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Preparation and Properties of SiC Assembled Large Block for Blast Furnace Tuyeres
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作者 LYU Chunjiang CHANG Cheng +3 位作者 HUANG Yifei CAO Huiyan LI Jie ZHU Chong 《China's Refractories》 CAS 2023年第4期1-7,共7页
A SiC assembled large block for blast furnace tuyeres was prepared using silicon carbide particles(3-1 and 1-0.088 mm)and fine powder(<0.088 mm),silicon powder(<0.088 mm),industrial carbon black(N990),microsili... A SiC assembled large block for blast furnace tuyeres was prepared using silicon carbide particles(3-1 and 1-0.088 mm)and fine powder(<0.088 mm),silicon powder(<0.088 mm),industrial carbon black(N990),microsilica,ρ-Al_(2)O_(3) powder,etc.as raw materials.The developed block was compared with a silicon nitride bonded silicon carbide brick,a self-bonded silicon carbide brick and an imported self-bonded silicon carbide block to analyze and evaluate their service performance.The results show that:(1)in the 0-100 mm zone,the SiC large block mainly consists ofβ-SiC and nitrides such as O'-SiAlON,β-SiAlON,α-Si_(3)N_(4),and Si_(2)N_(2)O,the bulk density is 2.68-2.70 g·cm^(-3),the apparent porosity is 14%-15%,and the material structure is uniform;(2)in the 0-100 mm zone,β-SiC nano-whiskers intercalate with nitrides;with the depth increasing,the number of flocculentβ-SiC nano-whiskers increases,while the number of nitrides decreases;when the depth reaches 150 mm or more,the main bonding phases areβ-SiC and mullite;(3)compared with the reference products,the developed SiC large block has a good basic performance,and after alkali corrosion,the mass change rate is-0.1%,which is obviously superior to the imported self-bonded silicon carbide and the homemade silicon nitride bonded silicon carbide materials. 展开更多
关键词 blast furnace for iron-making TUYERE silicon carbide alkali corrosion resistance
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Hot Blast Flow Measurement in Blast Furnace in Straight Pipe
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作者 Ricardo S. N. Motta Edson C. Bortoni Luiz E. Souza 《Modern Instrumentation》 2013年第4期68-73,共6页
This article shows an innovative method to model and validate the hot air flow through the blast furnacés tuyeres. This study will be the basis for flow measurements implementation and safety interlocks for the p... This article shows an innovative method to model and validate the hot air flow through the blast furnacés tuyeres. This study will be the basis for flow measurements implementation and safety interlocks for the pulverized coal injection. The flow measurements were taken in the blast furnace down leg pipes by installing refractory Venturi tubes. The system for the calculation of differential pressure takes into consideration the dimension of the Venturi, the air density and compressibility. The objective is to specify the flow transmitters required to automate a control system and implement safety interlocks for the coal injection plant. 展开更多
关键词 BLAST Furnacés tuyeres STRAIGHT PIPE HOT Air Flow COAL Injection
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Mechanism of zinc damaging to blast furnace tuyere refractory 被引量:20
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作者 Xuefeng FANG Mansheng CHU +1 位作者 Fengman SHEN Zhuming ZHANG 《Acta Metallurgica Sinica(English Letters)》 SCIE EI CAS CSCD 2009年第6期454-460,共7页
The phenomena of tuyere upward-warp have been found at No.6 blast furnace in Kunming Steel Company China after its blow-in, which has made a great impact on the practical production of the furnace. Thus, a number of e... The phenomena of tuyere upward-warp have been found at No.6 blast furnace in Kunming Steel Company China after its blow-in, which has made a great impact on the practical production of the furnace. Thus, a number of efforts have been made to elucidate the mechanism of this phenomenon. The results of investigation and tests revealed that the enrichment and expansion of zinc in the tuyere bricks is the main factor leading to the tuyere upward-warp. The eroding behavior of zinc is that the inner structure of the tuyere bricks turns from dense to loose with entering, enriching and expanding of zinc, which forms spot-like→stripe-like→ditch-like→vein-like→tumorlike eroding passage. Additionally, it is found that the sequence of deleterious ele- ments entering the tuyere refractory is K, Na, Zn and Pb, respectively. Finally, the phenomena and process of zinc crystallization and growth in the refractory have been clearly observed and recorded during this investigation. 展开更多
关键词 Blast furnace TUYERE REFRACTORY ZINC EROSION Deleterious elements
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Application of Ceramic Coat Synthesized by In-Situ Combustion Synthesis to BF Tuyere 被引量:7
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作者 YANG Da-zheng GUAN Yong +3 位作者 ZHANG Yue LI Jing HU Jun-ge LI Wen-zhu 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2007年第2期70-72,共3页
A novel technology of tuyere protection is introduced. The ceramic coat .is synthesized by using in-situ combustion process as the internal, external, and nose protecting coat of BF tuyeres. It can effectively protect... A novel technology of tuyere protection is introduced. The ceramic coat .is synthesized by using in-situ combustion process as the internal, external, and nose protecting coat of BF tuyeres. It can effectively protect the tuyeres and reduce heat loss by cooling water. The technglogy is quick-acting, easy to use, energy-saving and can make tuyeres have long service life. The feasibility of the application of the tuyere ceramic coat is discussed and the energy-saving effect of the tuyere is compared with that of the tuyeres lined with refractory. 展开更多
关键词 BF tuyere in-situ combustion synthesis energy-saving technology
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Measures to dealwith low strength coke for Basteel's 2500 m^3 BF
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作者 XU Xiaobin Ironmaking Branch,Bayi Iron & Steel Co.,Baosteel Group,Urumqi 830022,Xinjiang,China 《Baosteel Technical Research》 CAS 2010年第S1期5-,共1页
The production indexes were deteriorated due to quality coke,Utilization Factor 2.0 t/m^3·d,PCI 100 kg/T,According to Analysis the Mechanism of Production of low hot strength coke quality on Blast Furnace Smooth,... The production indexes were deteriorated due to quality coke,Utilization Factor 2.0 t/m^3·d,PCI 100 kg/T,According to Analysis the Mechanism of Production of low hot strength coke quality on Blast Furnace Smooth,The coke cold strength retained M_(10)<6.3 over a long period of time in order to insure coke granularity and permeability index in cohesive zone;A_(ad)<12 and granularity tranquilization is useful BF production.The PCI protect coke hot strength by high rate bituminous coals;high rate H_2 in BF gas bate coke demolish.blast furnace operation,on monitoring and operation BF,tranquilization the BLAST FURNACE temperature,PT controls parameter area is about 1 500℃;strengthen management of permeability index, improve Top - pressure for Blast Furnace,Strengthening the Management of the Raw Materials and Fuel, logical rate of sinter Level off about 70%to improve Metallurgical Properties of Burdens.Parameters of wind have been adopted About 10 000 - 11 000 kg·m/s;,theoretical flame temperature in a blast furnace have been adjusted area is about 2 050 - 2 200℃;the temperature direction about copper stave management established act;according to this measures,According to Improvement Center Gas Flow Instability in the first place,the gas flow distribution turns to the reasonable state.Strengthen furnace casthouse operation ect, Utilization Factor improve 2.2 t/m^3·d,PCI 130 kg/T.Cold and hot state strength indexes of coke on BF production were instability.According to optimize the Operating Paramete in specifically economy technology indexes conduction,the BF condiction can keeping steady and smooth. 展开更多
关键词 BF COKE TUYERE hearth of furnace
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Investigation into characteristics of the char bed in the melter gasifier through tuyere probing
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作者 GUO Yanling XU Wanren LI Zhaoyi 《Baosteel Technical Research》 CAS 2010年第3期45-48,共4页
Tuyere coke probing was conducted at the Baosteel Corex Plant in order to gain a better understanding of the structure of the char bed in the melter gasifier ( MG ). After screening, the specimens were observed by a... Tuyere coke probing was conducted at the Baosteel Corex Plant in order to gain a better understanding of the structure of the char bed in the melter gasifier ( MG ). After screening, the specimens were observed by an optical microscope to determine the mechanism of the char bed formation. X-ray diffraction (XRD) was used to clarify the degree of graphitization and infer thermal history of coke. The results show that the amount of powder coming from lump coal in the burden is much more than that from coke. Based on this, measures for improving the char bed' s permeability are proposed. 展开更多
关键词 melter gasifier tuyere coke char bed lump coal
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Research on overall assembling and welding process of steel box girder tuyere blocks of Taizhou Bridge
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作者 Yan Shiguang Li Hongtao Wang Chao 《Engineering Sciences》 EI 2012年第3期21-25,共5页
This article presents in detail the assembling and welding process technique of the steel box girder tuyere blocks of Taizhou Bridge. The application of this process technique effectively solves the problem of welding... This article presents in detail the assembling and welding process technique of the steel box girder tuyere blocks of Taizhou Bridge. The application of this process technique effectively solves the problem of welding stress release in tuyere block assembling and welding without increasing the number of turns of the blocks and overhead welding, thus avoiding possible structural deformation due to excessive accumulation of internal welding stress, greatly reducing the repeated deformation and correction work during assembling and welding, and ensuring the weld seam quality and overall dimensions of tuvere blocks of Taizhou Bridze. 展开更多
关键词 Taizhou Bridge steel box girder TUYERE PROCESS
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Optimization study of spherical tuyere based on BP neural network and new evaluation index
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作者 Mengchao Liu Ran Gao +1 位作者 Yi Wang Angui Li 《Building Simulation》 SCIE EI CSCD 2024年第2期223-234,共12页
The energy consumption of heating,ventilation,and air conditioning(HVAC)systems holds a significant position in building energy usage,accounting for about 65%of the total energy consumption.Moreover,with the advanceme... The energy consumption of heating,ventilation,and air conditioning(HVAC)systems holds a significant position in building energy usage,accounting for about 65%of the total energy consumption.Moreover,with the advancement of building automation,the energy consumption of ventilation systems continues to grow.This study focuses on improving the performance of spherical tuyeres in HVAC systems.It primarily utilizes neural networks and multi-island genetic algorithms(MIGA)for multi-parameter optimization.By employing methods such as structural parameterization,accurate and fast computational fluid dynamics(CFD)simulations,a minimized sample space,and a rational optimization strategy,the time cycle of the optimization process is shortened.Additionally,a new comprehensive evaluation index is proposed in this research to describe the performance of spherical tuyeres,which can be used to more accurately assess spherical tuyeres with different structures.The results show that by establishing a neural network prediction model and combining it with the multi-island genetic algorithm,a novel spherical tuyere design was successfully achieved.The optimized novel spherical tuyeres achieved a 27.05%reduction in the spherical tuyeres effective index(STEI)compared to the traditional spherical tuyeres.Moreover,the resistance decreased by 15.68%,and the jet length increased by 7.57%.The experimental results demonstrate that our proposed optimization method exhibits high accuracy,good generalization capability,and excellent agreement at different Reynolds numbers. 展开更多
关键词 spherical tuyeres STEI CFD ventilation
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Numerical simulation of the effect of coaxial and cross-axis injection modes on pulverized coal combustion in the raceway of blast furnace tuyere
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作者 Yunpeng Wang Lei Gao Xiaolei Zhou 《Particuology》 SCIE EI CAS CSCD 2024年第10期154-169,共16页
The aim of this study is to investigate the influence of the angle of the pulverized coal (PC) injection lance on the combustion characteristics of fuel in the raceway of blast furnace tuyeres. Using FLUENT software, ... The aim of this study is to investigate the influence of the angle of the pulverized coal (PC) injection lance on the combustion characteristics of fuel in the raceway of blast furnace tuyeres. Using FLUENT software, a Euler-Lagrange three-dimensional numerical model was constructed to analyze the influence of different positions of blast furnace tuyere coal powder injection lance (coaxial and cross-axis) on key parameters such as temperature distribution, gas flow, and combustion efficiency. The results demonstrate that adjusting the angle of the injection lance significantly modifies the average and peak temperatures in the raceway, while the composition of gas components remains relatively stable. When the injection lance angle is 10°, the average temperature and peak temperature in the raceway are 2294 K and 2747 K, respectively. When the injection lance angle is 12°, the combustion efficiency of the PC reaches 80.8%. This study reveals the significant impact of the injection lance angle on the combustion process. Especially at an angle of 12°, the combustion efficiency of the blast furnace significantly improves. With coaxial injection, the combustion rate increases as the distance between the injection lance tip and the tuyere increases. This paper is instructive for the optimization of the blast furnace combustion system, which improve fuel utilization efficiency and reduce environmental emissions. This paper provides practical recommendations for adjusting blast furnace operational parameters, offering insights for achieving more efficient and environmentally friendly industrial production. 展开更多
关键词 Pulverized coal combustion Tuyere raceway Blast furnace CFD simulation
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Interaction mechanism between coal combustion products and coke in raceway of blast furnaces 被引量:1
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作者 Chong Zou Liang-ying Wen +1 位作者 Jun-xue Zhao Rui-meng Shi 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2017年第1期8-17,共10页
The interaction mechanism between the combustion products of pulverized coal injected and coke in the raceway of blast furnace was studied through thermodynamic calculation and experiments.The results indicated that a... The interaction mechanism between the combustion products of pulverized coal injected and coke in the raceway of blast furnace was studied through thermodynamic calculation and experiments.The results indicated that additives significantly affected the melting property of coal ash in high temperature zone.Although the unburnt char,raw coal ash,and catalyzed coal ash failed to wet the coke surface,the wettability of the catalyzed coal ash on the coke was greater than that of the raw coal ash.Since the unburnt char had weak reaction with the coke surface,it showed little influence on the surface morphology of the coke.The interaction between the raw coal ash and the coke gave rise to the increase in the pore size on the coke surface.However,the raw coal ash only affected the coke surface and the entrances of the pores owing to its poor fluidity.After being melted,the catalyzed coal ash was expected to immerge into the inside part of the coke and then react with the coke,resulting in an expansion and increase of coke cavities.The raw coal ash and the unburnt char reduced the coke reactivity,while the catalyzed coal ash improved the coke reactivity.Thereinto,the coal ash containing Fe2O3 exhibited a larger influence on the reactivity than that containing CaO. 展开更多
关键词 COAL COKE Tuyere raceway Blast furnace Pulverized coal injection Interaction mechanism
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When Lotus Leaves Prevent Metal from Melting一Biomimetic Surfaces for High Temperature Applications
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作者 Wilfried Konrad Jorg Adam +1 位作者 Siegfried Konietzko Christoph Neinhuis 《Journal of Bionic Engineering》 SCIE EI CSCD 2019年第2期281-290,共10页
Functional properties of biological surfaces have gained increasing interest in the last two decades,especially with regard to wetting and sei-cleaning.Here,biological surfaces of arthropods(Collembola)and plants(sacr... Functional properties of biological surfaces have gained increasing interest in the last two decades,especially with regard to wetting and sei-cleaning.Here,biological surfaces of arthropods(Collembola)and plants(sacred Lotus)served as models for the principle design of high temperature resistant surfaces used in blast furnaces to prevent tuyeres from melting.Tuyeres are double-walled,watercooled pipes supplying the blast furnace with hot air to keep the reduction and melting process running.Tuyere failure is mainly caused by melting of the wall after direct contact with liquid iron,resulting in the partial shut down of the blast furnace and huge energy losses.As a new approach to avoid tuyere failure we developed a new type of tuyere surface with(i)defined cone shaped indentations and(ii)a heat resistant zirconium/corundum coating with"ferrophobic”properties i.e.it forms with liquid iron of 1500°C a contact angle exceeding 130°.Theoretical considerations indicate that liquid iron infiltrates these indentations only partially if this contact angle and the aperture angle of the cone satisfy an inequality condition.Since heat conductivity of the remaining gas trapped inside the cones is by five orders of magnitude lower than in copper,the overall heat flow into the tuyere is substantially reduced and the outer walls are much less prone to melting. 展开更多
关键词 TUYERE BLAST FURNACE biomimetics liquid iron heat flow
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Three-dimensional numerical simulation of flow and splash behavior in an oxygen coal combustion melting and separating furnace
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作者 Kai Zhao Yao-zong Shen +6 位作者 Zheng Kong Qiao-rong Zhang Yu-zhu Zhang Yan Shi Chang-liang Zhen Xue-feng Shi Xing-hua Zhang 《Journal of Iron and Steel Research International》 SCIE EI CSCD 2021年第8期965-977,共13页
The change of bubbles and the position of the tuyere in an oxygen coal combustion melting and separating furnace affect the flow and splash behavior of the molten pool.To analyze this problem further,a three-dimension... The change of bubbles and the position of the tuyere in an oxygen coal combustion melting and separating furnace affect the flow and splash behavior of the molten pool.To analyze this problem further,a three-dimensional numerical simulation method was used to explore the behavior and change of the flow field inside the molten pool during double-row tuyere injection.In addition,the arrangement of the tuyere was changed for a more detailed understanding of the internal phase distribution and splashing in a molten pool.The results indicated that under three-dimensional numerical simulation conditions,bubbles rise after leaving the tuyere and break on the surface of the molten pool,which results in certain fluctuations in the nearby melt.During the injection process of the tuyere,the meteorological accumulation in the middle part of the molten pool formed part of the foam slag because of the influence of surface tension.When the layout of the upper and lower exhaust tuyeres was changed from staggered to symmetrical,or when the spacing of the upper and lower exhaust tuyeres changed,it had an effect on the phase distribution and splash behavior. 展开更多
关键词 Oxygen coal combustion melting and separating furnace Exhaust tuyere Phase distribution SPLASH Numerical simulation
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