scholarly journals Furnace heat prediction and control model and its application to large blast furnace

2019 ◽  
Vol 38 (2019) ◽  
pp. 884-891
Author(s):  
Zhuang-nian Li ◽  
Man-sheng Chu ◽  
Zheng-gen Liu ◽  
Gen-ji Ruan ◽  
Bao-feng Li
Keyword(s):  
Blast Furnace ◽  
Control Model ◽  
Heat Index ◽  
Model Parameters ◽  
Stable Operation ◽  
Oxygen Balance ◽  
Large Blast ◽  
Large Blast Furnace ◽  
Prediction And Control ◽  
And Control

AbstractBlast furnace heat is the key to the blast furnace’s high efficiency and stable operation, and it is difficult to maintain a suitable temperature for large blast furnace operations. When designing the furnace heat prediction and control model, parameters with good reliability and measurability should be chosen to avoid using less accurate parameters and to ensure the accuracy and practicability of the model. This paper presents an effective model for large blast furnace temperature prediction and control. Using thermal equilibrium and the carbon-oxygen balance of the blast furnace’s high-temperature zone, the slag-iron heat index was calculated. Using the relation between the molten iron temperature and slag-iron heat index, the furnace heat parameter can be calculated while production conditions are changed,which can guide furnace heat control.

scholarly journals Operation Characteristic of Super-Large Blast Furnace Slag in China

2017 ◽  
Vol 57 (6) ◽  
pp. 983-988 ◽  
Author(s):  
Jiao Kexin ◽  
Zhang Jianliang ◽  
Chen Chunlin ◽  
Liu Zhengjian ◽  
Jiang Xi
Keyword(s):  
Blast Furnace ◽  
Blast Furnace Slag ◽  
Large Blast ◽  
Large Blast Furnace ◽  
Operation Characteristic ◽  
Furnace Slag

Study on a MES-Based Large Blast Furnace Expert System

2013 ◽  
Vol 706-708 ◽  
pp. 1971-1977
Author(s):  
Xue Gong Bi ◽  
Peng Li ◽  
Wei Peng ◽  
Jindong Zhou ◽  
Kuangnian He ◽  
...  
Keyword(s):  
Blast Furnace ◽  
Expert System ◽  
Information Sharing ◽  
Integrated Management ◽  
Gas Distribution ◽  
Large Blast ◽  
Large Blast Furnace

Abstract: Manufacture Executing System is superior in information sharing and integrated management, by the combination of the two techniques of MES and ES, an intelligent expert system of Shaogang 3200 m3 blast furnace was established. This system runs stably with higher reliability, and allows to make accurate monitoring and prediction for furnace heat, gas distribution and abnormal furnace conditions, playing a role in guiding operators to run the furnace.

Study of the charge and gas-flow distributions in a large blast furnace with a bell-less charging apparatus

Metallurgist ◽  
1997 ◽  
Vol 41 (12) ◽  
pp. 389-390 ◽  
Author(s):  
V. I. Bol'shakov ◽  
S. T. Shuliko ◽  
V. V. Kanaev ◽  
F. M. Shutylev ◽  
V. N. Loginov
Keyword(s):  
Blast Furnace ◽  
Gas Flow ◽  
Large Blast ◽  
Large Blast Furnace ◽  
Charging Apparatus

Distribution of alkali compunds in a large blast furnace

Metallurgist ◽  
1983 ◽  
Vol 27 (5) ◽  
pp. 153-156 ◽  
Author(s):  
N. N. Chernov ◽  
T. V. Demidenko ◽  
B. F. Marder ◽  
I. E. Pochekailo ◽  
V. V. Taranovskii
Keyword(s):  
Blast Furnace ◽  
Large Blast ◽  
Large Blast Furnace

scholarly journals Effect of Electrolyzed Alkaline-Reduced Water on the Early Strength Development of Cement Mortar Using Blast Furnace Slag

Materials ◽  
2020 ◽  
Vol 13 (20) ◽  
pp. 4620
Author(s):  
Taegyu Lee ◽  
Suna Kim ◽  
Sun-Gyu Park
Keyword(s):  
Blast Furnace ◽  
Blast Furnace Slag ◽  
Cement Matrix ◽  
Strength Development ◽  
Replacement Ratio ◽  
Large Blast ◽  
Large Blast Furnace ◽  
Alkaline Activator ◽  
Furnace Slag ◽  
Reduced Water

This study evaluated the use of electrolyzed alkaline-reduced water instead of an alkaline activator for the production of a strong cement matrix with a large blast furnace slag replacement ratio. The flexural and compressive strength measurements, X-ray diffraction analysis, and scanning electron microscopy images of the cement matrices produced using electrolyzed alkaline-reduced water and regular tap water, and with blast furnace slag replacement ratios of 30 and 50% were compared to a normal cement matrix. The cement matrix produced using electrolyzed alkaline-reduced water and blast furnace slag exhibited an improved early age strength, where hydrate formation increased on the particle surface. The cement matrix produced using electrolyzed alkaline-reduced water exhibited a high strength development rate of over 90% of ordinary Portland cement (OPC) in BFS30. Therefore, the use of electrolyzed alkaline-reduced water in the place of an alkaline activator allowed for the formation of a very strong cement matrix in the early stages of aging when a large blast furnace slag replacement ratio was used.

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