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System Hydrodynamics of a 1 MWth Dual Circulating Fluidized Bed Chemical Looping Gasifier

Dieringer, Paul ; Marx, Falko ; Ströhle, Jochen ; Epple, Bernd (2023)
System Hydrodynamics of a 1 MWth Dual Circulating Fluidized Bed Chemical Looping Gasifier.
In: Energies, 16 (15)
doi: 10.3390/en16155630
Article, Bibliographie

Abstract

Chemical looping gasification (CLG) is a novel dual-fluidized bed gasification technology that allows for the production of high-calorific syngas from various solid feedstocks (e.g., biomass). Solid circulation between the two coupled fluidized bed reactors, serving the purpose of heat and oxygen transport, is a key parameter for the CLG technology, making system hydrodynamics the backbone of the gasification process. This study serves the purpose to provide holistic insights into the hydrodynamic behavior of the dual-fluidized bed reactor system. Here, special focus is placed on the operational principles of the setup as well as the entrainment from the circulating fluidized bed (CFB) reactors, the latter being the driving force for the solid circulation inside the entire reactor system. Using an elaborate dataset of over 130 operating periods from a cold flow model and 70 operating periods from a 1 MWth CLG pilot plant, a holistic set of ground rules for the operation of the reactor setup is presented. Moreover, a novel easily-applicable approach, solely relying on readily-available live data, is presented and validated using data from the 1 MWth chemical looping gasifier. Thereby, a straightforward estimation of solid entrainment from any CFB setup is facilitated, thus closing a crucial research gap.

Item Type: Article
Erschienen: 2023
Creators: Dieringer, Paul ; Marx, Falko ; Ströhle, Jochen ; Epple, Bernd
Type of entry: Bibliographie
Title: System Hydrodynamics of a 1 MWth Dual Circulating Fluidized Bed Chemical Looping Gasifier
Language: English
Date: 2023
Publisher: MDPI
Journal or Publication Title: Energies
Volume of the journal: 16
Issue Number: 15
DOI: 10.3390/en16155630
Abstract:

Chemical looping gasification (CLG) is a novel dual-fluidized bed gasification technology that allows for the production of high-calorific syngas from various solid feedstocks (e.g., biomass). Solid circulation between the two coupled fluidized bed reactors, serving the purpose of heat and oxygen transport, is a key parameter for the CLG technology, making system hydrodynamics the backbone of the gasification process. This study serves the purpose to provide holistic insights into the hydrodynamic behavior of the dual-fluidized bed reactor system. Here, special focus is placed on the operational principles of the setup as well as the entrainment from the circulating fluidized bed (CFB) reactors, the latter being the driving force for the solid circulation inside the entire reactor system. Using an elaborate dataset of over 130 operating periods from a cold flow model and 70 operating periods from a 1 MWth CLG pilot plant, a holistic set of ground rules for the operation of the reactor setup is presented. Moreover, a novel easily-applicable approach, solely relying on readily-available live data, is presented and validated using data from the 1 MWth chemical looping gasifier. Thereby, a straightforward estimation of solid entrainment from any CFB setup is facilitated, thus closing a crucial research gap.

Uncontrolled Keywords: chemical looping, gasification, hydrodynamics, pilot scale, circulating fluidized bed, dual fluidized bed, cold flow model
Additional Information:

Artikel-ID: 5630

Divisions: 16 Department of Mechanical Engineering
16 Department of Mechanical Engineering > Institut für Energiesysteme und Energietechnik (EST)
TU-Projects: EC/H2020|817841|CLARA
Date Deposited: 04 Aug 2023 08:17
Last Modified: 30 Aug 2023 06:17
PPN: 510355544
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