技术指标的不断改进对于提高电炉产能、降低成本以及环境友好来说是至关重要的。基于上述目标,奥镁公司可提供多元化的耐材和工艺解决方案。实际生产中,通过喷吹气体介质,如氧气、天然气以及固体物料如碳粉等获得化学能,这是目前技术进步的主流工艺。为了解化学能带来的相关益处,奥镁公司研发了一套质量和能量平衡模型。该模型着重研究了化学能对电能的替代效率。文中论述了能量替代对于二氧化碳排放以及对电炉成本方面的影响。降低电耗及二氧化碳排放的另一重要手段是电炉底吹技术。通过DPP(定向底吹透气系统)可实现该技术。炉内搅拌带来诸多好处,包括增加渣/钢界面积、钢水成分更加均匀等,其结果是改善了生产技术指标,如更低的电耗和更短的通电时间,同时还可以带来成本效益以及减少二氧化碳的排放。 The continuous improvement of the technical indicators is essential to improve the electric furnace capacity, reduce costs and environmental friendliness. Based on the above objectives, Austrian magnesium company can provide a wide range of refractory and process solutions. In actual production, chemical energy is obtained by blowing gaseous media such as oxygen, natural gas, and solid materials such as carbon powder, which is the current mainstream technology of technological progress. To understand the benefits associated with chemistry, Ammonium developed a set of quality and energy balance models. The model focuses on the substitution efficiency of chemical energy to electric energy. The article discusses the impact of energy substitution on carbon dioxide emissions and the cost of electric furnaces. Another important means to reduce electricity consumption and carbon dioxide emissions is electric furnace bottom blowing technology. This technology is achieved with DPP (Directional Bottom Breather System). In-furnace mixing offers many benefits, including increased slag / steel area and more uniform molten steel. The result is improved production specifications, such as lower power consumption and shorter power-on times, as well as cost Benefit and reduce carbon dioxide emissions.