LAPSE:2025.0194v1
Published Article
LAPSE:2025.0194v1
Simulation and Experimental Validation of Biomass Gasification in a Spouted Bed Reactor: Troubleshooting Using DWSIM
June 27, 2025
Abstract
Simulation plays a crucial role in the design and optimization of gasifiers by providing a detailed understanding of the involved physical processes and complex chemical reactions without the need for extensive trial-and-error experiments. It can also serve as a valuable tool for identifying potential technical issues in experimental devices that operate below expected performance. This study presents a comprehensive simulation of biomass gasification using the open-source software DWSIM. The simulated results were compared with experimental data from a pilot-scale spouted bed reactor, featuring a square-based design with a 20 kWth capacity, using pruning of apple tress as feedstock. Experimental results revealed that the reactor operated effectively at temperatures exceeding 850°C, maintaining stable conditions across a wide range of equivalence ratios. However, the distribution of productsparticularly hydrogen (H2)did not match expected results based on both literature and simulations. A joint analysis of experimental data and expected behavior from simulation helped identify the observed inefficiencies and optimize the reactor's performance.
Simulation plays a crucial role in the design and optimization of gasifiers by providing a detailed understanding of the involved physical processes and complex chemical reactions without the need for extensive trial-and-error experiments. It can also serve as a valuable tool for identifying potential technical issues in experimental devices that operate below expected performance. This study presents a comprehensive simulation of biomass gasification using the open-source software DWSIM. The simulated results were compared with experimental data from a pilot-scale spouted bed reactor, featuring a square-based design with a 20 kWth capacity, using pruning of apple tress as feedstock. Experimental results revealed that the reactor operated effectively at temperatures exceeding 850°C, maintaining stable conditions across a wide range of equivalence ratios. However, the distribution of productsparticularly hydrogen (H2)did not match expected results based on both literature and simulations. A joint analysis of experimental data and expected behavior from simulation helped identify the observed inefficiencies and optimize the reactor's performance.
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Moliner C, Carozzo V, Curti M, Arato E. Simulation and Experimental Validation of Biomass Gasification in a Spouted Bed Reactor: Troubleshooting Using DWSIM. Systems and Control Transactions 4:271-275 (2025) https://doi.org/10.69997/sct.188531
Author Affiliations
Moliner C: Dipartimento di Ingegneria Civile, Chimica e Ambientale (DICCA), Università degli Studi di Genova, Via Opera Pia 15, 16145 Genova (Italy)
Carozzo V: Dipartimento di Ingegneria Civile, Chimica e Ambientale (DICCA), Università degli Studi di Genova, Via Opera Pia 15, 16145 Genova (Italy)
Curti M: Dipartimento di Ingegneria Civile, Chimica e Ambientale (DICCA), Università degli Studi di Genova, Via Opera Pia 15, 16145 Genova (Italy)
Arato E: Dipartimento di Ingegneria Civile, Chimica e Ambientale (DICCA), Università degli Studi di Genova, Via Opera Pia 15, 16145 Genova (Italy)
Carozzo V: Dipartimento di Ingegneria Civile, Chimica e Ambientale (DICCA), Università degli Studi di Genova, Via Opera Pia 15, 16145 Genova (Italy)
Curti M: Dipartimento di Ingegneria Civile, Chimica e Ambientale (DICCA), Università degli Studi di Genova, Via Opera Pia 15, 16145 Genova (Italy)
Arato E: Dipartimento di Ingegneria Civile, Chimica e Ambientale (DICCA), Università degli Studi di Genova, Via Opera Pia 15, 16145 Genova (Italy)
Journal Name
Systems and Control Transactions
Volume
4
First Page
271
Last Page
275
Year
2025
Publication Date
2025-07-01
Version Comments
Original Submission
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PII: 0271-0275-1534-SCT-4-2025, Publication Type: Journal Article
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LAPSE:2025.0194v1
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https://doi.org/10.69997/sct.188531
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Jun 27, 2025
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References Cited
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