闪速熔炼

shǎn sù róng liàn
  • flash smelting
闪速熔炼闪速熔炼
闪速熔炼[shǎn sù róng liàn]
  1. 金川铜镍矿浮选精矿中MgO高,影响闪速熔炼。

    The MgO content is high in the float concentrate ore of Jinchuan Cu-Ni deposit , which has an influence on the flash smelting .

  2. 基于遗传算法的铜闪速熔炼过程控制优化

    Control optimization of copper flash smelting process based on genetic algorithms

  3. 金川镍闪速熔炼烟尘输送系统改造实践

    Modification of Nickel Flash Smelting Dust Conveyor System in Jinchuan Smelter

  4. 镍闪速熔炼过程的模糊动态质量模型与控制

    Fuzzy Dynamic Quality Models and Control of Nickel Flash Smelting Process

  5. 闪速熔炼中央喷射型精矿喷嘴的研究与改进

    Study and improvement of central jet concentrate burner in flash smelter

  6. 金川镍闪速熔炼炉现状及前景展望

    The Status and Foreground Prospect of Jinchuan Nickel Flash Furnace

  7. 铜闪速熔炼是现代火法炼铜的主要方法。

    Copper flash smelting is the main pyrometallurgy technique to smelt copper .

  8. 铜闪速熔炼中微量元素行为的计算机模拟

    Computer simulation on minor element behaviour in copper flash smelting

  9. 金川镍闪速熔炼过程热平衡模拟

    Simulation of Heat Balance in Jinchuan Nickel Flash Smelting Process

  10. 降低闪速熔炼渣含铜实践

    Practice in Lowering Copper Content in Flash Smelting Slag

  11. 杂矿对闪速熔炼的影响及对策

    Effect of mixed ore on flash smelting and Countermeasures

  12. 闪速熔炼的铜精矿干燥技术

    Drying Technology of Copper Concentrate for Flash Smelting Process

  13. 精矿喷嘴是闪速熔炼的核心设备。

    The concentrate burner is one of the key facilities in flash smelter .

  14. 铜闪速熔炼贫化电炉渣含铜的线性回归分析

    Linear regression analysis of copper content of slag from flash smelting slag-cleaning furnace

  15. 应用神经网络技术建立铜闪速熔炼温度模型

    Study on the Temperature Model for Copper Flash Smelting Based on Neural Network

  16. 金川镍闪速熔炼渣的物相与铜镍分布

    Microstructure and Metal Distribution in Jinchuan Nickel Smelting Slag

  17. 闪速熔炼过程的模糊建模与控制

    Fuzzy Modeling and Control for Flash Smelting Process

  18. 基于数据驱动的铜闪速熔炼过程操作模式优化及应用

    Data-driven Operational-pattern Optimization for Copper Flash Smelting Process

  19. 将该方法应用于铜闪速熔炼过程,提高了铜闪速的操作水平。

    This method is applied to copper flash smelting process to optimize its operation .

  20. 闪速熔炼气流干燥优化控制系统的设计与实现

    Design and Implementation of the Optimal Control System for Pneumatic Conveying Drying in Flash Smelting

  21. 介绍了在闪速熔炼过程中,铜在电炉渣中的损失状况。

    The loss of copper in electric furnace slag during flash smelting operation is described .

  22. 全低压制氧机下塔压力的控制与节能闪速熔炼中制氧的节能

    Control of Lower Tower Pressure of Total Low Pressure Oxygen Making Machine and Energy Saving

  23. 砷、锑、铋、铅和锌在铜闪速熔炼过程中的行为

    Behaviors of as , sb , bi , Pb and Zn in copper flash smelting process

  24. 针对冶金工业中镍闪速熔炼复杂工艺过程,提出了利用模糊理论建立镍闪速炉模型的方法。

    An approach that uses two fuzzy methods to model complicated nickel flash smelting process is presented .

  25. 模型训练结果也说明了神经网络技术应用于铜闪速熔炼过程建模的可行性和有效性。

    The training results also explains that nerual network technique is feasible and effective to the modeling for copper flash smelting process .

  26. 闪速熔炼技术是现代铜冶炼的一种先进技术,越来越受到世界炼铜行业的关注。

    Flash smelting technology is an advanced modern technology of copper smelting and paid more and more attention by copper smelting industries .

  27. 基于吉布斯最小自由能原理,建立了铜闪速熔炼过程的多相平衡数学模型。

    Multiphase equilibrium mathematical model for the copper flash smelting process is established based on the Gibbs principle of minimum free energy .

  28. 对铜闪速熔炼过程进行数值分析与优化的具体目的就是提高产量,降低烟尘率与燃料消耗。

    The purpose of the analysis and optimization is to improve the productivity , decrease the dust generation ratio and the fuel consumption .

  29. 随着铜闪速熔炼过程指标要求的提高,对铜闪速熔炼过程进行数值分析与优化就显得日趋重要。

    With the development of flash smelting , it shows more and more importance of the numerical analysis and optimization of flash furnace .

  30. 闪速熔炼过程积累了大量的实际运行数据,包含了反映操作参数与工况之间关系的信息。

    Copper flash smelting process has accumulated lots of industrial operating data . It contains much underlying information between rules of working-status and production parameters .