Anais dos Seminários de Redução, Minério de Ferro e Aglomeração


ISSN 2594-357X

Título

SHAFT COOLERS FOR EFFICIENT AND ENVIRONMENTAL FRIENDLY SINTER COOLING

DOI

10.5151/2594-357X-30639

Downloads

Baixar Artigo 660 Downloads

Resumo

State of the art sinter coolers are working based on the cross flow cooling principle. Thus, only a part of the thermal energy can be used for heat recovery application. The other part of the cooling air is brought unused to the environment. Furthermore, environmental regulation regarding dust emission and intelligent usage of exergy are getting stronger. Therefore, Primetals Technologies developed sinter coolers based on the counter flow principle. The cooling air passes the sinter bed in counter-flow direction enabling a direct heat transfer from the hot sinter to the air. The exhaust gas temperature can be maximized by using the total heat of the hot sinter. Due to the possible usage of the total exhaust gas amount, diffusive dust emission is reduced to zero. Two types of counter flow coolers are in the portfolio of Primetals Technologies. One type is based on a stationary shaft, in which the hot sinter is charged. The flow of the hot sinter is in vertical direction from top to bottom, in counter direction than the cooling air. The second type is a circular hopper cooler. The hot sinter is charged on top of a moving bed. At the bottom of the bed the sinter is discharged. The cooling air flows also from the bottom to the top, following the counter flow principle. Depending on the requirements, one of the two counter flow cooler types can be chosen for optimized and efficient cooling of hot sinter..

 

Palavras-chave

Sinter Cooler, Counter Flow Principle, Shaft Cooler, Environment, Energy.

Sinter Cooler, Counter Flow Principle, Shaft Cooler, Environment, Energy.

Como citar

Böberl, Michaela; Fehringer, Edmund; Kamikawa, Susumu. SHAFT COOLERS FOR EFFICIENT AND ENVIRONMENTAL FRIENDLY SINTER COOLING , p. 135-142. In: 5º Simpósio Brasileiro de Aglomeração de Minérios, São Paulo, 2017.
ISSN: 2594-357X , DOI 10.5151/2594-357X-30639