Gasification has been identified as a key technology to enhance the environmental tolerability of low quality fuels such as waste and biomass. In this work the performances of a laboratory scale gasification process fed with waste are reported. Among the several technical choices, we selected the up-draft fixed-bed gasifier as an interesting solution for heat generation in small-scale applications, due to the characteristics of simple geometry and low cost. The experimental setup is composed by an up-draft gasifier followed by a reactor used as filter to remove the particulate and as second thermal and catalytic stage to convert the produced tar in lighter species. A literature model has been adapted to the case under study to analyse the influence of operative parameters such as oxidant flow rate (equivalent and air/steam ratio values) and gasification temperature of the process. The original literature model considers the species gas evolution along the axial coordinate only, and does not include time dependency. To make the model time dependent, the consumption time of the gasification fuel bed estimated from experimental tests was introduced. Since the oxidation zone is below the gasification one, the initial species concentrations were set as the species concentrations produced at the end of the oxidation zone, calculated with an atom mass balance considering a complete char combustion. Since the model concerns only the gasification, the up-draft process was split into two consecutive steps to allow direct comparison between experimental and simulated data: first the drying and pyrolysis processes and then the fixed bed gasification. The model was successfully validated with experimental data and then it was used to predict the operative parameters that determine the optimal syngas composition. The best syngas composition (35% CO and 10% H2) was obtained with an equivalent ratio of 0.6 and a bed temperature of 1100 K. © 201 WIT Press.

Waste gasification in an up-draft fixed-bed gasifier: Experimental study and model validation / Verdone, Nicola; DE FILIPPIS, Paolo; Scarsella, Marco; DE CAPRARIIS, Benedetta. - STAMPA. - 163:(2012), pp. 113-122. (Intervento presentato al convegno 6th International Conference on Waste Management and the Environment - Waste Management 2012, WM 2012 tenutosi a New Forest nel 4 July 2012 through 6 July 2012) [10.2495/wm120111].

Waste gasification in an up-draft fixed-bed gasifier: Experimental study and model validation

VERDONE, Nicola;DE FILIPPIS, Paolo;SCARSELLA, Marco;DE CAPRARIIS, BENEDETTA
2012

Abstract

Gasification has been identified as a key technology to enhance the environmental tolerability of low quality fuels such as waste and biomass. In this work the performances of a laboratory scale gasification process fed with waste are reported. Among the several technical choices, we selected the up-draft fixed-bed gasifier as an interesting solution for heat generation in small-scale applications, due to the characteristics of simple geometry and low cost. The experimental setup is composed by an up-draft gasifier followed by a reactor used as filter to remove the particulate and as second thermal and catalytic stage to convert the produced tar in lighter species. A literature model has been adapted to the case under study to analyse the influence of operative parameters such as oxidant flow rate (equivalent and air/steam ratio values) and gasification temperature of the process. The original literature model considers the species gas evolution along the axial coordinate only, and does not include time dependency. To make the model time dependent, the consumption time of the gasification fuel bed estimated from experimental tests was introduced. Since the oxidation zone is below the gasification one, the initial species concentrations were set as the species concentrations produced at the end of the oxidation zone, calculated with an atom mass balance considering a complete char combustion. Since the model concerns only the gasification, the up-draft process was split into two consecutive steps to allow direct comparison between experimental and simulated data: first the drying and pyrolysis processes and then the fixed bed gasification. The model was successfully validated with experimental data and then it was used to predict the operative parameters that determine the optimal syngas composition. The best syngas composition (35% CO and 10% H2) was obtained with an equivalent ratio of 0.6 and a bed temperature of 1100 K. © 201 WIT Press.
2012
6th International Conference on Waste Management and the Environment - Waste Management 2012, WM 2012
energy recovery.; auto fluff; disposal; energy recovery; gasification
04 Pubblicazione in atti di convegno::04b Atto di convegno in volume
Waste gasification in an up-draft fixed-bed gasifier: Experimental study and model validation / Verdone, Nicola; DE FILIPPIS, Paolo; Scarsella, Marco; DE CAPRARIIS, Benedetta. - STAMPA. - 163:(2012), pp. 113-122. (Intervento presentato al convegno 6th International Conference on Waste Management and the Environment - Waste Management 2012, WM 2012 tenutosi a New Forest nel 4 July 2012 through 6 July 2012) [10.2495/wm120111].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/496062
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