1) converter re-vanadium
转炉提钒
1.
To shorten computing time,the paper designs a parallel algorithm to compute the kernel function matrix of RBF NN and applies it to the prediction of converter re-vanadium modeling.
为了缩短计算时间,设计了并行算法用于计算径向基网络核函数矩阵,并将它用于转炉提钒预测模型,在以MPI构建的工作站机群上执行该算法,利用实际数据验证了该算法的加速性和准确性。
2) V recovered converter
提钒转炉
1.
Design of high power bottom blowing component and application of it to V recovered converter were introduced in the paper.
介绍了大供气强度底吹元件的设计及在提钒转炉上的应用情况 ,对顶底复吹转炉提钒效果和不同底吹供气强度对半钢余钒的影响进行了分析 ,提出采用较大的供气强度有利于加强对熔池的搅拌 ,优化提钒工艺。
3) vanadium recovery top blowing converter
顶吹提钒转炉
1.
with progress of production practice,the vanadium recovery top blowing converter lin- ing maintenance measure is described from technology and production management.
结合生产实践,从工艺和生产管理角度介绍了氧气顶吹提钒转炉炉衬维护的措施。
5) vanadium slag produced in converter
转炉钒渣
1.
The physicochemical analysis was conducted of the vanadium slag produced in converter.
对转炉钒渣进行了物理化学分析,并根据转炉钒渣和多膛炉的特点,在实验室进行了系统的实验。
6) vanadium-bearing converter slag
含钒转炉渣
1.
In comprehensive utilization of vanadium and titanium resources at Pansteel,the massive vanadium-bearing converter slag and wast titanium dioxide acid are produced.
攀钢在钒钛资源综合利用过程中产生了大量的含钒转炉渣和钛白废酸固、液废弃物,通过实施"以废治废"的新型利用理念,在常温下,液固比为5∶1进行配比,浸泡1 h后钒浸出率达到71。
补充资料:在120t转炉内进行铁水提钒处理(攀钢).
在120t转炉内进行铁水提钒处理(攀钢).
在120t转炉内进行铁水提钒处理(攀钢)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条