References
- Bows JR. 1999. Variable frequency microwave heating of food. J Microw Power Electromagn Energy. 34:227–238.
- Bradshaw SM, Delport S, Van Wyk EJ. 1997. Qualitative measurement of heating uniformity in a multimode microwave cavity. J Microw Power Electromagn Energy. 32(2):87–95.
- Campañone LA, Bava JA, Mascheroni RH. 2014. Modeling and process simulation of controlled microwave heating of foods by using of the resonance phenomenon. Appl Therm Eng. 73(1):914–923.
- Collin RE. 2001. Foundations for microwave engineering. 2nd ed. Washington (DC): McGraw-Hill.
- Cruz E, Hoff BW, Pengvanich P, Lau YY, Gligenbach RM, Luginsland J. 2009. Experiments on peer-to-peer locking of magnetrons. Appl Phys Lett. 95:191503.
- Cuccurullo G, Giordano L, Metallo A, Cinquanta L. 2017. Influence of mode stirrer and air renewal on controlled microwave drying of sliced zucchini. Biosyst Eng. 158:95–101.
- Datta AK. 2007. Porous media approaches to studying simultaneous heat and mass transfer in food processes. II: property data and representative results. J Food Eng. 80:96–110.
- Ergan BT. 2020. Selection and modeling of simultaneous cooled microwave system for polycondensation of L-lactic acid. J Microw Power Electromagn Energy. 54(1):63–80.
- Fujii S, Maitani MM, Suzuki E, Fukui M, Chonan S, Wada Y. 2016. Injection-locked magnetron using a cross-domain analyzer. IEEE Microw Wirel Compon Lett. 26(11):966–968.
- Genc N, Durna E. 2019. Simultaneous optimization of treatment efficiency and operating cost in leachate concentrate degradation by thermal-activated persulfate catalysed with Ag (I): comparison of microwave and conventional heating. J Microw Power Electromagn Energy. 53(3):155–170.
- Kashyap SC, Wyslouzil W. 1977. Methods for improving heating uniformity of microwave ovens. J Microw Power Electromagn Energy. 12:224–230.
- Kurniawan H, Alapati S, Che WS. 2015. Effect of mode stirrers in a multimode microwave-heating applicator with the conveyor belt. Int J Precis Eng Manuf-Green Technol. 2:31–36.
- Lu Y, Shen L, Wang J, Shen Y. 2017. The design of miniaturized broadband power divider utilizing GaAs-based IPD process and equivalent circuit model. J Semicond. 38(8):85004.
- Luan D, Tang J, Pedrow PD, Liu F, Tang Z. 2016. Analysis of electric field distribution within a microwave assisted thermal sterilization (MATS) system by computer simulation. J Food Eng. 188:87–97.
- Luan P. 2009. Power loss and electromagnetic energy density in a dispersive metamaterial medium. Phys Rev E. 80:046601.
- Ma WQ, Hong T, Xie T, Wang F, Luo B, Zhou J, Yang Y, Zhu H, Huang K. 2018. Simulation and analysis of oleic acid pretreatment for microwave-assisted biodiesel production. Processes. 6(9):142–158.
- Nikitenko NI. 2000. Problems of the radiation theory of heat and mass transfer in solid and liquid media. J Eng Phys Thermophys. 73(4):840–848.
- Papasidero D, Pierucci S, Manenti F. 2016. Energy optimization of bread baking process undergoing quality constraints. Energy. 116:1417–1422.
- Pengvanich P, Lau YY, Luginsland JW, Gligenbach RM, Cruz E, Schamiloglu E. 2008. Effects of frequency chirp on magnetron injection locking. Phys Plasmas. 15(7):969.
- Plazagonzalez P, Monzocabrera J, Catalacivera JM, Sanchezhernandez D. 2004. New approach for the prediction of the electric field distribution in multimode microwave-heating applicators with mode stirrers. IEEE Trans Magn. 40:1672–1678.
- Plazagonzalez P, Monzocabrera J, Catalacivera JM, Sanchezhernandez D. 2005. Effect of mode-stirrer configurations on dielectric heating performance in multimode microwave applicators. IEEE Trans Microw Theory Tech. 53:1699–1706.
- Song C, Wang Y, Wang S, Cui Z, Xu Y, Zhu H. 2016. Non-uniformity investigation in a combined thermal and microwave drying of silica gel. Appl Therm Eng. 98:872–879.
- Tang Z, Hong T, Liao Y, Chen F, Ye J, Zhu H, Huang K. 2017. Frequency-selected method to improve microwave heating performance. Appl Therm Eng. 131:642–648.
- Tian Y, Zuo W, Ren Z, Chen D. 2011. Estimation of a novel method to produce bio-oil from sewage sludge by microwave pyrolysis with the consideration of efficiency and safety. Bioresour Technol. 102(2):2053–2061.
- Tortajada ED, Gonzalez PP, Morcillo AB, Balbastre JV. 2007. Optimisation of electric field uniformity in microwave heating systems by means of multi-feeding and genetic algorithms. Int J Mater Prod Technol. 29:149–162.
- Wang Y, Wig TD, Tang J, Hallberg LM. 2003. Dielectric properties of foods relevant to RF and microwave pasteurization and sterilization. J Food Eng. 57:257–268.
- Wu C, Yu C. 2007. Design and analysis of a millimeter-wave direct injection-locked frequency divider with large frequency locking range. IEEE Trans Microw Theory Tech. 55:1649–1658.
- Yang FM, Wang WW, Yan B, Hong T, Yang Y, Zhu H, Wu L, Huang K. 2019. Sweep frequency heating based on injection locked magnetron. Processes. 7:341.
- Ye JH, Hong T, Wu Y, Wu L, Liao Y, Zhu H, Yang Y, Huang K. 2017. Model stirrer based on a multi-material turntable for microwave processing materials. Materials. 10:95.
- Zhang Y, Yuan P, Ye W, Zhu H, Yang Y, Huang K. 2016. Frequency qusai locking and noise reduction of the self-injection qusai locked magnetron. Int J Appl Electromagn Mech. 51(1):71–81.
- Zhang Q, Jackson TH, Ungan A. 1998. A continuous hybrid microwave heating process for producing rapid and uniform rewarming of cryopreserved tissues. Ann NY Acad Sci. 858:253–261.
- Zhu H, He J, Hong T. 2018. A rotary radiation structure for microwave heating uniformity improvement. Appl Therm Eng. 141:648–658.