The Effect of Temperature on Dielectric Permitivity and Microwave Absorption Properties of Anthracite in Microwave Field

"The rising popularity of microwave heating in mineral processing has fuelled the need for knowledge concerning dielectric properties of minerals. Dielectric property and microwave absorption property of anthracite were measured over a temperature range of 20-100°C at 2.45GHz by using an open-ended coaxial sensor measurement system. The results show that the dielectric constant, loss factor and loss tangent increase with temperature rising at 2.45GHz. Microwave absorption properties of anthracite are highly dependent on temperature and frequency. At frequency of 2.45GHz frequency used in microwave metallurgy, anthracite is suitable for reducing agent to achieve fast elevation of temperature then returning to original state. The research will be helpful in explaining the thermal running of microwave dielectric heating the anthracite.IntroductionThe application of microwave heating in minerals processing and treatment has recently attracted great interest from the metallurgical industry. Compared with conventional heating methods, the advantages of microwave heating include rapid and selective heating, uniform distribution, high efficiency, fast on and off switching as well as flexible and modular design[l-3]. As a result of these advantages, microwave heating has been applied in a variety of mineral processing and extractive metallurgy, such as microwave-assisted ore grinding, microwave heating for carbothermic reduction and acid leaching of ilmenite ore, microwave drying, microwave-assisted roasting and smelting of sulfide concentrate, microwave-assisted spent carbon regeneration and microwave-assisted waste management [ 4-6]. Though the application of microwave heating in the metallurgical industry is promising, further studies on the interaction between microwave radiation and minerals and its effects are highly desired to develop innovative techniques for minerals processing and ore treatment using microwave heating [7]."