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Document type:
Konferenzbeitrag 
Contribution type:
Textbeitrag / Aufsatz 
Author(s):
Johne, P.; Kaindl, P.; Fendt, S.; Spliethoff, H. 
Title:
Fuel & Load-Flexible Entrained Flow Gasifier Operation & Applications: Flame Parameters & Flexible Burner 
Abstract:
Oxygen-blown entrained flow gasification (EFG) of biomass is a promising technology for further reducing CO2-emissions in power production (e.g. via IGCC plants or fuel cells) or chemical/fuel production (e.g. MeOH or Fischer-Tropsch synthesis). It produces a high quality synthesis gas with a low tar content while achieving high carbon conversions and enabling simple pressurized operation. Although biomass is a non-volatile energy source and gasification is better suited for stationary operation...    »
 
Keywords:
Biomass; Entrained Flow Gasification; Autothermal; Oxygen-Blown; Flame Stability; Flexibility; Burner Design; Flame Image Analysis; Flame Shape; Swirl Burner 
Book / Congress title:
27th International Conference on the Impact of Fuel Quality on Power Production and the Environment 
Congress (additional information):
IFQ 2018 
Date of congress:
23.09.2018-28.09.2018 
Year:
2018 
Pages:
13 
Reviewed:
nein 
Language:
en 
TUM Institution:
Lehrstuhl für Energiesysteme