Random orthogonal expansion method for solving uncertain heat conduction problem

A technology of heat conduction and problems, applied in the field of random orthogonal expansion, can solve problems such as small amount of calculation, calculation accuracy difficult to meet engineering requirements, calculation accuracy dependent on sampling experiments, etc.

Active Publication Date: 2016-07-27
BEIHANG UNIV
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Problems solved by technology

At present, the stochastic finite element method derived from the combination of stochastic analysis theory and finite element calculation method has achieved many research results in the analysis of static and dynamic characteristics of uncertain structures, but its application in the field of heat transfer is still very limited.
In addition, the traditional stochastic simulation method uses digital simulation and statistic...

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  • Random orthogonal expansion method for solving uncertain heat conduction problem
  • Random orthogonal expansion method for solving uncertain heat conduction problem
  • Random orthogonal expansion method for solving uncertain heat conduction problem

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Embodiment Construction

[0046] The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

[0047] The invention is suitable for temperature field prediction of heat conduction problems containing random uncertain parameters. In the embodiments of the present invention, a two-dimensional plate heat transfer structure model is taken as an example to specifically illustrate the stochastic orthogonal expansion method for solving uncertain heat conduction problems. In addition, the stochastic orthogonal expansion method of the temperature response of the two-dimensional plate heat transfer structure model can be extended to the prediction of temperature field of other heat transfer problems with stochastic uncertain parameters.

[0048] The calculation process of a stochastic orthogonal expansion method for solving uncertain heat conduction problems is as follows: figure 1 As shown, random variables are introduced to quantify the uncertain param...

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Abstract

The invention discloses a random orthogonal expansion method for solving the uncertain heat conduction problem. The method comprises the following steps of performing quantification representation on uncertain parameters in the heat conduction problem by introducing random variables; building a random differential control equation of the heat conduction problem by combining the random variables; selecting an orthogonal polynomials substrate function according to the random variable distribution type; performing orthogonal expansion on the random temperature response; giving the collocation point number of each random variable; building a collocation point set of the whole uncertain space by using a tensor product law; calculating the temperature response in positions of all collocation points; solving each coefficient in the temperature response orthogonal expansion formula by using the generalized inverse of a matrix; and calculating the average value and the standard deviation of the random temperature response according to the orthogonal relationship of the substrate function. The method has the advantages that the heat conduction problem containing random uncertain parameters can be systematically solved; the calculation precision of a random uncertain analysis method is further improved; and the effect cannot be achieved by general commercial software.

Description

technical field [0001] The invention belongs to the field of mechanical engineering, and in particular relates to a random orthogonal expansion method for solving uncertain heat conduction problems. Background technique [0002] When analyzing and designing an engineering system, it is required to calculate the system response correctly in order to ensure that the engineering system meets the requirements of certain indicators. However, due to the limitations of people's understanding of the level and means of the objective world, there are often uncertainties related to material properties, external force loads, initial conditions, boundary constraints, and processing and assembly in actual engineering. For complex systems, even small uncertainties may cause significant disturbances to the final response output through propagation and diffusion among subsystems. Therefore, studying the influence of these uncertainties on the system response has a wide engineering backgroun...

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Application Information

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IPC IPC(8): G06F17/17G06F17/13G06F17/18
CPCG06F17/13G06F17/17G06F17/18
Inventor 邱志平王冲王晓军许孟辉李云龙陈贤佳
Owner BEIHANG UNIV
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