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微波加热秸秆的模拟研究

Simulation Research on Microwave Heating Straw
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摘要 本文主要对秸秆料包微波加热过程的升温特性进行了理论研究和数值模拟。该过程可用热传导方程描述,在利用Lambert定律对内热源项进行简化的基础上,求得了此热传导方程第二边值问题的解析解和数值解。并利用Matlab软件模拟其在微波加热中温度的分布情况,通过对图像的分析我们认为秸秆的长度选为0.5米较合适,对其加热到42分钟,既能保证加热效率,又不会导致秸秆炭化,此结论可供工程实际参考。 In this paper, we mainly study the temperature-rising characteristics about microwave heating straw, including theoretical research and numerical simulation. This process can be described by heat conduction equation;through simplifying the heat source term by Lambert law, we obtain the equation’s analytical and numerical solution with second boundary condition. We simulate the distribution of the temperature in the microwave heating process by means of Matlab. Through analyzing the graphic, we think that choosing the straw’s length at 0.5 meter is more appropriate, and heating the straw for 42 minutes can guarantee the heating efficient, and also will not lead to carbonization. The results obtained can be used for reference in engineering practice.
作者 林增 韦维 廖玉梅
机构地区 贵州大学理学院数学系
出处 《建模与仿真》 2015年第2期49-59,共11页 Modeling and Simulation
关键词 微波加热 热传导方程 MAXWELL方程组 秸秆
分类号 O1 [理学—基础数学]
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  • 1何芳,徐梁,柏雪源,蔡均猛,易维明.生物质热解过程吸热量[J].太阳能学报,2006,27(3):237-241. 被引量:20
  • 2Zhao Xiqiang, Song Zhanlong, Liu Hongzhen, et al. Microwave pyrolysis of corn stalk bale: A promising method for direct utilization of large-sized biomass and syngas production[J]. Journal of Analytical and Applied Pyrolysis, 2010, 89(1): 87 -94.
  • 3Geedipalli S S R, Rakesh V, Datta A K. Modeling the heating uniformity contributed by a rotating turntable in microwave ovens[J]. Journal of Food Engineering, 2007, 82(3): 359-368.
  • 4Curet S, Rouaud O, Boillereaux L. Microwave tempering and heating in a single-mode cavity: Numerical and experimental investigations[J]. Chemical Engineering and Processing, 2008, 47(9/10): 1656-1665.
  • 5Souraki B A, Mowla D. Experimental and theoretical investigation of drying behaviour of garlic in an inert medium fluidized bed assisted by microwave[J]. Journal of Food Engineering, 2008, 88(4): 438-449.
  • 6Givoli D, Keller J B. Exact non-reflecting boundary conditions[J]. Journal of Computational Physics, 1989, 82(1): 172- 192.
  • 7Ayappa K G, Davis H T, Davis E A, et al. Two-dimensional finite element analysis of microwave heating[J]. AIChe Journal, 1992, 38(10): 1577- 1592.
  • 8Campanone L A, Zaritzky N E. Mathematical analysis of microwave heating process[J]. Journal of Food Engineering, 2005, 69(3): 359-368.
  • 9Romano V R, Marra F, Tammaro U. Modelling of microwave heating of foodstuff: study on the influence of sample dimensions with a FEM approach[J]. Journal of Food Engineering, 2005, 71(3): 233-241.
  • 10Barringer S A, Davis E A, Gordon J, et al. Microwave heating temperature profiles for thin slabs compared to Maxwell and Lambert law predictions[J]. Journal of Food Science, 1995, 60(5): 1137- 1142.

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建模与仿真
2015年 第2期

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