Add to ORKGThe high temperature interactions of alkali metal compounds with solids present in coal conversion processes are investigated. A temperature and concentration programmed reaction method is used to investigate the mechanism by which organically bound alkali is released from carbonaceous substrates. Vaporization of the alkali is preceded by reduction of oxygen-bearing groups during which CO is generated. A residual amount of alkali remains after complete reduction. This residual level is greater for potassium, indicating that potassium has stronger interactions with graphitic substrates than sodium. Other mineral substrates were exposed to high temperature alkali chloride vapors under both nitrogen and simulated flue gas atmospheres to invest...
The limitation of fossil fuel resources and the necessity of reducing CO2 emission require an increa...
Recent vapour pressure measurements and calculations of thermodynamic equilibrium conditions suggest...
The limitation of fossil fuel resources and the necessity of reducing CO2 emission requires an incre...
This study focuses on the effect of alkali adsorption on the agglomeration of particles of bauxite, ...
New advanced combined cycle coal-fired power generation systems are dependent on improvements in gas...
The aluminosilicate materials kaolinite, calcium montmorillonite and emathlite have been tested as s...
Fouling, slagging, corrosion, and emission of submicron particulate from pulverized coal combustors ...
In principle, coal-fired Combined Cycle power generation offers increased efficiency and reduced emi...
Modern second-generation pressurized fluidized-bed combustion (2nd-Gen. PFBC) combined cycle power s...
During combustion or gasification of coals in power planes, alkali metals are released, which can ca...
Gas-phase alkali metal compounds contribute to fouling, slagging, corrosion, and agglomeration probl...
The limitation of fossil fuel resources and the necessity for reducing CO2 emission requires an incr...
The pressurized pulverized coal combustion (PPCC) is a concept for coal-based combined cycles with e...
In this study, the interaction between gas phase potassium species and kaolin was investigated in a ...
A series of adsorption - alkalization experiments were conducted in a muffle furnace on two types of...
The limitation of fossil fuel resources and the necessity of reducing CO2 emission require an increa...
Recent vapour pressure measurements and calculations of thermodynamic equilibrium conditions suggest...
The limitation of fossil fuel resources and the necessity of reducing CO2 emission requires an incre...
This study focuses on the effect of alkali adsorption on the agglomeration of particles of bauxite, ...
New advanced combined cycle coal-fired power generation systems are dependent on improvements in gas...
The aluminosilicate materials kaolinite, calcium montmorillonite and emathlite have been tested as s...
Fouling, slagging, corrosion, and emission of submicron particulate from pulverized coal combustors ...
In principle, coal-fired Combined Cycle power generation offers increased efficiency and reduced emi...
Modern second-generation pressurized fluidized-bed combustion (2nd-Gen. PFBC) combined cycle power s...
During combustion or gasification of coals in power planes, alkali metals are released, which can ca...
Gas-phase alkali metal compounds contribute to fouling, slagging, corrosion, and agglomeration probl...
The limitation of fossil fuel resources and the necessity for reducing CO2 emission requires an incr...
The pressurized pulverized coal combustion (PPCC) is a concept for coal-based combined cycles with e...
In this study, the interaction between gas phase potassium species and kaolin was investigated in a ...
A series of adsorption - alkalization experiments were conducted in a muffle furnace on two types of...
The limitation of fossil fuel resources and the necessity of reducing CO2 emission require an increa...
Recent vapour pressure measurements and calculations of thermodynamic equilibrium conditions suggest...
The limitation of fossil fuel resources and the necessity of reducing CO2 emission requires an incre...