回转窑焙烧预处理中热化学模拟因素对钒的有效回收

Resources Recycling Pub Date : 2022-04-30 DOI:10.7844/kirr.2022.31.2.33

Sang-hun Lee, K. Chung

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引用次数: 0

摘要

在这项研究中，分析热化学建模的因素，有助于维持钒焙烧作为预处理使用回转窑特定的温度范围进行了研究。与模型相关的机制包括热化学反应速率、热平衡和传热，通过这些机制可以直观地估计合成温度。最终，通过优化这些参数，窑内长期运行的理想焙烧温度为≈1000°C(≈1273 K)。因此，对碳氢化合物(天然气)燃料燃烧和矿石氧化反应产生的热量以及传递给矿石的辐射热进行了评估。此外，还提出了缓解回转窑温度梯度的热化学方法，以保持回转窑的最佳温度范围。

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Thermochemical Modeling Factors in Roasting Pre-treatment using a Rotary Kiln for Efficient Vanadium Recovery

In this study, analytical thermochemical modeling factors that contribute to maintaining a specific temperature range during vanadium roasting as a pretreatment using a rotary kiln are investigated. The model-related mechanisms include thermochemical reaction rates, heat balance, and heat transfer, through which the resultant temperature can be estimated intuitively. Ultimately, by optimizing these parameters, the ideal roasting temperature in the kiln is ≈1000 °C (or ≈1273 K) for long-term operation. Therefore, the heat generated from hydrocarbon (natural gas) fuel combustion and ore oxidation reactions, as well as the radiant heat transferred to ores, are assessed. In addition, thermochemical methods for relieving the temperature gradient in order to maintain the optimum temperature range of the rotary kiln are suggested.

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Resources Recycling

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