锰铁合金生产的聚光太阳能热过程热:工厂建模和热能储存调度优化

T. Mckechnie, C. McGregor, G. Venter
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引用次数: 3

摘要

研究了在电弧炉熔炼前对锰矿石进行太阳能预热的经济效益。锰矿经冶炼可生产锰铁合金,锰铁合金是钢铁生产的关键部件。熔炼过程是高度能源密集型的,温度高达1600°C。本文讨论了确定聚光太阳能热(CST)装置的配置以产生高温过程热的开发方法。CST工厂的规模是在矿石进入冶炼厂之前将其预热到600°C -目前矿石是在环境温度下进入的。预热通过提供更低成本的热量和减少过程中的碳排放,从而带来经济和环境效益。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Concentrating Solar Thermal Process Heat for Manganese Ferroalloy Production: Plant Modelling and Thermal Energy Storage Dispatch Optimization
This paper investigates the economic benefit of incorporating solar-based preheating of Manganese ore before smelting in electric submerged arc furnaces. Manganese ore is smelted to produce Manganese ferroalloy, a key component in steel production. The smelting process is highly energy intensive, with temperatures up to 1600 °C. The paper discusses the developed methodology for determining the configuration of a concentrating solar thermal (CST) plant to produce high temperature process heat. The CST plant is sized to preheat the ore to 600 °C before it enters the smelter — currently ore enters at ambient temperature. The preheating leads to economic and environmental benefits by offering lower cost heat and reducing carbon emissions for the process.
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