Combustion and thermal NOx formation have been modelled using the Computational Fluid Dynamics (CFD) commercial code Fluent 6.1. The aim was to predict and give a better understanding of the combustion in electric arc furnaces for the production of ferro-silicon and silicon metal. Another important objective was to assess the impact of a number of operating parameters on the NOx formation. The CFD tools used are de-scribed with a special focus on models for species and turbulence transport. Sensitivity studies have been car-ried out to study the influence of several parameters: sub-models, process gas composition and distribution at the charge surface and influence of the presence of SiO. The main conclusions are: • Using the combination of...
Environmental awareness has proliferated in the last couple of years. A consequence of this is that ...
During tapping of metal from silicon furnaces, a significant amount of gas is often released through...
Nalco Fuel Tech is using computational fluid dynamics (CFD) techniques as a design tool for applying...
Flue gas Recycling (FGR) is a well-known method for NOx reduction. A feasibility study is presented...
A by-product from the ferrosilicon process is process gas which escapes into the furnace hood were i...
Thermal nitric-oxide (NOx) formation in industrial furnaces due to local overheating is a widely kno...
Thermal nitric-oxide (NOx) formation in industrial furnaces due to local overheating is a widely kn...
Computational modelling of NO formation in a 275 MW utility boiler was investigated. The aim was to ...
Abstract—Understanding of how and where NOx formation occurs in industrial burner is very important ...
Copyright © 2018 ASME. The cost and quality of aluminum produced by the reduction process are strong...
To optimize the design for biomass combustion furnaces for NOx-emission reduction, numerical models ...
Silicon is produced in submerged arc furnaces (SAFs), with the heat needed for the endothermic chemi...
This paper presents a new method for the determination of NO(x) formation from industrial boilers. T...
reportIn the aluminium industry, the Hall-Héroult process is used for smelting of aluminium using ca...
Laboratory-scale testing provides detailed analysis of potential NOx control technologies. Extrapola...
Environmental awareness has proliferated in the last couple of years. A consequence of this is that ...
During tapping of metal from silicon furnaces, a significant amount of gas is often released through...
Nalco Fuel Tech is using computational fluid dynamics (CFD) techniques as a design tool for applying...
Flue gas Recycling (FGR) is a well-known method for NOx reduction. A feasibility study is presented...
A by-product from the ferrosilicon process is process gas which escapes into the furnace hood were i...
Thermal nitric-oxide (NOx) formation in industrial furnaces due to local overheating is a widely kno...
Thermal nitric-oxide (NOx) formation in industrial furnaces due to local overheating is a widely kn...
Computational modelling of NO formation in a 275 MW utility boiler was investigated. The aim was to ...
Abstract—Understanding of how and where NOx formation occurs in industrial burner is very important ...
Copyright © 2018 ASME. The cost and quality of aluminum produced by the reduction process are strong...
To optimize the design for biomass combustion furnaces for NOx-emission reduction, numerical models ...
Silicon is produced in submerged arc furnaces (SAFs), with the heat needed for the endothermic chemi...
This paper presents a new method for the determination of NO(x) formation from industrial boilers. T...
reportIn the aluminium industry, the Hall-Héroult process is used for smelting of aluminium using ca...
Laboratory-scale testing provides detailed analysis of potential NOx control technologies. Extrapola...
Environmental awareness has proliferated in the last couple of years. A consequence of this is that ...
During tapping of metal from silicon furnaces, a significant amount of gas is often released through...
Nalco Fuel Tech is using computational fluid dynamics (CFD) techniques as a design tool for applying...