BF gas is a valuable energy source for all steel plants.
高炉煤气是钢铁企业的宝贵能源。
According to flushing furnace, stabilized BF Gas flow, phenomena of tuyeres damaged were removed.
通过洗炉、稳定煤气流措施使风口频繁烧损现象消除。
The process of dealing with the BF gas slime adopting roasting reduction method with Rotary Hearth Furnace was studied.
研究了采用转底炉工艺还原焙烧处理高炉瓦斯泥制备金属化球团。
The process of dealing with the BF gas slime adopting roasting reduction method with Rotary Hearth Furnace was studied.
高炉瓦斯泥中含有大量的铁,如能回收则是很好的炼铁原料。
The important alternative way to increase heating capacity is to use single BF gas as main fuel and at same time adopt other auxiliary combustion systems.
同时,以单一高炉煤气为主燃料,辅以其它燃烧系统,是提高加热能力的重要途径。
The amount of zinc emitted from blast furnace with gas ash was 96.14% (in mass). Therefore BF gas ash isn′t appropriate to be recovered as the sintering materials.
支出项中,由瓦斯灰带走的锌量最多,占总支出量的96.14%,应严格控制各级除尘灰进入烧结系统。
The reason of pressure fluctuation for BF gas system is analysed, the related measure on how to avoid the fluctuation, reduce the diffusion and meet the users demand is put forward.
对天津天铁冶金集团有限公司高炉煤气系统压力波动的原因进行了分析,并对如何避免系统波动,降低放散量,满足生产用户需要提出了相应的措施。
By analyzing and researching utilization of BF dust, a technology of dealing with the BF gas slime adopting the containing carbon pellet direct roasting reduction method was put forward.
通过对攀钢高炉粉尘利用的分析研究,提出了采用含碳球团直接还原焙烧法处理高炉瓦斯泥的工艺。
BF project contains five parts: soft water preparation system, the closed loop soft water system, the clean circulation water system, throat water sprinkler system, BF gas cleaning system.
高炉水处理系统中包括软水制备系统、密闭循环系统、净环水系统、炉喉洒水系统、煤气洗涤系统五个部分。
The way to transform boiler into burning BF gas one is put forward in this paper, which solves how to keep the boilers in normal operation by supplying BF gas directly to boilers without gas holder.
阐述了锅炉改烧高炉煤气的做法。解决了没有煤气柜,高炉煤气直供锅炉如何保证正常运行的问题。
GC1000 chromatographic analysis instrument is used to analyze gas composition of BF.
大高炉使用GC 1000色谱仪分析高炉煤气成分。
A simple technology, mixing converter slurry with hot gas dust of BF, has been adopted, to produce even-grained granulas with proper quantity of water.
鞍钢为了回收利用转炉尘泥,采用简单的加工工艺,将热瓦斯灰加入到转炉尘泥中搅拌混合,生产出粒度均匀、水分适宜的松散粒状加工物料。
Through calculating the balance of material and heat, the theoretical temperature of combustion of blowing tuyere in the co- injection of natural gas with pure oxygen BF process was stud-ied.
通过对物料、热量平衡的计算得出全氧高炉喷吹高氢燃气工艺风口理论燃烧温度。
Function of the system for measuring difference in cooling water temperature and analysis of the heat work system of BF, the distributing of gas flow and the leak of cooling wall were introduced.
重点介绍了水温差在线检测系统的功能以及利用其分析高炉热制度、判断煤气流分布和检查冷却壁漏水的情况。
Doing well in recovery and economy work as well as the dynamic balance measurement of gas become the presupposition for fully utilizing BF-gas.
指出应从回收与节约挖潜两方面做好工作,做好煤气动态平衡测算是充分利用的前提。
Aiming at SO2 gas pollution from BF-BOF process, an analytic model of sulphur flow was established based on the theory of industrial metabolism and the method of material flow analysis.
针对高炉-转炉流程生产过程产生的SO2烟气造成环境污染的问题,以工业代谢理论为基础,应用物质流分析方法,建立了工序的硫素流分析模型。
The gas flow control by charging small size coke at periphery and bulk coke at center in the BF is analyzed.
分析了高炉边缘环布碎焦和中心加焦对气流分布的控制作用。
Making full use of and recovering BF-gas are important means for saving energy, reducing consumption and product cost, increasing economical profits.
充分回收利用高炉煤气,是节能降耗,降低生产成本,提高经济效益的重要途径。
Aiming at SO2 gas pollution from BF-BOF process, an analytic model of sulphur flow was established based on the theory of industrial metabolism and method of material flow analysis.
针对高炉-转炉流程生产过程产生的SO2烟气造成环境污染的问题,以工业代谢理论为基础,应用物质流分析方法,建立了工序的硫素流分析模型。
Aiming at SO2 gas pollution from BF-BOF process, an analytic model of sulphur flow was established based on the theory of industrial metabolism and method of material flow analysis.
针对高炉-转炉流程生产过程产生的SO2烟气造成环境污染的问题,以工业代谢理论为基础,应用物质流分析方法,建立了工序的硫素流分析模型。
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