采用空气闭环强制对流法对锰矿球团进行太阳热处理

SOLARPACES 2018: International Conference on Concentrating Solar Power and Chemical Energy Systems Pub Date : 2019-07-26 DOI:10.1063/1.5117659

L. Hockaday, F. Dinter, T. Harms, Q. Reynolds

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引用次数: 2

摘要

在高温工业过程中使用可再生能源有可能降低能源成本以及温室气体排放。目前的研究是对将集中太阳能热能整合到锰矿石烧结中的机会进行评估的一部分。本研究包括集中太阳通量直接照射锰矿球团并结合空气闭环强制对流的结果。该研究结果将对高温太阳热过程热、太阳热材料加工以及锰矿烧结生产等领域产生重要影响。在高温工业过程中使用可再生能源有可能降低能源成本以及温室气体排放。目前的研究是对将集中太阳能热能整合到锰矿石烧结中的机会进行评估的一部分。本研究包括集中太阳通量直接照射锰矿球团并结合空气闭环强制对流的结果。该研究结果将对高温太阳热过程热、太阳热材料加工以及锰矿烧结生产等领域产生重要影响。

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The solar thermal treatment of manganese ore pellets using closed-loop forced convection of air

The incorporation of renewable energy sources in high temperature industrial processes has the potential to reduce energy costs as well as greenhouse gas emissions. The current study forms part of an evaluation of the opportunities to integrate concentrating solar thermal energy into the sintering of manganese ores. The study includes the results of direct irradiation of manganese ore pellets with concentrating solar flux in combination with the closed-loop forced convection of air. The results of this study will be of interest to the fields of high temperature solar thermal process heat and solar thermal materials processing as well as manganese ore sinter production.The incorporation of renewable energy sources in high temperature industrial processes has the potential to reduce energy costs as well as greenhouse gas emissions. The current study forms part of an evaluation of the opportunities to integrate concentrating solar thermal energy into the sintering of manganese ores. The study includes the results of direct irradiation of manganese ore pellets with concentrating solar flux in combination with the closed-loop forced convection of air. The results of this study will be of interest to the fields of high temperature solar thermal process heat and solar thermal materials processing as well as manganese ore sinter production.

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SOLARPACES 2018: International Conference on Concentrating Solar Power and Chemical Energy Systems

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