High-efficiency biomass gasifier SOFC systems with direct internal tar reforming

A. Cavalli; P. V. Aravind

doi:10.1149/09101.0781ecst

High-efficiency biomass gasifier SOFC systems with direct internal tar reforming

A. Cavalli, P. V. Aravind

Energy Technology

Research output: Contribution to journal › Conference article › Scientific › peer-review

5 Citations (Scopus)

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Abstract

Removing biosyngas contaminants is crucial for the efficient and safe operation of biomass gasifier solid oxide fuel cells systems. Among the contaminants, tar might be considered an additional fuel if converted into H₂ and CO in a reformer or directly in the SOFC. However, no sufficient information is available on direct internal tar reforming. The knowledge gained during the 4-years project FlexiFuel-SOFC is presented. The aim of these studies was to determine the possibility to directly reform tar in the SOFC, and to assess the influence that other biosyngas contaminants (i.e., H₂S and HCl) can have on the process. Benzene can be regarded as fuel, while naphthalene as a contaminant. Also toluene can be reformed inside the SOFC, but HCl seems to affect the process. Acetic acid is completely converted inside SOFCs and its conversion appears not affected by H₂S. However, it causes carbon deposition, mainly in the inlet pipelines.

Original language	English
Pages (from-to)	781-790
Journal	ECS Transactions
Volume	91
Issue number	1
DOIs	https://doi.org/10.1149/09101.0781ecst
Publication status	Published - 2019
Event	SOFC 2019: 16th International Symposium on Solid Oxide Fuel Cells - Kyoto, Japan Duration: 8 Sept 2019 → 13 Sept 2019

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title = "High-efficiency biomass gasifier SOFC systems with direct internal tar reforming",

abstract = "Removing biosyngas contaminants is crucial for the efficient and safe operation of biomass gasifier solid oxide fuel cells systems. Among the contaminants, tar might be considered an additional fuel if converted into H2 and CO in a reformer or directly in the SOFC. However, no sufficient information is available on direct internal tar reforming. The knowledge gained during the 4-years project FlexiFuel-SOFC is presented. The aim of these studies was to determine the possibility to directly reform tar in the SOFC, and to assess the influence that other biosyngas contaminants (i.e., H2S and HCl) can have on the process. Benzene can be regarded as fuel, while naphthalene as a contaminant. Also toluene can be reformed inside the SOFC, but HCl seems to affect the process. Acetic acid is completely converted inside SOFCs and its conversion appears not affected by H2S. However, it causes carbon deposition, mainly in the inlet pipelines.",

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AU - Aravind, P. V.

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N2 - Removing biosyngas contaminants is crucial for the efficient and safe operation of biomass gasifier solid oxide fuel cells systems. Among the contaminants, tar might be considered an additional fuel if converted into H2 and CO in a reformer or directly in the SOFC. However, no sufficient information is available on direct internal tar reforming. The knowledge gained during the 4-years project FlexiFuel-SOFC is presented. The aim of these studies was to determine the possibility to directly reform tar in the SOFC, and to assess the influence that other biosyngas contaminants (i.e., H2S and HCl) can have on the process. Benzene can be regarded as fuel, while naphthalene as a contaminant. Also toluene can be reformed inside the SOFC, but HCl seems to affect the process. Acetic acid is completely converted inside SOFCs and its conversion appears not affected by H2S. However, it causes carbon deposition, mainly in the inlet pipelines.

AB - Removing biosyngas contaminants is crucial for the efficient and safe operation of biomass gasifier solid oxide fuel cells systems. Among the contaminants, tar might be considered an additional fuel if converted into H2 and CO in a reformer or directly in the SOFC. However, no sufficient information is available on direct internal tar reforming. The knowledge gained during the 4-years project FlexiFuel-SOFC is presented. The aim of these studies was to determine the possibility to directly reform tar in the SOFC, and to assess the influence that other biosyngas contaminants (i.e., H2S and HCl) can have on the process. Benzene can be regarded as fuel, while naphthalene as a contaminant. Also toluene can be reformed inside the SOFC, but HCl seems to affect the process. Acetic acid is completely converted inside SOFCs and its conversion appears not affected by H2S. However, it causes carbon deposition, mainly in the inlet pipelines.

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High-efficiency biomass gasifier SOFC systems with direct internal tar reforming

Abstract

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