ISSN 2594-357X
47º Seminário de Redução de Minérios e Matérias-Primas — vol. 47, num.47 (2017)
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Abstract
The demand for increasing energy efficiency and CO2 reduction is one of the global megatrends of our time. Although the steel industry suffers from a volatile economic environment, the steel plants are interested to find opportunities for sustainable cost reduction and put efforts into healthy solutions for the environmental. Integrated steel plants are trying to cut electrical power and energy costs as these are among the biggest cost factors that can be influenced and taking all the advantages they can. For the integrated iron and steel making route the interaction of waste energy utilization along with process energy demand, natural and metallurgical gases, steam and heating systems as well as power generation has to be considered. Potential energy sources, such as sinter plant, basic oxygen furnace (BOF) cooling stack or reheating furnaces are considered in order to elaborate an integrated energy concept. Especially electric power generation is an attractive option for steel plant operators since it can easily be connected to the existing power grid of the steel plant. When direct local use of waste heat is limited, the best option is to convert it to mechanical/electrical power with a Rankine Cycle. A stand-alone system, compact design with minimum operational costs in order to fit into the existing steel plant layout, are the main requirements of such units. The objective of this paper is to demonstrate economic feasible opportunities for energy recovery for sinter cooler and basic oxygen furnace with focus on electric power generation via ORC modules taking at the same time advantages of CO2 reduction by utilizing waste heat from the process. Furthermore typical arrangements and layouts of such solutions as well as basic economic calculations will be presented in the paper.
Keywords
Sinter Cooler, Basic Oxygen Furnace, Waste Heat Recovery, CO2 emissions reduction, Energy Efficiency
Sinter Cooler, Basic Oxygen Furnace, Waste Heat Recovery, CO2 emissions reduction, Energy Efficiency
How to refer
Steinwandter, "Andreas;
Smith, Martin;
Masuda, Tomotsugu.
NEW DEVELOPMENTS IN GAS CLEANING TECHNOLOGY FOR IRONMAKING TOWARDS A CLEANER FUTURE
,
p. 240-251.
In: 47º Seminário de Redução de Minérios e Matérias-Primas,
São Paulo,
2017.
ISSN: 2594-357X
, DOI 10.5151/2594-357X-30686