[1] LU X,XI B,ZHANG Y,et al. Microwave pretreatment of rape straw for bioethanol production:focus on energy efficiency[J]. Bioresource Technology, 2011,102(17):7937–7940.
LU X,XI B,ZHANG Y,et al. Microwave pretreatment of rape straw for bioethanol production:focus on energy efficiency[J]. Bioresource Technology, 2011,102(17):7937–7940.
LU X,XI B,ZHANG Y,et al. Microwave pretreatment of rape straw for bioethanol production:focus on energy efficiency[J]. Bioresource Technology, 2011,102(17):7937–7940.
[2] and Mechanics, 2015,49(1):61–77.
LI J,XIONG Q,WANG K,et al. Combining sliding mode neural network with Cuckoo Search to make a uniform microwave heating process[J]. International Journal of Applied Electromagnetics and Mechanics, 2015,49(1):61–77.
LI J,XIONG Q,WANG K,et al. Combining sliding mode neural network with Cuckoo Search to make a uniform microwave heating process[J]. International Journal of Applied Electromagnetics
LI J,XIONG Q,WANG K,et al. Combining sliding mode neural network with Cuckoo Search to make a uniform microwave heating process[J]. International Journal of Applied Electromagnetics and Mechanics, 2015,49(1):61–77.
[3] indirect heating method for nonpolar solution[J]. Vacuum Electronics Technology, 2018(3):50-52.)
[4] MUDGETT R E. Microwave properties and heating characteristics of foods[J]. Food Technology, 1986,40(6):84–93.
MUDGETT R E. Microwave properties and heating characteristics of foods[J]. Food Technology, 1986,40(6):84–93.
MUDGETT R E. Microwave properties and heating characteristics of foods[J]. Food Technology, 1986,40(6):84–93.
[5] MULEY P D,BOLDOR D. Multiphysics numerical modeling of the continuous flow microwave-assisted transesterification process[J]. Journal of Microwave Power and Electromagnetic Energy, 2016,46(3):139–162.
MULEY P D,BOLDOR D. Multiphysics numerical modeling of the continuous flow microwave-assisted transesterification process[J]. Journal of Microwave Power and Electromagnetic Energy, 2016,46(3):139–162.
MULEY P D,BOLDOR D. Multiphysics numerical modeling of the continuous flow microwave-assisted transesterification process[J]. Journal of Microwave Power and Electromagnetic Energy,
2016,46(3):139–162.
[6] SAIFUDDIN Nomanbhay,ONG Meiyin. A review of microwave-assisted reactions for biodiesel production[J]. Bioengineering, 2017,4(2):57.
SAIFUDDIN Nomanbhay,ONG Meiyin. A review of microwave-assisted reactions for biodiesel production[J]. Bioengineering, 2017,4(2):57.
SAIFUDDIN Nomanbhay,ONG Meiyin. A review of microwave-assisted reactions for biodiesel production[J]. Bioengineering, 2017,4(2):57.
[8] PANDIT R B,PRASAD S. Finite element analysis of microwave heating of potato―transient temperature profiles[J]. Journal of Food Engineering, 2003,60(2):193–202.
PANDIT R B,PRASAD S. Finite element analysis of microwave heating of potato―transient temperature profiles[J]. Journal of Food Engineering, 2003,60(2):193–202.
PANDIT R B,PRASAD S. Finite element analysis of microwave heating of potato―transient temperature profiles[J]. Journal of Food Engineering, 2003,60(2):193–202.
[9] PITCHAI K,BIRLA S L,SUBBIAH J,et al. Coupled electromagnetic and heat transfer model for microwave heating in domestic ovens[J]. Journal of Food Engineering, 2012,112(1/2):100–111.
PITCHAI K,BIRLA S L,SUBBIAH J,et al. Coupled electromagnetic and heat transfer model for microwave heating in domestic ovens[J]. Journal of Food Engineering, 2012,112(1/2):100–111.
PITCHAI K,BIRLA S L,SUBBIAH J,et al. Coupled electromagnetic and heat transfer model for microwave heating in domestic ovens[J]. Journal of Food Engineering, 2012,112(1/2):100–111.
