Method for establishing liquid curved membrane flow system of fusion reactor divertor flow stability

A technology of divertor and stability, which is applied in the field of liquid curved membrane flow system to establish the flow stability of fusion reactor divertor, which can solve the problem of magnetic fluid instability, accumulation thickening or even flow blockage, inability to completely cover the bottom wall or even development For problems such as stream flow, to achieve the effect of preventing splashing

Active Publication Date: 2015-07-01
SOUTHWESTERN INST OF PHYSICS
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Problems solved by technology

Usually the Lorentz force hinders the forward flow of the film flow, so the magnetic fluid instability in the process of film flow will occur, usually manifested in the blockage of the film flow, the accumulation becomes thicker or even the flow is blocked, and the film flow is pushed to the groove One side of the bottom wall cannot be completely covered or even developed into a stream ...

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  • Method for establishing liquid curved membrane flow system of fusion reactor divertor flow stability
  • Method for establishing liquid curved membrane flow system of fusion reactor divertor flow stability
  • Method for establishing liquid curved membrane flow system of fusion reactor divertor flow stability

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Embodiment Construction

[0023] The present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments.

[0024] The method for establishing the liquid curved membrane flow system of the fusion reactor divertor flow stability according to the present invention comprises the following steps:

[0025] Step 1: Find the relationship between the local magnetic field strength and the inclination angle under the stable flow state of the liquid metal film flow, and control the magnetic fluid instability caused by the strong gradient magnetic field by changing the local inclination angle at different flow distances of the film flow to adapt to the change of the gradient magnetic field , that is, the shape of the curved bottom wall is used to adapt to the change of the strong gradient magnetic field;

[0026] Step 2: Use the method of fixing the metal mesh above the curved bottom wall to ensure that the liquid metal flows along the curved bottom wall with ...

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Abstract

The invention relates to the technical field of liquid membrane flow control, and specifically relates to a method for establishing a liquid curved membrane flow system of fusion reactor divertor flow stability. The method comprises the following steps: step one, finding a relationship between a local magnetic field strength and an inclination angle under stable flow status of a liquid metal membrane, changing local inclination angles at different flow distances of the membrane flow to adapt variations of a gradient magnetic field, controlling a magnetofluid instability caused by a strong gradient magnetic field, i.e., utilizing the shape of a curved bottom wall to adapt the variations of the strong gradient magnetic field; step two, utilizing a method of fixing a metal screen above the curved bottom wall to ensure the liquid metal to flow along the curved bottom wall having a greater curvature variation; and step three, obtaining a stable membrane flow on the metal screen by regulating the sizes of metal meshes at different flow distances as well as regulating the distance between the metal screen and the curved bottom wall. By the method for establishing the liquid curved membrane flow system of the fusion reactor divertor flow stability, the instability of the magnetofluid of the liquid metal membrane flow under the strong gradient magnetic field environment having greater magnetic field strength variations is solved.

Description

technical field [0001] The invention belongs to the technical field of liquid film flow control, and in particular relates to a method for establishing a liquid curved film flow system for the flow stability of a divertor of a fusion reactor. Background technique [0002] At present, controlled nuclear fusion still faces the huge technical challenge of developing suitable plasma-facing materials. So far, researchers have not found a solid material that can withstand the extremely high heat flow impact of the fusion reactor and the very large neutron radiation damage. . Therefore, flowing liquid metal lithium is proposed as a fusion reactor facing the plasma material, and used as the surface of the high thermal load components (especially the divertor) of the fusion reactor to withstand extremely high heat flow impact and reduce neutron radiation damage. Existing research results show that solid high thermal load materials can only withstand up to 10MW / m under steady state c...

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Application Information

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IPC IPC(8): G21B1/13B32B33/00B32B15/00
CPCB32B15/00B32B33/00G21B1/13Y02E30/10
Inventor 张秀杰潘传杰许增裕
Owner SOUTHWESTERN INST OF PHYSICS
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