Add to ORKGFly ash particles entrained in the flue gas from boiler furnaces in coal-fired power stations can cause serious erosive wear on steel surfaces along the flow path. Such erosion can reduce significantly the operational life of the boiler components. A fundamentally-derived mathematical model embodying the mechanisms of erosion involving cutting wear, plastic deformation wear and effect of temperature on erosion behaviour, has been developed to predict erosion rates on the coal fired boiler components such as boiler tubes, economizer and airpreheater assemblies at room and elevated temperature. Various grades of steels, commonly used in the fabrication of boiler components and published data pertaining boiler fly as...
In pulverised coal fired boilers, entrained fly ash particles in the flue gas often leads to erosive...
This paper presents a computational analysis of fly ash erosion on superheater tubes of a coal furna...
In pulverised coal fired boilers, entrained fly ash particles in the flue gas may cause erosive wear...
Fly ash particles entrained in the flue gas from boiler furnaces in coal-fired power stations can ca...
Abstract. Fly ash particles entrained in the flue gas from boiler furnaces in coal-fired power stati...
Fly ash particles entrained in the flue gas of coal-fired boilers can cause serious erosion on the ...
A first principle based theoretical model has been developed on the erosion behaviour to predict er...
In coal-fired power stations about 20% of the ash prod-uced in the boilers is deposited on the bo...
In coal-fired power stations about 20% of tie ash produced in the boilers is deposited on the ...
The simultaneous action of high temperature oxidation and mechanical erosion on the boiler component...
A theoretical model has been developed embodying the ductile erosion mechanisms involving cutting we...
An earlier developed stochastic model has been applied to describe the relative rate of material lo...
This work is an attempt to evaluate the influence of critical operational parameters on the high tem...
A ductile erosion model embodying the mechanisms of erosion involving cutting wear and repeated plas...
This paper presents a computational analysis of fly ash erosion on superheater tubes of a coal furna...
In pulverised coal fired boilers, entrained fly ash particles in the flue gas often leads to erosive...
This paper presents a computational analysis of fly ash erosion on superheater tubes of a coal furna...
In pulverised coal fired boilers, entrained fly ash particles in the flue gas may cause erosive wear...
Fly ash particles entrained in the flue gas from boiler furnaces in coal-fired power stations can ca...
Abstract. Fly ash particles entrained in the flue gas from boiler furnaces in coal-fired power stati...
Fly ash particles entrained in the flue gas of coal-fired boilers can cause serious erosion on the ...
A first principle based theoretical model has been developed on the erosion behaviour to predict er...
In coal-fired power stations about 20% of the ash prod-uced in the boilers is deposited on the bo...
In coal-fired power stations about 20% of tie ash produced in the boilers is deposited on the ...
The simultaneous action of high temperature oxidation and mechanical erosion on the boiler component...
A theoretical model has been developed embodying the ductile erosion mechanisms involving cutting we...
An earlier developed stochastic model has been applied to describe the relative rate of material lo...
This work is an attempt to evaluate the influence of critical operational parameters on the high tem...
A ductile erosion model embodying the mechanisms of erosion involving cutting wear and repeated plas...
This paper presents a computational analysis of fly ash erosion on superheater tubes of a coal furna...
In pulverised coal fired boilers, entrained fly ash particles in the flue gas often leads to erosive...
This paper presents a computational analysis of fly ash erosion on superheater tubes of a coal furna...
In pulverised coal fired boilers, entrained fly ash particles in the flue gas may cause erosive wear...