Evaluation on drying performance of typical technical solid waste during microwave-combined hot air

Zhang H. S.; Chen M. Q.; Wei S. H.; Zhong X. B.

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Evaluation on drying performance of typical technical solid waste during microwave-combined hot air

机译：微波炉综合热空气中典型技术固体废物干燥性能的评价

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The drying performance of typical solid wastes (cotton fabrics and plastic debris) in nuclear power plants was evaluated in a bench-scale microwave-combined hot air setup (air temperatures: 90-130 degrees C; microwave power: 200-800 W). The required time of plastic debris in continuous microwave-combined hot-air drying reduced by about 67% and 68% compared to hot-air and microwave drying, respectively, and that decreased by about 80% and 63% for cotton fabrics. In microwave drying or continuous combined drying, better microwave heating uniformity existed in plastic debris. The temperature distribution uniformity in cotton fabrics was improved by the combined drying.

机译：在核电厂中典型固体废物（棉织物和塑料碎片）的干燥性能在核电厂组合的热空气设置（空气温度：90-130℃;微波功率：200-800 W）中。与热空气和微波干燥相比，连续微波炉混合热风干燥中所需的塑料碎片的时间减少约67％和68％，棉织物降低约80％和63％。在微波干燥或连续组合干燥中，塑料碎片中存在更好的微波加热均匀性。通过组合干燥改善了棉织物的温度分布均匀性。

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来源
《Experimental Heat Transfer》 |2021年第4期|121-139|共19页
作者
Zhang H. S.; Chen M. Q.; Wei S. H.; Zhong X. B.;
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作者单位

Beijing Jiaotong Univ Inst Thermal Engn Sch Mech Elect & Control Engn Beijing 100044 Peoples R China|Beijing Key Lab Flow & Heat Transfer Phase Change Beijing Peoples R China;

Beijing Jiaotong Univ Inst Thermal Engn Sch Mech Elect & Control Engn Beijing 100044 Peoples R China|Beijing Key Lab Flow & Heat Transfer Phase Change Beijing Peoples R China;

CGN Grp Radioact Waste Proc & Disposal R&D Ctr Shenzhen Peoples R China|China Nucl Power Design Co Ltd Shenzhen Peoples R China;

CGN Grp Radioact Waste Proc & Disposal R&D Ctr Shenzhen Peoples R China|China Nucl Power Design Co Ltd Shenzhen Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Solid waste; microwave; hot air; thin layer drying; heating uniformity;

机译：固体废物;微波炉;热空气;薄层干燥;加热均匀性;

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Evaluation on drying performance of typical technical solid waste during microwave-combined hot air

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