微波改造云南褐煤:介电特性、干燥模式及动力学

IF 0.9 4区工程技术 Q4 ENGINEERING, CHEMICAL

Journal of Microwave Power and Electromagnetic Energy Pub Date : 2021-08-31 DOI:10.1080/08327823.2021.1952834

Lei Guo, Chenhui Liu, C. Srinivasakannan, Gao Jiyun

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引用次数: 0

摘要

摘要本研究旨在研究云南褐煤的介电特性和微波干燥特性，从而对云南褐煤进行升级改造。采用谐振腔法测量了干燥温度、含水率和微波加热频率对介电性能的影响。结果表明，在研究温度下，ε′和ε″的值均呈现两个阶段。大量的水是导致ε′和ε″增大的主要因素。研究了褐煤微波干燥动力学。Page模型是最能反映干燥动力学的模型，得到了不同干燥阶段的有效扩散系数和有效能。此外，通过对褐煤介电特性和干燥特性的研究，提出了褐煤微波干燥机理。SEM图像表明，微波抽运效应在褐煤颗粒内部形成了微通道。红外光谱分析表明，微波干燥使含氧官能团及其间的氢键断裂。根据已有的结果，150℃的微波处理有助于褐煤的升级。

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Microwave upgradation of Yunnan lignite: dielectric properties, drying pattern and kinetics

Abstract The work attempts to investigate the dielectric properties and microwave drying characteristics of Yunnan lignite, so as to upgrade it. The effect of drying temperature, moisture content and microwave heating frequency on dielectric properties was measured using resonant cavity method. Results indicate that both the values of ε′ and ε″ presented two stage at the investigated temperatures. Bulk water was found to be the main factor contributing to an increase in the ε′ and ε″. Microwave drying kinetics of lignite were carried out. The Page model was the best model reflecting the drying kinetics, and the effective diffusion coefficient and active energy at different drying stages were obtained. In addition, the microwave drying mechanism has been proposed based on the study of dielectric and drying properties of lignite. The SEM images indicated that microchannels were formed within the lignite particle by the microwave pumping effect. FT-IR spectra showed that the oxygen-containing functional groups and hydrogen bonds between them were break by microwave drying. Based on the achieved results, the microwave treatment at 150 °C is helpful to upgrade the lignite.

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来源期刊

Journal of Microwave Power and Electromagnetic Energy ENGINEERING, CHEMICAL-ENGINEERING, ELECTRICAL & ELECTRONIC

CiteScore

2.50

自引率

6.70%

发文量

期刊介绍： The Journal of the Microwave Power Energy (JMPEE) is a quarterly publication of the International Microwave Power Institute (IMPI), aimed to be one of the primary sources of the most reliable information in the arts and sciences of microwave and RF technology. JMPEE provides space to engineers and researchers for presenting papers about non-communication applications of microwave and RF, mostly industrial, scientific, medical and instrumentation. Topics include, but are not limited to: applications in materials science and nanotechnology, characterization of biological tissues, food industry applications, green chemistry, health and therapeutic applications, microwave chemistry, microwave processing of materials, soil remediation, and waste processing.