname: Déléris fullname: Déléris, S. email: Stephane.DELERIS@veolia.com organization: Veolia Environnement R&D, Centre de Recherche sur l’Eau, F-78603 Maisons-Laffitte, France – sequence: 4 givenname: F. surname: Vedrenne fullname: Vedrenne, F. email: Fabien.VEDRENNE@veolia.com organization: Veolia Environnement R&D, Centre de Recherche sur l’Eau, F-78603 Maisons-Laffitte, France – sequence: 5 givenname: J. surname: Chauzy fullname: Chauzy, J. email: Julien.CHAUZY@veoliaeau.fr organization: Veolia Water Direction Technique, 1 rue Battista Pirelli, F-94410 Saint Maurice, France – sequence: 6 givenname: H. surname: Carrère fullname: Carrère, H. email: carrere@supagro.inra.fr organization: INRA, UR50, Laboratoire de Biotechnologie de l’Environnement, Avenue des Etangs, Narbonne, F-11100, France
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Keywords	Methane potential Sludge management Volatile fatty acids Thermal pretreatment Anaerobic digestion Methane Activated sludge Thermophily Batchwise Volatile fatty acid Kinetics Wastes Pretreatment METHANE POTENTIAL ANAEROBIC DIGESTION VOLATILE FATTY ACIDS SLUDGE MANAGEMENT THERMAL PRETREATMENT
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Snippet	Enhancing waste activated sludge (WAS) anaerobic digestion by thermal pretreatment has become of high interest. However, thermal treatment has been mainly...
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SubjectTerms	Anaerobic digestion Biological and medical sciences Biotechnology Environmental Sciences Fundamental and applied biological sciences. Psychology Life Sciences Methane potential Sludge management Thermal pretreatment Volatile fatty acids
Title	Kinetics of thermophilic batch anaerobic digestion of thermal hydrolysed waste activated sludge
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