Preparation of TiC by carbothermal reduction in vacuum and acid leaching using blast furnace slag bearing titania

2016 ◽  
Vol 5 (2) ◽  
Author(s):  
Meilong Hu ◽  
Ruirui Wei ◽  
Zhengfeng Qu ◽  
Fangqing Yin ◽  
Yuzhou Xu ◽  
...  
Keyword(s):  
Blast Furnace ◽  
Carbothermal Reduction ◽  
Blast Furnace Slag ◽  
Acid Leaching ◽  
Carbon Powder ◽  
Mass Ratio ◽  
Combined Process ◽  
Temperature And Pressure ◽  
Bf Slag ◽  
Furnace Slag

AbstractA combined process of carbothermal reduction in vacuum and acid leaching is proposed to produce TiC from titanium bearing blast furnace (BF) slag from Pan Steel in Panzhihua city in China. Thermodynamics calculation shows that TiC can be obtained in the appropriate temperature and pressure range. Moreover, the results of the experiment indicate that TiC can be prepared by the combined process. The optimized parameters include particle size of original slag ideally below 200 mesh, reduction temperature of 1400°C, pressure of 1~10 Pa and mass ratio of slag and reduction (carbon powder) of 100/38. The x value in TiC

Application of High Ti-Bearing Blast Furnace Slag in Field of Building Materials

2014 ◽  
Vol 1052 ◽  
pp. 392-395 ◽  
Author(s):  
Li Xia He
Keyword(s):  
Sustainable Development ◽  
Blast Furnace ◽  
Environmental Protection ◽  
Blast Furnace Slag ◽  
Building Materials ◽  
Waste Material ◽  
Great Production ◽  
Bf Slag ◽  
Furnace Slag

High Ti-bearing blast furnace (BF) slag is the smelting waste of vanadium titano-magnetite. It has great production but low utilization. The high Ti-bearing BF slag is used in building materials industry, which recycles waste material, saves resources and energy, benefiting environmental protection and achieving sustainable development of resources. Study on the recycling of high Ti-bearing BF slag will be an important subject of our researches in future.

Cognition on the Molten Blast Furnace Slag Granulation Techniques in Contemporary China

2013 ◽  
Vol 634-638 ◽  
pp. 3118-3122
Author(s):  
Lin Li ◽  
Guang Xiao Ma ◽  
Dai Jun Wang ◽  
Ruo Yu Zang ◽  
Yong Qi Li
Keyword(s):  
Blast Furnace ◽  
Blast Furnace Slag ◽  
Molten Slag ◽  
Waste Heat ◽  
Water System ◽  
Contemporary China ◽  
Bf Slag ◽  
Design Ideas ◽  
Furnace Slag ◽  
Slag Granulation

Introduce characters and applications of granulation techniques of the molten blast furnace slag in contemporary China, describe characters and design ideas of two types of granulation boxes, represent three types of circulating granulation water systems, put forward matching proposal between the molten slag granulation system and the circulating granulation water system, analyze contemporary research and problems of waste heat recovery of the molten BF slag.

Nonisothermal Carbothermal Reduction Kinetics of Titanium-Bearing Blast Furnace Slag

JOM ◽  
2018 ◽  
Vol 70 (8) ◽  
pp. 1443-1448 ◽  
Author(s):  
Mengjun Hu ◽  
Ruirui Wei ◽  
Meilong Hu ◽  
Liangying Wen ◽  
Fangqing Ying
Keyword(s):  
Blast Furnace ◽  
Carbothermal Reduction ◽  
Blast Furnace Slag ◽  
Reduction Kinetics ◽  
Kinetics Of ◽  
Furnace Slag

Carbothermal reduction–nitridation of titania-bearing blast furnace slag

2008 ◽  
Vol 34 (7) ◽  
pp. 1643-1651 ◽  
Author(s):  
Tao Jiang ◽  
Xiangxin Xue ◽  
Peining Duan ◽  
Xin Liu ◽  
Shuhui Zhang ◽  
...  
Keyword(s):  
Blast Furnace ◽  
Carbothermal Reduction ◽  
Blast Furnace Slag ◽  
Furnace Slag

Progress in Molten Blast Furnace Slag Treatment Using Dry Centrifugal Granulation Technology

2014 ◽  
Vol 675-677 ◽  
pp. 1406-1410
Author(s):  
Jia Bin Zhu ◽  
Shu Zhong Wang ◽  
Ming Luo
Keyword(s):  
Blast Furnace ◽  
Blast Furnace Slag ◽  
Waste Heat ◽  
Recovery Process ◽  
Water Quenching ◽  
Huge Amount ◽  
Slag Treatment ◽  
Bf Slag ◽  
Granulation Technology ◽  
Furnace Slag

The molten blast furnace slag (BF slag) is discharged at the temperature of about 1400-1550 °C, which contains a large amount of heat. At present, water quenching is the main technology to treat the BF slag, but this method not only consumes a huge amount of water, but also fails to recover the waste heat. Compared with water quenching, the dry centrifugal granulation has obvious advantages. There is no water consumed and the waste heat can be recovered efficiently, thus this technology has great potential. This technology mainly contains two processes: the granulating process and the heat recovery process. The present development statuses on those two processes are summarized respectively and the prospect of dry centrifugal granulation technology is forecasted.

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