Method for quickly evaluating leakage rate of multi-layer pressure-bearing shell based on flow conservation theorem

A leakage rate and flow rate technology, applied in the field of rapid assessment of the leakage rate of multi-layer pressure shells, can solve problems such as lack of means

Active Publication Date: 2020-05-22
DALIAN UNIV OF TECH
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Problems solved by technology

At this time, the key issue is how to quickly calculate the crack propagation and cracking degree of the multilayer shell structure under internal pressure in a severe accident, and how to calculate the leakage rate of the multilayer shell when the crack opening in the thickness direction is different. There is no means for this

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  • Method for quickly evaluating leakage rate of multi-layer pressure-bearing shell based on flow conservation theorem
  • Method for quickly evaluating leakage rate of multi-layer pressure-bearing shell based on flow conservation theorem
  • Method for quickly evaluating leakage rate of multi-layer pressure-bearing shell based on flow conservation theorem

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Embodiment Construction

[0060] The specific embodiments of the present invention will be described in detail below in conjunction with the technical solutions and accompanying drawings.

[0061] The inner diameter of a certain containment vessel is 16m, the outer diameter is 20m, the inner diameter of the dome is 22.4m, the outer diameter is 25.6m, the height of the cylinder wall is 6m, and the shell is divided into 3 layers along the thickness direction, which are 0.5m thick and 1.0m thick respectively. , 0.5m. The material is ideal elastic-plastic, with an elastic modulus of 34.5GPa, a Poisson's ratio of 0.2, and a material yield of 2.64MPa. The accident internal pressure of the containment vessel is 0.8MPa, the ambient external pressure is 1 standard atmospheric pressure 101kPa, and the ambient temperature is 30°C.

[0062] In this embodiment, the cylinder is divided into 10 unit blocks in the circumferential direction, and the crack development and leakage rate The calculation results are show...

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Abstract

The invention discloses a method for quickly evaluating the leakage rate of a multilayer pressure-bearing shell based on a flow conservation theorem, and belongs to the field of evaluation of the leakage rate of a damaged pressure-bearing structure. The main principle of the method is as follows: based on an ideal elastic-plastic constitutive, considering the cracking process and the failure mechanism of the multilayer pressure-bearing shell, quickly estimating the circumferential strain distribution of each layer of shell, and estimating the circumferential crack opening on the basis of exceeding the tensile limit strain of the material; and based on the flow conservation theorem, calculating the overall leakage rate of the shell structure with inconsistent cracking degree of each layer.According to the method, the cracking condition of the multi-layer pressure-bearing shell under the action of the internal pressure of a serious accident can be estimated, and the gas leakage rate ofthe multi-layer shell walls with different cracking degrees can be quickly estimated.

Description

technical field [0001] The invention belongs to the field of leakage rate assessment of damaged pressure bearing structures, and in particular relates to a rapid assessment method for the leakage rate of multilayer pressure bearing shells based on the principle of flow conservation. Background technique [0002] Pressure-bearing reinforced concrete structures represented by nuclear power containment vessels are widely used in industrial buildings. Under normal conditions, the internal pressure working value is not high, slightly higher than the ambient pressure outside the shell structure, so as to avoid external factors interfering with the internal working environment due to negative pressure. [0003] However, when a major accident occurs inside the shell, resulting in a substantial increase in internal pressure, the shell wall will play a key shielding role to prevent internal hazardous radiation or hazardous gases from escaping to the external environment. [0004] In ...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01M3/26
CPCG01M3/26
Inventor 李建波胡哲文梅润雨
Owner DALIAN UNIV OF TECH
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