We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Effect of the Surface Relief of the Heat-Insulating Insert in the Blast Channel of Blast-Furnace Tuyere on Its Efficiency.
- Authors
Albul, S. V.; Kobelev, O. A.; Levitskii, I. A.
- Abstract
When supplying natural gas to a blast-furnace tuyere, it is necessary to strive to increase the efficiency of the combustion of natural gas in the blast channel of the tuyere on the one hand and to protect the inner shell of the tuyere against burnout on the other hand. One of the methods to achieve both of these contradictory goals is to install a heat-insulating ceramic insert in the blast channel. We consider the possibility of increasing the efficiency of the ceramic insert by making one or more annular grooves on its surface to improve the mixing between natural gas and blast air for more efficient combustion. Ansys 21.1 software is used to simulate the motion of fluids, heat transfer, and combustion of natural gas in the blast channel with a ceramic insert that has annular grooves of quadrangular cross-section. The influence of the depth and width of grooves and the distance between them on the processes in the tuyere is studied. It is shown that an annular groove in the insert increases the total heat from the combustion of natural gas, which is confirmed by an increase in the concentration of CO2 and the temperature and rate of blast at the outlet of the tuyere. The maximum thermal stresses in the insert increase as well, exceeding the maximum stresses in the insert without grooves by no more than 30%.
- Subjects
NATURAL gas; BLAST furnaces; NATURAL gas reserves; ENTHALPY; HEAT of combustion; COMBUSTION efficiency; COMBUSTION gases
- Publication
Metallurgist, 2023, Vol 67, Issue 3/4, p354
- ISSN
0026-0894
- Publication type
Article
- DOI
10.1007/s11015-023-01522-3