双端口旋转对微波加热均匀性和互耦的影响
[1] JHA A K,JOSHI N,SINGH A. Applicability and assessment of Microwave Assisted Gravity Drainage(MWAGD) applications in Mehsana heavy oil field, India[C]// SPE International Heavy Oil
JHA A K,JOSHI N,SINGH A. Applicability and assessment of Microwave Assisted Gravity Drainage(MWAGD) applications in Mehsana heavy oil field, India[C]// SPE International Heavy Oil Conference and Exhibition 2011. Kuwait City,Kuwait: [s.n.], 2011:68-76.
JHA A K,JOSHI N,SINGH A. Applicability and assessment of Microwave Assisted Gravity Drainage(MWAGD) applications in Mehsana heavy oil field, India[C]// SPE International Heavy Oil Conference and Exhibition 2011. Kuwait City,Kuwait: [s.n.], 2011:68-76.
Conference and Exhibition 2011. Kuwait City,Kuwait: [s.n.], 2011:68-76.
[2] 刘长军,吴昕. 微波能工业应用研究进展[J]. 太赫兹科学与电子信息学报, 2012,10(4):451-455. (LIU Changjun,WU Xin. Research progress on microwave energy industrial applications[J]. Journal of Terahertz Science and Electronic Information Technology, 2012,10(4):451-455.)
刘长军,吴昕. 微波能工业应用研究进展[J]. 太赫兹科学与电子信息学报, 2012,10(4):451-455. (LIU Changjun,WU Xin. Research progress on microwave energy industrial applications[J]. Journal of Terahertz Science and Electronic Information Technology, 2012,10(4):451-455.)
刘长军,吴昕. 微波能工业应用研究进展[J]. 太赫兹科学与电子信息学报, 2012,10(4):451-455. (LIU Changjun,WU Xin. Research progress on microwave energy industrial applications[J]. Journal
of Terahertz Science and Electronic Information Technology, 2012,10(4):451-455.)
[3] VADIVAMBAL R,JAYAS D S. Non-uniform temperature distribution during microwave heating of food materials—a review[J]. Food & Bioprocess Technology, 2010,3(2):161-171.
VADIVAMBAL R,JAYAS D S. Non-uniform temperature distribution during microwave heating of food materials—a review[J]. Food & Bioprocess Technology, 2010,3(2):161-171.
VADIVAMBAL R,JAYAS D S. Non-uniform temperature distribution during microwave heating of food materials—a review[J]. Food & Bioprocess Technology, 2010,3(2):161-171.
[4] 斯丹燕. 多源微波加热中若干关键问题的分析[D]. 上海:华东师范大学, 2012. (SI Danyan. Analysis of several key problems of the microwave heating on multi-port excitation[D].
斯丹燕. 多源微波加热中若干关键问题的分析[D]. 上海:华东师范大学, 2012. (SI Danyan. Analysis of several key problems of the microwave heating on multi-port excitation[D]. Shanghai,China:East China Normal University, 2012.)
斯丹燕. 多源微波加热中若干关键问题的分析[D]. 上海:华东师范大学, 2012. (SI Danyan. Analysis of several key problems of the microwave heating on multi-port excitation[D]. Shanghai,China:East China Normal University, 2012.)
Shanghai,China:East China Normal University, 2012.)
[5] SEBERA V,NASSWETTROVA A,NIKL K. Finite element analysis of mode stirrer impact on electric field uniformity in a microwave applicator[J]. Drying Technology, 2012(30):1388–1396.
SEBERA V,NASSWETTROVA A,NIKL K. Finite element analysis of mode stirrer impact on electric field uniformity in a microwave applicator[J]. Drying Technology, 2012(30):1388–1396.
SEBERA V,NASSWETTROVA A,NIKL K. Finite element analysis of mode stirrer impact on electric field uniformity in a microwave applicator[J]. Drying Technology, 2012(30):1388–1396.
[6] 辛磊,杨晓庆. 基于优化两端口微波炉结构的加热均匀性和加热效率研究[J]. 真空电子技术, 2016(3):32-34. (XIN Lei,YANG Xiaoqing. Research on temperature uniformity and power efficiency of
辛磊,杨晓庆. 基于优化两端口微波炉结构的加热均匀性和加热效率研究[J]. 真空电子技术, 2016(3):32-34. (XIN Lei,YANG Xiaoqing. Research on temperature uniformity and power efficiency of an optimized two-port microwave oven[J]. Vacuum Electronics, 2016(3):32-34.)
辛磊,杨晓庆. 基于优化两端口微波炉结构的加热均匀性和加热效率研究[J]. 真空电子技术, 2016(3):32-34. (XIN Lei,YANG Xiaoqing. Research on temperature uniformity and power efficiency of an optimized two-port microwave oven[J]. Vacuum Electronics, 2016(3):32-34.)
an optimized two-port microwave oven[J]. Vacuum Electronics, 2016(3):32-34.)
[7] TORRES F,JECKO B. Complete FDTD analysis of microwave heating processes in frequency-dependent and temperature- dependent media[J]. IEEE Transactions on Microwave Theory & Techniques, 1997,45(1):108-117.
TORRES F,JECKO B. Complete FDTD analysis of microwave heating processes in frequency-dependent and temperature- dependent media[J]. IEEE Transactions on Microwave Theory & Techniques, 1997,45(1):108-117.
Techniques, 1997,45(1):108-117.
TORRES F,JECKO B. Complete FDTD analysis of microwave heating processes in frequency-dependent and temperature- dependent media[J]. IEEE Transactions on Microwave Theory &
heating[J]. Journal of Terahertz Science and Electronic Information Technology, 2018,16(2):302-306.)
[9] YE J,HONG T,WU Y,et al. Model stirrer based on a multi-material turntable for microwave processing materials[J]. Materials, 2017,10(2):95.
YE J,HONG T,WU Y,et al. Model stirrer based on a multi-material turntable for microwave processing materials[J]. Materials, 2017,10(2):95.
YE J,HONG T,WU Y,et al. Model stirrer based on a multi-material turntable for microwave processing materials[J]. Materials, 2017,10(2):95.
[10] 步晨. 微波炉仿真与性能提升研究[D]. 成都:电子科技大学, 2018. (BU Chen. Research on microwave oven simulation and performance improvement[D]. Chengdu,China:University of Electronic
步晨. 微波炉仿真与性能提升研究[D]. 成都:电子科技大学, 2018. (BU Chen. Research on microwave oven simulation and performance improvement[D]. Chengdu,China:University of Electronic Science and Technology of China, 2018.)
步晨. 微波炉仿真与性能提升研究[D]. 成都:电子科技大学, 2018. (BU Chen. Research on microwave oven simulation and performance improvement[D]. Chengdu,China:University of Electronic Science and Technology of China, 2018.)
Science and Technology of China, 2018.)
李伊帆, 王凤霞, 解田, 朱铧丞, 杨阳, 黄卡玛. 双端口旋转对微波加热均匀性和互耦的影响[J]. 太赫兹科学与电子信息学报, 2020, 18(2): 264. LI Yifan, WANG Fengxia, XIE Tian, ZHU Huacheng, YANG Yang, HUANG Kama. Influence of dual port rotation on microwave heating uniformity and mutual coupling[J]. Journal of terahertz science and electronic information technology, 2020, 18(2): 264.