Hydrogen-Rich Syngas Production from Gasification and Pyrolysis of Solar Dried Sewage Sludge: Experimental and Modeling Investigations

Hydrogen-Rich Syngas Production from Gasification and Pyrolysis of Solar Dried Sewage Sludge: Experimental and Modeling Investigations

Solar dried sewage sludge (SS) conversion by pyrolysis and gasification processes has been performed, separately, using two laboratory-scale reactors, a fixed-bed pyrolyzer and a downdraft gasifier, to produce mainly hydrogen-rich syngas. Prior to SS conversion, solar drying has been conducted in or...

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Main Authors: Aïda Ben Hassen Trabelsi, Amina Ghrib, Kaouther Zaafouri, Athar Friaa, Aymen Ouerghi, Slim Naoui, Habib Belayouni
Format: Article
Language:English
Published: Hindawi Limited 2017-01-01
Series:BioMed Research International
Online Access:http://dx.doi.org/10.1155/2017/7831470
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spelling doaj-ac64a5f3d7bf49ebbd0aff05069a5b202020-11-24T22:39:15ZengHindawi LimitedBioMed Research International2314-61332314-61412017-01-01201710.1155/2017/78314707831470Hydrogen-Rich Syngas Production from Gasification and Pyrolysis of Solar Dried Sewage Sludge: Experimental and Modeling InvestigationsAïda Ben Hassen Trabelsi0Amina Ghrib1Kaouther Zaafouri2Athar Friaa3Aymen Ouerghi4Slim Naoui5Habib Belayouni6Laboratory of Wind Energy Control and Waste Energy Recovery (LMEEVED), Research and Technology Centre of Energy (CRTEn), Borj-Cedria Technopark, BP 95, 2050 Hammam-Lif, TunisiaLaboratory of Wind Energy Control and Waste Energy Recovery (LMEEVED), Research and Technology Centre of Energy (CRTEn), Borj-Cedria Technopark, BP 95, 2050 Hammam-Lif, TunisiaLaboratory of Microbial Ecology and Technology (LETMi), The National Institute of Applied Sciences and Technology (INSAT), Carthage University, 2 Boulevard de la Terre, BP 676, 1080 Tunis, TunisiaLaboratory of Wind Energy Control and Waste Energy Recovery (LMEEVED), Research and Technology Centre of Energy (CRTEn), Borj-Cedria Technopark, BP 95, 2050 Hammam-Lif, TunisiaLaboratory of Wind Energy Control and Waste Energy Recovery (LMEEVED), Research and Technology Centre of Energy (CRTEn), Borj-Cedria Technopark, BP 95, 2050 Hammam-Lif, TunisiaLaboratory of Wind Energy Control and Waste Energy Recovery (LMEEVED), Research and Technology Centre of Energy (CRTEn), Borj-Cedria Technopark, BP 95, 2050 Hammam-Lif, TunisiaDepartment of Geology, Faculty of Sciences of Tunis, University of Tunis El Manar, Tunis, TunisiaSolar dried sewage sludge (SS) conversion by pyrolysis and gasification processes has been performed, separately, using two laboratory-scale reactors, a fixed-bed pyrolyzer and a downdraft gasifier, to produce mainly hydrogen-rich syngas. Prior to SS conversion, solar drying has been conducted in order to reduce moisture content (up to 10%). SS characterization reveals that these biosolids could be appropriate materials for gaseous products production. The released gases from SS pyrolysis and gasification present relatively high heating values (up to 9.96 MJ/kg for pyrolysis and 8.02  9.96 MJ/kg for gasification) due to their high contents of H2 (up to 11 and 7 wt%, resp.) and CH4 (up to 17 and 5 wt%, resp.). The yields of combustible gases (H2 and CH4) show further increase with pyrolysis. Stoichiometric models of both pyrolysis and gasification reactions were determined based on the global biomass formula, CαHβOγNδSε, in order to assist in the products yields optimization.http://dx.doi.org/10.1155/2017/7831470
collection DOAJ
language English
format Article
sources DOAJ
author Aïda Ben Hassen Trabelsi
Amina Ghrib
Kaouther Zaafouri
Athar Friaa
Aymen Ouerghi
Slim Naoui
Habib Belayouni
spellingShingle Aïda Ben Hassen Trabelsi
Amina Ghrib
Kaouther Zaafouri
Athar Friaa
Aymen Ouerghi
Slim Naoui
Habib Belayouni
Hydrogen-Rich Syngas Production from Gasification and Pyrolysis of Solar Dried Sewage Sludge: Experimental and Modeling Investigations
BioMed Research International
author_facet Aïda Ben Hassen Trabelsi
Amina Ghrib
Kaouther Zaafouri
Athar Friaa
Aymen Ouerghi
Slim Naoui
Habib Belayouni
author_sort Aïda Ben Hassen Trabelsi
title Hydrogen-Rich Syngas Production from Gasification and Pyrolysis of Solar Dried Sewage Sludge: Experimental and Modeling Investigations
title_short Hydrogen-Rich Syngas Production from Gasification and Pyrolysis of Solar Dried Sewage Sludge: Experimental and Modeling Investigations
title_full Hydrogen-Rich Syngas Production from Gasification and Pyrolysis of Solar Dried Sewage Sludge: Experimental and Modeling Investigations
title_fullStr Hydrogen-Rich Syngas Production from Gasification and Pyrolysis of Solar Dried Sewage Sludge: Experimental and Modeling Investigations
title_full_unstemmed Hydrogen-Rich Syngas Production from Gasification and Pyrolysis of Solar Dried Sewage Sludge: Experimental and Modeling Investigations
title_sort hydrogen-rich syngas production from gasification and pyrolysis of solar dried sewage sludge: experimental and modeling investigations
publisher Hindawi Limited
series BioMed Research International
issn 2314-6133
2314-6141
publishDate 2017-01-01
description Solar dried sewage sludge (SS) conversion by pyrolysis and gasification processes has been performed, separately, using two laboratory-scale reactors, a fixed-bed pyrolyzer and a downdraft gasifier, to produce mainly hydrogen-rich syngas. Prior to SS conversion, solar drying has been conducted in order to reduce moisture content (up to 10%). SS characterization reveals that these biosolids could be appropriate materials for gaseous products production. The released gases from SS pyrolysis and gasification present relatively high heating values (up to 9.96 MJ/kg for pyrolysis and 8.02  9.96 MJ/kg for gasification) due to their high contents of H2 (up to 11 and 7 wt%, resp.) and CH4 (up to 17 and 5 wt%, resp.). The yields of combustible gases (H2 and CH4) show further increase with pyrolysis. Stoichiometric models of both pyrolysis and gasification reactions were determined based on the global biomass formula, CαHβOγNδSε, in order to assist in the products yields optimization.
url http://dx.doi.org/10.1155/2017/7831470
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AT aminaghrib hydrogenrichsyngasproductionfromgasificationandpyrolysisofsolardriedsewagesludgeexperimentalandmodelinginvestigations
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