Research on heat dissipation testing for furnace shell of Baosteel COREX C3000 process

来源 :第五届宝钢学术年会 | 被引量 : 0次 | 上传用户:Ideal
下载到本地 , 更方便阅读
声明 : 本文档内容版权归属内容提供方 , 如果您对本文有版权争议 , 可与客服联系进行内容授权或下架
论文部分内容阅读
  Under the double influence of global resources shortage and strict environment protection policies,the traditional blast furnace ironmaking process has entered the deceleration period and met more and more fierce competition and challenges.COREX,as an alternative route to the blast furnace,is the first and only commercially established smelting-reduction process in the world.As an international advanced iron and steel production enterprise,Baosteel has built two sets of large-scale smelting-reduction COREX C3000 units ( named 1# COREX and 2# COREX in this article).Up to now,there is a paucity of publications relating to the heat dissipation testing of COREX process as it is extremely helpful to understand the energy utilization of COREX system to explore a way of increasing production and reducing fuel consumption.In this paper,based on the processes and characteristics of two sets of Baosteel COREX C3000 units,a comprehensive furnace shell heat dissipation testing scheme was established in aspect of pre-reduction shaft furnace ( shaft furnace for short) and melting-gasifier.The testing scheme contains point distribution,testing method and testing tools.Then the furnace shell temperature and surrounding environmental conditions in the practical smelting process of the two COREX C3000 units were tested with the cooperation of the field operators.After that,the heat dissipation amount was calculated based on the tested data and the corresponding furnace area calculated through the design drawings.Eventually,the two COREX C3000 systems were compared in furnace shell temperature and heat dissipation amount.It is proved that the heat dissipation amount of the earlier-built l# COREX is much higher than the newly-built 2# COREX and much refractory must be repatched on l# COREX system.
其他文献
阀控密封胶体蓄电池在最近10年得到了快速发展,产量逐年增大,应用领域日益扩展。胶体蓄电池的优异性能不仅需要技术上的有力支持,而且需要原材料上的可靠保障,其中隔板材料的品质尤为重要。目前被广为接受用于胶体蓄电池的隔板材料主要是进口的PVC-SiO2隔板和聚酯隔板,国产隔板的性能尚无法与进口隔板相比。本论文对两种进口隔板、一种国产PE隔板及一种自制PVC-SiO2隔板的基本物理性能、应用该4种隔板装配
以VX-72R为载体,原位聚合制备出碳载聚吡咯(PPy/C)复合载体,采用浸渍法及高温热处理制备出Co-PPy/C催化剂,通过X射线衍射、透射电镜、元素分析等多种表征方法,研究了催化剂的Co/Py配比、N含量、晶型结构、形貌特征等因素对其催化氧还原活性及酸性介质中的稳定性的影响。结果表明,Co/Py=1:2催化剂在酸性介质中具有良好的氧还原活性,其氧还原初始峰电位(Ep,c)达到0.351V(vs
当锂离子电池在储能系统中采用浮充的充电方式,就会出现因为电池容量不均衡导致的部分电池过充的情况发生,本文针对这一现象进行了分析,提出了一种针对浮充保护的锂电池管理系统方案,该方案通过主动均衡的方式避免了电池在浮充过程出现过充的情况,有实际的应用价值
会议
It is well understood that the longevity of a blast furnace campaign is limited by the wear of its hearth.Carbon dissolution and erosion of carbon refractories by the flow of sub - saturated molten ir
Ironmaking blast furnace is a counter-,co-,cross-current moving bed reactor,where solid particles are charged at the furnace top forming a downward moving bed while gas are introduced at the lower par
A CFD model based on multiphase transport theories is developed to describe the behaviors of the fluid flow,heat transfer,mass transport and thermo-chemical reactions between various phases,such as ga
A state-of-the-art Computational Fluid Dynamics ( CFD) model and a user friendly software package named Blast Furnace Shaft Simulator ( BFSS) is applied to simulate the burden and gas distributions fo
COURSE50 project standing for " C02 ultimate reduction in steelmaking process by innovative technology for cool earth 50",which is one of the World Steel Association s CO2 breakdown programs,has been
Emission of carbon dioxide from steel making is a global problem,mainly caused by the usage of coal and coke in the blast furnace.Many international projects with the objective to develop breakthrough
The jet - flow of molten iron from the blast furnace has a certain initial kinetic energy and the tapping channel has a degree of slope.The innovative metallurgical reactor by using the gravitational