Theoretical Analysis on the Injection of H_2, CO, CH_4 Rich Gases into the Blast Furnace
スポンサーリンク
概要
- 論文の詳細を見る
The aim of this work is the determination of the combustion characteristics of two different fuel gases for their blast furnace utilization. The availability of gas from the coke production as well as from the basic oxygen furnace (BOF) process in an integrated metallurgical plant makes it possible to substitute reducing agents like oil. For a description of the varieties of the gases, coke oven gas (COG) and a mixture of COG and BOF gas, four independent modeling approaches were applied to cover all aspects. The different applied modeling approaches are the thermodynamic equilibrium, the plug flow reactor (PFR) model with detailed chemistry with or without, resp., consideration of the mixing time and computational fluid dynamics (CFD). This guarantees an improved understanding of the whole combustion process.The earlier ignition of the COG/BOF gas mixture in comparison to the COG can be ascribed to the higher excess air ratio, in spite of the better ignition propensity of COG. The higher net calorific value of the COG results in higher combustion temperatures, which implicates a higher thermal strain on the tuyere. In addition, greater amounts on CO and H2 in the raceway result from the COG combustion.
- 2005-02-15
著者
-
ANDAHAZY Dietmar
Christian Doppler Laboratory for Chemical Engineering at High Temperatures, Vienna University of Tec
-
LOFFLER Gerhard
Christian Doppler Laboratory for Chemical Engineering at High Temperatures, Vienna University of Tec
-
WINTER Franz
Christian Doppler Laboratory for Chemical Engineering at High Temperatures, Vienna University of Tec
-
FEILMAYR Christoph
Voestalpine Stahl GmbH
-
BURGLER Thomas
Voestalpine Stahl GmbH
-
Andahazy Dietmar
Christian Doppler Laboratory For Chemical Engineering At High Temperatures Vienna University Of Tech
-
Winter Franz
Christian Doppler Laboratory For Chemical Engineering At High Temperatures Vienna University Of Tech
-
Winter Franz
Christian Doppler Laboratory For Chemical Engineering At High Temperatures
-
Loffler Gerhard
Christian Doppler Laboratory For Chemical Engineering At High Temperatures Vienna University Of Tech
-
Winter F
Vienna Univ. Technol. Vienna Aut
-
Loeffler G.
Christian Doppler Laboratory For Chemical Engineering At High Temperatures Vienna University Of Tech
関連論文
- Theoretical Analysis on the Injection of H_2, CO, CH_4 Rich Gases into the Blast Furnace
- An Experimental Study on the Kinetics of Fluidized Bed Iron Ore Reduction
- Reduction of Iron Ore Fines with CO-rich Gases under Pressurized Fluidized Bed Conditions
- Governing Processes of Gas and Oil Injection into the Blast Furnace
- Modeling and Simulation of Heat Front Propagation in the Iron Ore Sintering Process
- Reduction Behavior of Hematite to Magnetite under Fluidized Bed Conditions
- Reducing Ability of CO and H_2 of Gases Formed in the Lower Part of the Blast Furnace by Gas and Oil Injection