Add to ORKGThe main aim of this work was to investigate the propensity of bed materials to retain ash-forming elements from biomass under conditions relevant to dual fluidized bed gasification (DFBG). The investigation was carried out in a laboratory-scale bubbling fluidized bed reactor in which biomass was gasified with steam and the unconverted char was combusted in the temperature range 800–900 ° C. Three bed materials (sand, olivine and bauxite) and two biomass fuels (forestry residue and wheat straw) were studied. From the results obtained and literature on the ash transformation chemistry during thermal conversion of biomass, it was found that the extent to which ash-forming elements from biomass are retained on bed materials depend among other ...
The transformation and release of ash-forming elements during the thermal conversion of biomass are ...
There is relatively extensive knowledge available concerning ash transformation reactions during ene...
Fluidized beds have been widely applied to gasification and combustion of biomass. During gasifica...
The main aim of this work was to investigate the propensity of bed materials to retain ash-forming e...
Dual Fluidized Bed (DFB) gasification is a promising alternative method for the production of biofue...
Over the past few decades, a growing interest in the thermal conversion of alternative fuels such as...
This paper is the first in a series of two describing the use of waste gypsum boards as an additive ...
Reducing the global dependence on fossil fuels is of paramount importance in tackling the environmen...
The utilization of the fluidized bed technology offers the possibility of thermally converting a lar...
The transformation and release of ash-forming elements during thermal conversion of biomass arecondu...
The efficient use of resources and sustainable recovery of various materials are important to minimi...
The utilization of biomass for energy generation is a CO2 neutral alternative to fossil fuel. A suit...
Dual Fluidized Bed (DFB) gasification is one alternative for the production of biofuels. In a DFB ga...
The transformation and release of ash-forming elements during the thermal conversion of biomass are ...
There is relatively extensive knowledge available concerning ash transformation reactions during ene...
Fluidized beds have been widely applied to gasification and combustion of biomass. During gasifica...
The main aim of this work was to investigate the propensity of bed materials to retain ash-forming e...
Dual Fluidized Bed (DFB) gasification is a promising alternative method for the production of biofue...
Over the past few decades, a growing interest in the thermal conversion of alternative fuels such as...
This paper is the first in a series of two describing the use of waste gypsum boards as an additive ...
Reducing the global dependence on fossil fuels is of paramount importance in tackling the environmen...
The utilization of the fluidized bed technology offers the possibility of thermally converting a lar...
The transformation and release of ash-forming elements during thermal conversion of biomass arecondu...
The efficient use of resources and sustainable recovery of various materials are important to minimi...
The utilization of biomass for energy generation is a CO2 neutral alternative to fossil fuel. A suit...
Dual Fluidized Bed (DFB) gasification is one alternative for the production of biofuels. In a DFB ga...
The transformation and release of ash-forming elements during the thermal conversion of biomass are ...
There is relatively extensive knowledge available concerning ash transformation reactions during ene...
Fluidized beds have been widely applied to gasification and combustion of biomass. During gasifica...