1) metallurgical furnace
冶金炉
1.
Based on the physical model and mathematical model,the simulation of magnetic field in the metallurgical furnace is reviewed.
从物理模型和数学模型两方面对冶金炉的磁场模拟方法进行了论述 ,对各种磁场模拟方法进行了比较、分析 ,阐明了冶金炉的磁场模拟不仅要考虑电流产生的磁场 ,还必须考虑铁磁屏蔽的影响。
2.
It is presented that metallurgical furnaces should be improved with the advanced comprehensive energy saving technology.
提出了用集成节能技术装备冶金炉窑。
3.
Based on energy utilization,water and power consumption,safety and cost of operation,the evaporation cooling method and close cycle water cooling method for metallurgical furnace cooling are analyzed and compared,and evaporation cooling method is recommended.
分析了冶金炉炉体汽化冷却与密闭循环水冷却两种方式的技术特点,从能量利用、水量消耗、电功消耗、安全经济运行等方面,对二者进行了比较,推荐采用汽化玲却方式。
2) metallurgical vessel
冶金炉
1.
VAI, in cooperation with the Institute of Experimental Physics of the Johannes Kepler University in Linz, Austria, has developed a new system which enables the continuous analysis of the chemical composition of steel baths in all metallurgical vessels.
奥钢联同约翰尼斯开普勒大学实验物理研究所联合开发了一种可以连续分析各种冶金炉中钢水化学成分的新型系统并命名为 VAI- CON○RChem,已在真空脱气设备上成功进行了工业试验。
2.
VAI has successfully developed and implemented a new continuous temperature monitoring system for metallurgical vessels which is marketed under the trade name of VAI CON Temp.
奥钢联成功开发出用于冶金炉连续测温的 VAI- CON Tem p系统 ,并在工业生产条件下的 KMS、AOD和 L D转炉以及真空脱气设备上进行了充分测试 ,证明为改进炼钢工艺控制提供了巨大潜力。
3) smelting furnace
冶金炉
1.
Fast-hot patching for smelting furnace is a robot which can fast patch the convertor and flash furnace of copper-smelting to the partial areas from outer surface to inner wall.
冶金炉快速热修机器人是一种对转炉、闪速炉等进行炉外局部快速热修补作业的机器人,在不停炉的情况下,由机器人代替人完成切割外壳钢板、拆卸已蚀损的耐火衬、预制堵补耐火衬模块以及炉外壳钢板复原焊接工作,实现快速热修补。
2.
Fast-hot patching for copper smelting furnace is a robot which can fast patch the convector and flash furnace of copper-smelting to the partial areas from outer surface to inner wall.
铜冶金炉快速热修机器人是一种对炼钢转炉、铜闪烁炉等进行炉外局部快速热修补作业的机器人,在不停炉的情况下,由机器人代替人完成切割外壳钢板、拆卸已蚀损的耐火砖衬、预制堵补耐火砖模块以及炉外壳钢板复原焊接工作,实现快速热修补。
4) metallurgical blast-furnace
冶金高炉
1.
The paper analyzed the properties of automatic welding technology and equipment for large metallurgical blast-furnace and hot-wind furnace body.
通过对大型冶金高炉、热风炉炉体自动化焊接技术及设备的研究,分析了高炉、热风炉炉体自动化焊接施工的特性,自主开发研制了大型高炉、热风炉炉体立缝高效气电立焊机和横环缝埋弧自动焊接操作机。
5) metallurgical slag
冶金炉渣
1.
Two methods for preparing metallurgical slag glass-ceramics are introduced.
综述了利用冶金炉渣制备微晶玻璃的方法;介绍了更为简便的粉末成型直接烧结法的最新进展;综述了基础玻璃的组成、热处理制度对炉渣微晶玻璃性能的影响;展望了炉渣微晶玻璃的发展前景。
6) metallurgy furnace
冶金炉窑
1.
Presented is an orthogonal experiment for optimization study on the composition of compound binder and main briquetting technics parameters of briquette used for metallurgy furnace.
以湖南金竹山无烟煤为原料,采用正交实验法对冶金炉窑用型煤复合黏结剂各组分的配比及型煤成型的主要工艺参数进行了实验研究。
2.
The metallurgy furnace is the energy consumes the big household,also is one of environmental pollution main origins,therefore the dry kiln design must carry on the various optimization from the technical innovation angle to realize the low consumption,the low pollution,the high production leaves the energy conservation environmental protection modern dry kiln.
冶金炉窑是能源消耗大户,又是环境污染的主要来源之一,因此炉窑的设计必须从科技创新的角度来进行多方面的优化以实现低消耗、低污染、高产出节能环保型的现代炉窑。
补充资料:冶金炉
| 冶金炉 furnaces in metallurgical industry 冶金生产过程中对各种物料或工件进行热工处理的工业炉。热工处理是以物料或工件的升温为重要特征的处理过程,例如焙烧、熔炼、加热、热处理、干燥等。钢铁冶金和有色冶金的大部分生产环节都离不开炉子。现代冶金工业用炉,按热源可分为燃料炉、电炉、自热炉三大类。此外,以太阳能、原子能为热源的冶金炉正处于研制阶段。燃料炉是燃料的燃烧热为热源,冶金工业中使用最为广泛。由于炉内的热工特征不同,燃料炉又可分为火焰炉、竖炉、流态化炉和浴炉。电炉是以电为热源,根据热源转换方法又分为电阻炉、感应炉和电弧炉3种 。自热炉是靠炉料自身产生的热量维持炉子的正常工作,除炉料的预热或预熔化外,炉内不需要或基本不需要外加热量。如炼钢转炉,铜、镍吹炼转炉和铝热法冶炼炉。冶金炉的生产设备一般由炉子热工工艺系统、装出料系统和热工检测控制系统3部分组成 。对冶金炉的基本要求为:能满足产品的质量和产量要求;燃料和其他能源的消耗低;建炉投资和运行费用低;耐用,劳动条件好,污染物的排放量符合环境保护要求。 |
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