NOx Prediction of Supersonic Coherent Jets for Electric Arc Steelmaking Furnace

Gopal Pandey, Geoffrey Brooks, Jamal Naser, Daniel Liang
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Abstract

Supersonic coherent jets are widely in practice in steelmaking processes including electric arc furnaces (EAF). Injecting oxygen through such coherent jets plays a vital role in enhancing the liquid gas mixing and reaction rates leading to boosting energy efficiency. Several experiments and numerical simulations have been carried out to understand the physical phenomenon of the coherent jets and to predict the behavior of the jets. However, the research on pollutant formation in the coherent jets for steelmaking is limited. As the industry transitions toward reducing emissions, prediction of pollutant formation is crucial. This numerical study analyzes both methane shrouding coherent jets and hydrogen shrouding coherent jets and predicts the NOx (oxides of nitrogen) formation. It has been found that NO concentration dominates over N2O and NO2 and has the highest concentration around the jet. Although the NO concentration reaches as high as 1070 ppm at high-temperature region around the jet, it remains below 225 ppm along the fuel inlet axis. Also, it has found that the NOx concentrations increase along the radial direction up to \(1.5{\text{De}}\) from the jet central line and gradually decreases, whereas the NO concentration peaks at \(15{\text{D}}_{{\text{e}}}\) along the jet axis in the downstream direction.

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电弧炼钢炉超音速相干射流的氮氧化物预测
超音速相干射流广泛应用于包括电弧炉(EAF)在内的炼钢工艺中。通过这种相干射流喷射氧气对提高液气混合和反应速率从而提高能效起着至关重要的作用。为了了解相干射流的物理现象并预测射流的行为,已经进行了多次实验和数值模拟。然而,对炼钢相干射流中污染物形成的研究还很有限。随着行业向减排方向转型,预测污染物的形成至关重要。本数值研究分析了甲烷包裹相干射流和氢气包裹相干射流,并预测了氮氧化物(氮氧化物)的形成。研究发现,氮氧化物的浓度高于一氧化二氮和二氧化氮,并且在喷流周围的浓度最高。虽然在喷流周围的高温区域,氮氧化物浓度高达 1070 ppm,但沿着燃料入口轴线,其浓度仍低于 225 ppm。此外,研究还发现,氮氧化物的浓度沿径向增加,从喷气中心线一直到 \(1.5{\text{De}}\),然后逐渐降低,而氮氧化物的浓度在沿喷气轴线下游方向的 \(15{\text{D}}_{{\text{e}}}\)处达到峰值。
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