1. Swendseid, M. E., R. J. Feeley, C. L. Harris, and S. G. Tuttle, "Egg protein as a source of the essential amino acids: Requirement for nitrogen balance in young adults studied at two levels of nitrogen intake," The Journal of Nutrition, Vol. 68, 203-211, 1959.
2. Li-Chan, E. C. Y., W. D. Powrie, and S. Nakai, "The chemistry of eggs and egg products," Egg Science and Technology, W. J. Stadelman and O. J. Cotterill (eds.), Food Products Press, New York, 1995.
3. FSIS-USDA "Risk assessments for Salmonella enteritidis in shell eggs and Salmonella spp," Egg Products, FSIS, Omaha, 2006.
4. Schroeder, , C. M., A. L. Naugle, W. D. Schlosser, A. T. Hogue, F. J. Angulo, J. S. Rose, E. D. Ebel, W. T. Disney, K. G. Holt, and D. P. Goldman, "Estimate of illnesses from Salmonella enteritidis in eggs, United States 2000," Emerg. Infect. Dis., Vol. 11, 113-115, 2005.
doi:10.3201/eid1101.040401
5. Stlouis, M. E., D. L. Morse, M. E. Potter, T. M. Demelfi, J. J. Guzewich, R. V. Tauxe, and P. A. Blake, "The emergence of grade-a eggs as a major source of Salmonella-enteritidis infections --- New implications for the control of salmonellosis," Journal of the American Medical Association, Vol. 259, 2103-2107, 1988.
doi:10.1001/jama.259.14.2103
6. Hou, H., R. K. Singh, P. M. Muriana, and W. J. Stadelman, "Pasteurization of intact shell eggs," Food Microbiol, Vol. 13, 93-101, 1996.
doi:10.1006/fmic.1996.0012
7. Dev, S. R. S., G. S. V. Raghavan, and Y. Gariepy, "Dielectric roperties of egg components and microwave heating for in-shell pasteurization of eggs," Journal of Food Engineering, Vol. 86, 207-214, 2008.
doi:10.1016/j.jfoodeng.2007.09.027
8. Birla, S. L., S. Wang, and J. Tang, "Computer simulation of radio frequency heating of model fruit immersed in water," Journal of Food Engineering, Vol. 84, 270-280, 2008.
doi:10.1016/j.jfoodeng.2007.05.020
9. Campanone, L. A., C. A. Paola, and R. H. Mascheroni, "Modeling and simulation of microwave heating of foods under different process schedules," Food and Bioprocess Technology, Vol. 5, 738-749, 2011.
doi:10.1007/s11947-010-0378-5
10. Campanone, L. A. and N. E. Zaritzky, "Mathematical modeling and simulation of microwave thawing of large solid foods under different operating conditions," Food and Bioprocess Technology,, Vol. 3, 813-825, 2010.
doi:10.1007/s11947-009-0249-0
11. Chen, H., J. Tang, and F. Liu, "Simulation model for moving food packages in microwave heating processes using conformal FDTD method," Journal of Food Engineering, Vol. 88, 294-305, 2008.
doi:10.1016/j.jfoodeng.2008.02.020
12. Jia, X. and P. Jolly, "Simulation of microwave field and power distribution in a cavity by a 3-dimensional finite-element method," J. Microwave Power and Electromag Energy, Vol. 27, 11-22, 1992.
13. Liu, C. M., Q. Z. Wang, and N. Sakai, "Power and temperature distribution during microwave thawing, simulated by using Maxwell's equations and Lambert's law," International Journal of Food Science and Technology, Vol. 40, 9-21, 2005.
doi:10.1111/j.1365-2621.2004.00904.x
14. Olivera, D. F. and V. O. Salvadori, "Finite element modeling of ood cooking," Lat. Am. Appl. Res., Vol. 38, 377-383, 2008.
15. Tiwari, G., S. Wang, J. Tang, and S. L. Birla, "Computer simulation model development and validation for radio frequency (RF) heating of dry food materials," Journal of Food Engineering,, Vol. 105, 48-55, 2011.
doi:10.1016/j.jfoodeng.2011.01.016
16. Watanabe, S., M. Karakawa, and O. Hashimoto, "Computer simulation of temperature distribution of frozen material heated in a microwave oven," IEEE Trans. on Microw. and Theory, Vol. 58, 1196-1204, 2010.
doi:10.1109/TMTT.2010.2045526
17. Zhou, L., V. M. Puri, R. C. Anantheswaran, and G. Yeh, "Finite-element modeling of heat and mass-transfer in food materials during microwave-heating --- Model development and validation," Journal of Food Engineering, Vol. 25, 509-529, 1995.
doi:10.1016/0260-8774(94)00032-5
18. Lin, , Y. E., R. C. Anantheswaran, V. M. Puri, and , "Modeling temperature distribution during microwave heating," American Society of Agricultural Engineers, Paper No. 89-6506, ASAE AIM, Saint Joseph, MI, USA, 1989.
19. Fu, , W. and A. Metaxas, "Numerical prediction of three-dimensional power density distribution in a multimode cavity," J. Microwave Power and Electromag Energy, Vol. 29, No. 2, 67-75, 1994.
20. Dai, J., "Microwave-assisted extraction and synthesis studies and the scale-up study with the aid Of FDTD simulation,", Dissertation, Department of Bioresource Engineering, McGill University, Canada, 2006.
21. Kannan, S., "Preliminary analyses of the dielectric properties of egg for radio frequency pasteurization," NABEC, Paper No. 11-020, Vol. 22, No. 1, Vermont, USA, 2011.