Modelling a Novel Plant Design for Biomass Chemical Looping Gasification
Seiten
2023
Cuvillier Verlag
978-3-7369-7876-8 (ISBN)
Cuvillier Verlag
978-3-7369-7876-8 (ISBN)
To mitigate climate change and to reduce the emissions of greenhouse gases the interest in the utilization of renewable energies has increased drastically in the recent years. Due to the broad availability and its negative carbon emissions biomass is an attractive renewable energy resource. By applying the biomass chemical looping gasification technology the biomass can be used for the generation of electricity or the production of syngas as feedstock for synthetic fuels such as hydrogen and methanol.
https://cuvillier.de/de/shop/publications/8894-application-of-the-mp-pic-method-for-modelling-a-novel-plant-design-for-biomass-chemical-looping-gasification
To promote the progress of this technology, a novel two-stage design for the gasification reactor is proposed in this work aiming to reduce the undesired tar content in the produced syngas, while maintaining a high syngas yield. To investigate the performance of this design, a reaction model was developed using the so-called multiphase particle-in-cell (MP-PIC) method. Furthermore, optimization recommendations for biomass chemical looping processes in general were derived to adjust the syngas composition and to increase the syngas yield
https://cuvillier.de/de/shop/publications/8894-application-of-the-mp-pic-method-for-modelling-a-novel-plant-design-for-biomass-chemical-looping-gasification
To promote the progress of this technology, a novel two-stage design for the gasification reactor is proposed in this work aiming to reduce the undesired tar content in the produced syngas, while maintaining a high syngas yield. To investigate the performance of this design, a reaction model was developed using the so-called multiphase particle-in-cell (MP-PIC) method. Furthermore, optimization recommendations for biomass chemical looping processes in general were derived to adjust the syngas composition and to increase the syngas yield
Erscheinungsdatum | 06.10.2023 |
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Reihe/Serie | SPE-Schriftenreihe ; 24 |
Verlagsort | Göttingen |
Sprache | englisch |
Maße | 170 x 240 mm |
Themenwelt | Technik |
Schlagworte | Biomassevergasung, Synthesegas, Synthesegasausbeute • CFD-Simulation, MP-PIC Methode • CFD simulation, Multiphase particle-in-cell method (MP-PIC) • Chemical looping gasification (CLG), Biomass gasification • Chemische Kreislaufvergasung (CLG) • EMMS drag model, Two-stage fuel reactor • EMMS-Widerstandsmodell, Zweistufiger Brennstoffreaktor • Fluidized bed reactor, Oxygen carrier • Reaction model • Reaktionsmodell • Syngas • Syngas yield, Syngas composition • Synthesegaszusammensetzung • Wirbelschicht, Sauerstoffträger |
ISBN-10 | 3-7369-7876-6 / 3736978766 |
ISBN-13 | 978-3-7369-7876-8 / 9783736978768 |
Zustand | Neuware |
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