开发了铜锍吹炼过程操作参数优化决策系统。
An optimization decision system for operational parameters in the process of matter converting is developed.
将该模型应用于铜锍吹炼过程所需的氧气量进行预报。
This model is applied to predict oxygen volume of copper smelt converting.
转炉炼钢在吹炼过程中,产生的CO气体具有很高的回收利用价值。
The converter makes steel in blew process, the output of co has the very high recovery use value.
吹炼过程平稳,脱碳与脱磷同时进行,石灰用量少,金属收得率较顶吹转炉高。
The blowing is smooth and steady, decarbonization and dephosphorization take place simultaneously, the lime consumption is low and the metal yield is higher than that of the top blowing.
转炉炼钢过程中,炉渣氧化性直接影响吹炼过程中的化渣速度、炉渣粘度、喷溅情况等。
During the process of converter steelmaking, the oxidbillity of slag had an direct influence on the speed of melting slag, the viscosity of slag and the extent of sputter.
中小型转炉内生铁块的加入量不应超过10 %,使转炉吹炼过程中保持正常的熔池升温和成渣状况。
In order to keep the normal bath temperature and slag forming condition, the charge of pig iron should not be exceeded 10 % on middle and small converter.
为了了解大型转炉吹炼过程中熔池温度的变化规律,利用副枪在转炉吹炼过程中进行了测温和取样分析。
To comprehend the change law of bath temperature in blowing of large converter the sublance is used for measuring the temperature and sampling analysis.
熔池温度是碳含量及炉气中CO和CO2分压的函数,其中吹炼过程的平稳性是模型最终预测结果准确获得的保证。
The accuracy of the prediction is determined by the reliability of initial carbon content. The bath temperature is a function of the carbon content and the CO, CO2 partial pressure.
仿真分析表明,该系统可平稳操作氧枪,抑制喷溅及返干效果较好,为转炉吹炼过程氧枪控制提供了一个有效的方法。
Simulation shows that the system can stably control lance and prevent from splash and drying, so it is an effective method to control lance in blowing process.
简要介绍了转炉炼钢从上料开始到装炉料、吹炼、造渣、出钢、出渣的工艺过程;
The process is briefly presented form loading material, charging furnace, converting, slagging to tapping of steel and slag.
转炉炼钢过程控制的核心是吹炼终点控制模型,该模型又由三个子模型组成。
The kernel of the converter blowing procedure control is the blowing endpoint control model which is made up of three submodels.
在深入分析转炉吹炼工艺过程的基础上,确定影响转炉吹炼的主要因素。
The principal factors that influence the endpoint time are acquired by analyzing the process of converting.
本文以转炉吹炼工业生产过程为背景,着重研究转炉吹炼终点预报模型的建立和应用。
On the background of production process of matte converting, the endpoint predictive model is established and applied.
本文以转炉吹炼工业生产过程为背景,着重研究转炉吹炼终点预报模型的建立和应用。
On the background of production process of matte converting, the endpoint predictive model is established and applied.
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