Dielectric Properties and Microwave Heating of Molybdenite Concentrate at 2.45 GHz Frequency

被引:0
作者
Yonglin Jiang [1 ,2 ,3 ]
Bingguo Liu [1 ,2 ,3 ]
Jinhui Peng [1 ,2 ,3 ]
Libo Zhang [1 ,2 ,3 ]
机构
[1] National Local Joint Engineering Laboratory of Engineering Applications of Microwave Energy and Equipment Technology
[2] Key Laboratory of Unconventional Metallurgy,Ministry of Education,Kunming University of Science and Technology
[3] Faculty of Metallurgical and Energy Engineering,Kunming University of Science and Technology
来源
Journal of Beijing Institute of Technology | 2018年 / 27卷 / 01期
关键词
dielectric properties; temperature; molybdenite concentrate; microwave; MOO3;
D O I
10.15918/j.jbit1004-0579.201827.0111
中图分类号
TQ136.12 [];
学科分类号
0817 ;
摘要
Dielectric properties were measured using cavity perturbation method. The temperature rising behaviors of molybdenite concentrate were investigated in the field of microwave. This process was conducted to show the microwave absorption properties of molybdenite concentrate and the feasibility of microwave roasting molybdenite concentrate to prepare high purity MOO3. The dielectric constant,dielectric loss,and loss tangent increase from 3. 51 to 5. 04,0. 22 to 0. 51 and 0. 065 to 0. 102 respectively. They are proportional to the apparent density of molybdenite concentrate in the range of 0. 9-1. 4 g/cm3. The results show that the molybdenite concentrate has good microwave absorption capacity in the conventional density range. The temperature rising curves show that the apparent heating rate of the molybdenite concentrate increases with the increase in microwave power and decreases with the increase in the sample mass and thickness. The temperature of concentrate sample of 100 g reaches approximately 800 ℃ after 5 min of microwave treatment at 0. 5 kW of power. Our findings show that it is feasible to prepare high-purity MOO3 from molybdenite concentrate by microwave roasting.
引用
收藏
页码:83 / 91
页数:9
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共 18 条
[1]   烟化炉产氧化锌烟尘的介电特性及温升特性(英文) [J].
张利波 ;
马爱元 ;
刘晨辉 ;
曲雯雯 ;
彭金辉 ;
罗永光 ;
左勇刚 .
Transactions of Nonferrous Metals Society of China, 2014, 24 (12) :4004-4011
[2]   Analysis and Numerical Modeling of a 20 W Microwave Electrothermal Thruster [J].
高恩宇 ;
Sven GBiln ;
杨树兴 .
Journal of Beijing Institute of Technology, 2010, 19 (03) :324-330
[3]  
Synthesis of α-MoO 3 nanoplates using organic aliphatic acids and investigation of sunlight enhanced photodegradation of organic dyes[J] . V. Vinod Kumar,K. Gayathri,Savarimuthu Philip Anthony.Materials Research Bulletin . 2016
[4]  
Discussion on magnetic-induced polarization Ampere’s force by in situ observing the special particle growth of alumina during microwave sintering[J] . Feng Xu,Bo Dong,Xiaofang Hu,Yang Wang,Wenchao Liu,Yongcun Li.Ceramics International . 2016
[5]  
Temperature and moisture dependent dielectric properties of egg white powder[J] . Sreenivasula Reddy Boreddy,Jeyamkondan Subbiah.Journal of Food Engineering . 2016
[6]  
Microwave-assisted preparation of Nano-hydroxyapatite for bone substitutes[J] . Mohamad Nageeb Hassan,Morsi Mohamed Mahmoud,Ahmed Abd El-Fattah,Sherif Kandil.Ceramics International . 2015
[7]  
Selective hydrogen sulfide (H 2 S) sensors based on molybdenum trioxide (MoO 3 ) nanoparticle decorated reduced graphene oxide[J] . M. MalekAlaie,M. Jahangiri,A.M. Rashidi,A. HaghighiAsl,N. Izadi.Materials Science in Semiconductor Processing . 2015
[8]  
Highly selective and recyclable MoO 3 nanoparticles in epoxidation catalysis[J] . Cristina I. Fernandes,Silvia C. Capelli,Pedro D. Vaz,Carla D. Nunes.Applied Catalysis A, General . 2015
[9]  
Effect of temperature on dielectric properties and penetration depth of oil palm shell (OPS) and OPS char synthesized by microwave pyrolysis of OPS[J] . Manoj Tripathi,J.N. Sahu,P. Ganesan,T.K. Dey.Fuel . 2015
[10]  
Giant dielectric permittivity and electronic structure in (Al<ce:hsp sp="0.25"/>+<ce:hsp sp="0.25"/>Sb)co-doped TiO 2 ceramics[J] . Wattana Tuichai,Pornjuk Srepusharawoot,Ekaphan Swatsitang,Supamas Danwittayakul,Prasit Thongbai.Microelectronic Engineering . 2015
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