Add to ORKGThe elemental losses from ashes of common biomass fuels (rice straw, wheat straw, and wood) were determined as a function of temperature from 525 8C to below 1525 8C, within the respective melting intervals. The experimental procedure was chosen to approach equilibrium conditions in an oxidizing atmosphere for the specific ash and temperature conditions. All experiments were conducted in air and used the ashes produced initially at temperatures of 525 8C as reactants. Losses during the initial ashing at 525 8C were negligible, except for a K2O loss of 26% for wood and a Cl loss of 20% for wheat straw. Potassium losses are positively correlated with temperature for all fuel ashes. The K2O loss for wood ash commences at 900–1000 8C. Carbonate...
In this thesis several aspects of ash chemistry are discussed. An issue of primary concern for boile...
This study focuses on the effects of an aluminosilicate additive on the fate of potassium during bio...
The combustion of biomass often leads to the formation of agglomerated deposits. The problems relate...
Biomass as an energy source contributes to a decrease in the dependence on imported fossil fuels, wh...
Systematic mineralogical and chemical changes occur in the ash or slag of biomass during combustion....
Accurate knowledge of the concentrations of potassium and other elements is critical for evaluating ...
In this study, ash transformation and release of critical ash-forming elements during single-pellet ...
Three typical biomass fuels—rice husk, rice straw, and corn cobs—were combusted to understand the ef...
In this study, ash transformation during fixed-bed combustion of different agricultural opportunity ...
During pulverized fuel combustion, inorganic elements such as alkalis, sulfur, chlorine, calcium and...
Deposits, ash samples and residues from pressurised entrained-flow gasification (PEFG) of stem wood,...
The influence of the burning temperature was evaluated for the non-volatile combustible content of w...
This article presents the influence of ash-forming temperature on ash content and the content of sel...
Solid fuels, including biomass, consist of combustible, ash and water. Ash in fuel is result of reac...
Efficient and profitable biomass combustion is often limited by ash related operational problems. Kn...
In this thesis several aspects of ash chemistry are discussed. An issue of primary concern for boile...
This study focuses on the effects of an aluminosilicate additive on the fate of potassium during bio...
The combustion of biomass often leads to the formation of agglomerated deposits. The problems relate...
Biomass as an energy source contributes to a decrease in the dependence on imported fossil fuels, wh...
Systematic mineralogical and chemical changes occur in the ash or slag of biomass during combustion....
Accurate knowledge of the concentrations of potassium and other elements is critical for evaluating ...
In this study, ash transformation and release of critical ash-forming elements during single-pellet ...
Three typical biomass fuels—rice husk, rice straw, and corn cobs—were combusted to understand the ef...
In this study, ash transformation during fixed-bed combustion of different agricultural opportunity ...
During pulverized fuel combustion, inorganic elements such as alkalis, sulfur, chlorine, calcium and...
Deposits, ash samples and residues from pressurised entrained-flow gasification (PEFG) of stem wood,...
The influence of the burning temperature was evaluated for the non-volatile combustible content of w...
This article presents the influence of ash-forming temperature on ash content and the content of sel...
Solid fuels, including biomass, consist of combustible, ash and water. Ash in fuel is result of reac...
Efficient and profitable biomass combustion is often limited by ash related operational problems. Kn...
In this thesis several aspects of ash chemistry are discussed. An issue of primary concern for boile...
This study focuses on the effects of an aluminosilicate additive on the fate of potassium during bio...
The combustion of biomass often leads to the formation of agglomerated deposits. The problems relate...