Entrained flow gasification: Pilot-scale experimental, balancing and equilibrium data for model validation
Biogenic and anthropogenic feedstocks can be converted into high-quality and hydrogen-rich synthesis gas through high-pressure entrained flow gasification. However, robust pilot-scale process data is essential for the optimisation, design and scale-up of this process. Therefore, this study conducted...
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Veröffentlicht in: | Fuel (Guildford) 2025-02, Vol.382, p.132809, Article 132809 |
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Sprache: | eng |
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Zusammenfassung: | Biogenic and anthropogenic feedstocks can be converted into high-quality and hydrogen-rich synthesis gas through high-pressure entrained flow gasification. However, robust pilot-scale process data is essential for the optimisation, design and scale-up of this process. Therefore, this study conducted pilot-scale experiments, developed balancing and equilibrium models for performance analysis and derived input and validation data for CFD models. The experiments were carried out at the bioliq Entrained Flow Gasifier plant using mixtures of ethylene glycol or beech wood pyrolysis oil with glass beads, thermal inputs of up to 5MW and operating pressures of 40bar. The cooling screen was recoated before the experiments to ensure well-defined heat transfer conditions. The data from on-line measurements and off-line analyses was evaluated with emphasis on the synthesis gas condition before quenching, the heat extraction from the inner reactor chamber and the carbon conversion. The results show that the balancing model provides consistent and accurate predictions and the equilibrium model is able to track the generated process data. Specifically, the balancing predictions are accurate if the solution of CO2 in the quench water is accounted for, if undetected intermediates are described as lost carbon and lost atomic hydrogen and if further chemical reactions in the quench water are avoided by appropriate operating conditions.
•Biogenic fuels were applied in pilot-scale entrained flow gasification experiments.•Stable operating conditions were achieved for 100 h with high carbon conversion.•Measurement and analysis data was evaluated with emphasis on process efficiency.•Balancing and equilibrium models were developed for performance analysis.•Robust balancing and equilibrium data was generated for validation and scale-up. |
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ISSN: | 0016-2361 |
DOI: | 10.1016/j.fuel.2024.132809 |