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王绍金 
发布时间:2016-04-15  浏览次数:

博士,教授
西北农林科技大学机械与电子工程学院
陕西省杨凌市西农路22号
邮编:712100
电话:029-87092391
传真:029-87092391
手机:15336893933
Email:shaojinwang@nwsuaf.edu.cn
 
教育背景

1994-1998  比利时让布鲁农业大学物理系博士
1983-1986  浙江大学农业工程系硕士
1978-1982  浙江大学农机系学士
 
工作经历
2011-现在 西北农林科技大学机电学院教授
2005-2011  美国华盛顿州立大学生物系统工程系研究助理教授
2000-2005  美国华盛顿州立大学生物系统工程系博士后
1998-1999  法国国家农业研究所研究工程师
1991-1993  浙江大学农业工程系讲师
1989-1990   比利时让布鲁农业大学物理系访问学者
1986-1989  浙江大学农业工程系助教
1982-1983 浙江省富阳县农机局助理工程师
 
研究兴趣
·   Microwave/radio frequency (RF) heating, related thermal/dielectric properties measurement, and computer simulation model development
·   Value added food processing technologies including drying and thermal processing
·   Advanced thermal processing technologies for food safety and non-chemical pest control in international trades
·   Thermal death kinetics of microorganisms
 

专业学术团体
1.   海外中国农业生物和食品工程学会会员
2.   美国农业与生物工程学会食品加工技术委员会委员
3.   美国食品工艺学家学会
4.   美国微波能学会
 
代表性文章(*通信作者)
Jiao S., Tang J., Johnson J.A., Tiwari G., Wang S.*, 2011. Determining radio frequency heating uniformity in mixed beans for disinfestations. Transactions of the ASABE, 54(5): 1847-1855.
Guo W, Wu X., Zhu X., Wang S.*, 2011. Temperature-dependent permittivities of chestnut and chestnut weevil from 10 to 4500 MHz. Biosystems Engineering, 110(3): 340-347.
Jiao S., Johnson J.A., Tang J., Tiwari G., Wang S.*, 2011. Dielectric properties of cowpea weevil, black eyed peas and mung beans with respect to the development of radio frequency heat treatments. Biosystems Engineering, 108(3): 280-291.
Gao M., Tang J., Villa-Rojas R., Wang Y., Wang S.*, 2011. Pasteurization process development for controlling Salmonella in in-shell almonds using radio frequency energy. Journal of Food Engineering, 104(2): 299-306.
Gao M., Tang J., Wang Y., Powers J., Wang S.*, 2010. Almond quality as influenced by radio frequency heat treatments for disinfestations. Postharvest Biology and Technology, 58(3): 234-240.
Guo W., Zhu X., Liu H., Yue R., Wang S.*, 2010. Effects of milk concentration and freshness on microwave dielectric properties. Journal of Food Engineering, 99(3): 344-350.
Wang S.*, Tiwari G., Jiao S., Johnson J.A., Tang J., 2010. Developing postharvest disinfestation treatments for legumes using radio frequency energy. Biosystems Engineering, 105(3): 341-349.
Wang S., Johnson J.A., Hansen J.D., Tang J., 2009. Determining thermotolerance of fifth-instar Cydia pomonella (L.) (Lepidoptera: Tortricidae) and Amyelois transitella (Walker) (Lepidoptera: Pyralidae) by three different methods. Journal of Stored Products Research, 45(3): 184-189.
Wang S.*, Luechapattanaporn K., Tang J., 2008. Experimental methods for evaluating heating uniformity in radio frequency systems. Biosystems Engineering, 100(1): 58-65.
Wang S., Yue J., Chen B., Tang J., 2008. Treatment design of radio frequency heating based on insect control and product quality. Postharvest Biology and Technology, 49(3): 417-423.
Wang S., Monzon M., Johnson J.A., Mitcham E.J., Tang J., 2007. Industrial-scale radio frequency treatments for insect control in walnuts: II. Insect mortality and product quality. Postharvest Biology and Technology, 45(2): 247-253.
Wang S., Monzon M., Johnson J.A., Mitcham E.J., Tang J., 2007. Industrial-scale radio frequency treatments for insect control in walnuts: I. Heating uniformity and energy efficiency. Postharvest Biology and Technology, 45(2): 240-246.
Zhang M., Tang J., Mujumdar A.S., Wang S., 2006. Trends in microwave-related drying of fruits and vegetables. Trends in Food Science & Technology, 17: 527-534.
Wang S., Tang J., Sun T., Mitcham E.J., Koral T., Birla S.L., 2006. Considerations in design of commercial radio frequency treatments for postharvest pest control in inshell walnuts. Journal of Food Engineering, 77(2): 304-312.
Wang S., Birla S.L., Tang J., Hansen J.D., 2006. Postharvest treatment to control codling moth in fresh apples using water assisted radio frequency heating. Postharvest Biology and Technology, 40(1): 89-96.
Wang S., Monzon M., Gazit Y., Tang J., Mitcham E.J., Armstrong J.W., 2005. Temperature dependent dielectric properties of selected subtropical and tropical fruits and associated insect pests. Transactions of the ASAE, 48(5): 1873-1881.
Wang S., Johnson J.A., Tang J., Yin X., 2005. Heating condition effects on thermal resistance of fifth-instar navel orangeworm (Lepidoptera: Pyralidae).  Journal of Stored Products Research, 41(4): 469-478.
Wang S., Yue J., Tang J., Chen B., 2005. Mathematical modeling of heating uniformity of in-shell walnuts in radio frequency units with intermittent stirrings. Postharvest Biology and Technology, 35(1): 97-107.
Wang S.*, Tang J., 2004. Radio frequency heating: a potential method of postharvest pest control in nuts and dry products. Journal of Zhejiang University Science, 5(10): 1169-1174.
Wang S.*, Deltour J., 2004. Leaf temperature modeling of greenhouse grown tomato. International Agricultural Engineering Journal, 13(1-2): 64-70.
Wang S., Yin X., Tang J., Hansen J., 2004. Thermal resistance of different life stages of codling moth (Lepidoptera: Tortricidae). Journal of Stored Products Research, 40(5): 565-574.
Wang S., Tang J., Cavalieri R.P., Davis D., 2003. Differential heating of insects in dried nuts and fruits associated with radio frequency and microwave treatments. Transactions of the ASAE, 46(4): 1175-1182. (ASAE Superior Paper Award)
Wang S., Tang J., Johnson J.A., Mitcham E., Hansen J.D., Hallman G., Drake S.R., Wang Y., 2003. Dielectric properties of fruits and insect pests as related to radio frequency and microwave treatments. Biosystems Engineering, 85(2): 201-212.
Wang S., Tang J., Johnson J.A., Mitcham E., Hansen J.D., Cavalieri R, Bower J., Biasi B., 2002. Process protocols based on radio frequency energy to control field and storage pests in in-shell walnuts. Postharvest Biology and Technology, 26(3): 265-273.
Wang S., Ikediala J.N., Tang J., Hansen J., 2002. Thermal death kinetics and heating rate effects for fifth-instar codling moths (Cydia pomonella (L.)). Journal of Stored Products Research, 38(5): 441-453.
Wang S., Tang J., Johnson J.A., Hansen J., 2002. Thermal death kinetics of fifth-instar navel orangeworms (Lepidoptera: Pyralidae). Journal of Stored Products Research, 38(5): 427-440.
Wang S.*, Tang J., 2001. Radio frequency and microwave alternative treatments for nut insect control: a review. International Agricultural Engineering Journal, 10(3&4): 105-120.
Wang S., Tang J., Cavalieri R., 2001. Modeling fruit internal heating rates for hot air and hot water treatments. Postharvest Biology and Technology, 22(3): 257-270.
Wang S., Ikediala J.N., Tang J., Hansen J., Mitcham E., Mao R., Swanson B., 2001. Radio frequency treatments to control codling moth in in-shell walnuts. Postharvest Biology and Technology, 22(1): 29-38.
Wang S.*, Boulard T., 2000. Predicting the microclimate in a naturally-ventilated plastic-house under Mediterranean climate. Journal of Agricultural Engineering Research, 75: 27-38.
Wang S.*, Deltour J., 1999. Airflow patterns and associated ventilation function in large scale multi-span greenhouses. Transactions of American Society of Agricultural Engineers, 42(5): 1409-1414.
Wang S.*, Boulard T., Haxaire R., 1999. Air speed profiles in a naturally-ventilated greenhouse with a tomato crop. Agricultural and Forest Meteorology, 96(4): 181-188.
Wang S.*, Deltour J., 1999. Lee-side ventilation induced air movement in a large scale multi-span greenhouse. Journal of Agricultural Engineering Research, 74(1): 103-110.
Wang S.*, Yernaux M., Deltour J., 1999. A networked two-dimensional sonic anemometer system for measurement of air velocity in greenhouses. Journal of Agricultural Engineering Research, 73(2): 189-197.

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