CN104616703A

CN104616703A - Flibe molten salt blanket structure for fusion reactor

Info

Publication number: CN104616703A
Application number: CN201510003092.3A
Authority: CN
Inventors: 雷明准; 宋云涛; 叶民友; 陆坤; 刘素梅; 徐淑玲
Original assignee: Institute of Plasma Physics of CAS
Current assignee: Institute of Plasma Physics of CAS
Priority date: 2015-01-05
Filing date: 2015-01-05
Publication date: 2015-05-13
Anticipated expiration: 2035-01-05
Also published as: CN104616703B

Abstract

The invention discloses a Flibe molten salt blanket structure for a fusion reactor. The Flibe molten salt blanket structure comprises a breeder blanket, a shield blanket and a supporting structure thereof. Low-activation ferrite/martensitic steel serves as a structural material, helium cools the structural material, and flowing Flibe molten salt is used as tritium breeder and coolant. The breeder blanket and the shield blanket are integrally designed, remote operation and maintenance are facilitated, the design of the blanket structure is simplified, and machining of the cladding structure is facilitated. The Flibe molten salt blanket structure solves the problem that a solid blanket does not easily realize online material change and tritium extraction, magneto-hydrodynamic problems caused by traditional liquid lithium lead metal blanket liquid metal flow are solved, and safety and reliability of the blanket structure are improved.

Description

A kind of Flibe fused salt cladding structure for fusion reactor

Technical field

The present invention relates to nuclear fusion covering field, specifically a kind of Flibe fused salt cladding structure for fusion reactor.

Background technology

Covering is the important composition parts of fusion reactor, and its major function realizes tritium propagation; The heat energy producing and remove for generating electricity; Removing the nuclear heat that the first wall surface hot-fluid and cladding structure deposit makes the temperature of whole cladding structure and stress lower than the allowable value of material.

Covering can be divided into solid-state multiplication agent covering and the large class of liquid multiplication agent covering two according to the difference of multiplication agent type.Wherein, solid-state multiplication agent covering is divided into the cold solid-state propagation covering of helium and the solid-state propagation covering of water-cooled according to cooling medium is unusual.General employing modular design, tritium multiplication agent adopts the materials such as positive lithium metasilicate, lithium titanate, and neutron multiplication agent generally adopts Be or Be ₁₂the materials such as Ti, are ball bed structure; Structured material adopts low activation ferrite/martensite steel.Solid-state multiplication agent is subject to the restriction of lithium atom density, and Tritium-breeding ratio is relatively low, so need to place neutron multiplication agent to improve Tritium-breeding ratio in covering.The tritium that breeding blanket produces carries mainly through helium the mode that hydrogen washes away ball bed, the principle utilizing isotope to exchange is taken out of the tritium produced in the tritium recovery system delivered to outside covering, therefore must design in covering and carry the tritium that propagation is reclaimed in tritium loop specially, that carries tritium loop and cooling circuit devises the design difficulty adding solid-state propagation covering.

Liquid blanket has good geometric compliance, can simplify liquid envelope structure design.Liquid blanket is generally divided into again liquid metal covering and liquid fused salt covering.Liquid metal covering generally adopts liquid lithium or lithium lead etc. as multiplication agent, adopts low activation ferrite/martensite steel as structured material, adopts helium or water-cooling structure parts.The use of liquid metal multiplication agent equally can with the problem of serving: because liquid metal is at high temperature to the corrosive attack of structured material, have good compatibility between claimed structure material and liquid metal; In addition, due to the distinctive strong magnetic field circumstance of fusion reactor, liquid metal can cause MHD effect in magnetic field current downflow, increases the Pressure Drop of flowing, thus increases power consumption.Compared to liquid metal covering, liquid fused salt covering has the advantage of non-magnetic flow body dynamics effect.Breed covering for liquid fused salt Flibe, propose a kind of new fusion reactor fused salt Flibe and breed cladding structure concept.

summary of the inventionthe object of this invention is to provide a kind of Flibe fused salt cladding structure for fusion reactor, to solve prior art Problems existing.

In order to achieve the above object, the technical solution adopted in the present invention is:

A kind of Flibe fused salt cladding structure for fusion reactor, it is characterized in that: comprise propagation covering, Shield blanket, described propagation covering comprises the first wall of structured material inner hollow, backboard, first wall and backboard surround confined space, be provided with in the confined space that first wall and backboard surround bipassage ring to the lattice plate of structured material internal notches, and the confined space that the first wall and backboard surround by lattice plate is separated into three separate space successively, separate space is wherein as neutron multiplication district, all the other two separate space are as Flibe district, also neutron multiplication district is provided through in the confined space that first wall and backboard surround, the lattice plate of the radial direction in two Flibe districts, described Shield blanket comprises Shield blanket shell, Shield blanket shell is connected to propagation covering dorsulum and the first wall junction, and Shield blanket shell and backboard surround confined space, the Shield blanket coldplate of the structured material inner hollow of multiple tracks hoop is provided with in the confined space that Shield blanket shell and backboard surround, and the confined space that Shield blanket shell and backboard surround by Shield blanket coldplate is separated into multiple separate space successively, in the confined space that Shield blanket shell and backboard surround, multiple separate space is respectively as tungsten-carbide powder district, tungsten-carbide powder fills tungsten-carbide powder in district respectively.

Described a kind of Flibe fused salt cladding structure for fusion reactor, it is characterized in that: also include the helium cooling circuit being connected with helium, in helium cold loop, helium enters a Shield blanket air collecting chamber, enter Shield blanket coldplate after shunting to cool, then after the first manifold is collected, enter the first wall and cool the first wall, enter the second manifold after flowing out the first wall, then enter air ring to the lattice plate with radial direction, finally by flowing out propagation covering after the 3rd manifold.

Described a kind of Flibe fused salt cladding structure for fusion reactor, it is characterized in that: also include the cooling medium that is connected with and is made up of Flibe fused salt and multiplication agent from cold loop, in Flibe fused salt, the ratio of LiF and BeF2 is 2:1, in cold loop, Flibe fused salt is by entering the 4th manifold, the tritium that neutron multiplication zone walks reaction generation is entered after bottom tapping, enter one of them Flibe district and part neutron reaction simultaneously, then enter another Flibe district, finally flow out propagation covering.

Described a kind of Flibe fused salt cladding structure for fusion reactor, is characterized in that: the first wall of propagation covering, lattice plate, backboard all adopt low activation ferrite/martensite Steel material to make.

Described a kind of Flibe fused salt cladding structure for fusion reactor, is characterized in that: the Shield blanket shell of Shield blanket, Shield blanket coldplate all adopt low activation ferrite/martensite Steel material to make.

Advantage of the present invention is: (1) adopts flowing Flibe fused salt as tritium multiplication agent and cooling medium, simplifies the design of propagation cladding structure, is conducive to the processing of cladding structure; (2) compare the cold solid-state propagation covering of helium, tritium multiplication agent has mobility, and easy realization is reloaded and the extraction of tritium online; (3) compare liquid lithium lead clad, avoid the magnetohydrodynamics problem that liquid metal flows brings, improve the safe reliability of cladding structure; (4) integrated design of propagation covering Shield blanket simplifies and wants Operation and Maintenance.

Accompanying drawing explanation

Fig. 1 is sectional view of the present invention.

Fig. 2 is one-piece construction figure of the present invention.

Fig. 3 is enlarged drawing bottom the present invention.

Fig. 4 is enlarged top view of the present invention.

Embodiment

As Fig. 1, shown in Fig. 2, a kind of Flibe fused salt cladding structure for fusion reactor, on the overall covering track be fixed on by flexible support 1 and bottom support 2 in vacuum chamber, comprise propagation covering, Shield blanket, propagation covering comprises the first wall 3 of structured material inner hollow, backboard 5, first wall 3 surrounds confined space with backboard 5, be provided with in the confined space that first wall 3 and backboard 5 surround bipassage ring to the lattice plate 4 of structured material internal notches, and the confined space that the first wall 3 and backboard 5 surround is separated into three separate space by lattice plate 4 successively, separate space is wherein as neutron multiplication district 8, all the other two separate space are as Flibe district 6, 7, neutron multiplication district 8 is also provided through in the confined space that first wall 3 and backboard 5 surround, two Flibe districts 6, the lattice plate of the radial direction of 7, Shield blanket comprises Shield blanket shell 9, Shield blanket shell 9 is connected to propagation covering dorsulum 5 and the first wall 3 junction, and Shield blanket shell 9 and backboard 5 surround confined space, the Shield blanket coldplate 10 of the structured material inner hollow of multiple tracks hoop is provided with in the confined space that Shield blanket shell 9 and backboard 5 surround, and the confined space that Shield blanket shell 9 and backboard 5 surround is separated into multiple separate space by Shield blanket coldplate 10 successively, in the confined space that Shield blanket shell 9 and backboard 5 surround, multiple separate space is respectively as tungsten-carbide powder district 11, tungsten-carbide powder is filled respectively in tungsten-carbide powder district 11.

As shown in Figure 3, Figure 4, also include the helium cooling circuit being connected with helium, in helium cold loop, helium enters a Shield blanket air collecting chamber 12, enter Shield blanket coldplate 10 after shunting to cool, then after the first manifold 13 is collected, enter the first wall 3 and cool the first wall 3, enter the second manifold 14 after flowing out the first wall 3, then enter air ring to the lattice plate 4 with radial direction, finally by flowing out propagation covering after the 3rd manifold 15.

Also include the cooling medium that is connected with and is made up of Flibe fused salt and multiplication agent from cold loop, in Flibe fused salt, the ratio of LiF and BeF2 is 2:1, in cold loop, Flibe fused salt is by entering the 4th manifold 16, the tritium that neutron multiplication district 8 takes away reaction generation is entered after bottom tapping, enter one of them Flibe district 7 and part fast neutron reaction simultaneously, then enter another Flibe district 6, finally flow out propagation covering.

First wall 3 of propagation covering, lattice plate 4, backboard 5 all adopt low activation ferrite/martensite Steel material to make.

The Shield blanket shell 9 of Shield blanket, Shield blanket coldplate 10 all adopt low activation ferrite/martensite Steel material to make.

Claims

1. the Flibe fused salt cladding structure for fusion reactor, it is characterized in that: comprise propagation covering, Shield blanket, described propagation covering comprises the first wall of structured material inner hollow, backboard, first wall and backboard surround confined space, be provided with in the confined space that first wall and backboard surround bipassage ring to the lattice plate of structured material internal notches, and the confined space that the first wall and backboard surround by lattice plate is separated into three separate space successively, separate space is wherein as neutron multiplication district, all the other two separate space are as Flibe district, also neutron multiplication district is provided through in the confined space that first wall and backboard surround, the lattice plate of the radial direction in two Flibe districts, described Shield blanket comprises Shield blanket shell, Shield blanket shell is connected to propagation covering dorsulum and the first wall junction, and Shield blanket shell and backboard surround confined space, the Shield blanket coldplate of the structured material inner hollow of multiple tracks hoop is provided with in the confined space that Shield blanket shell and backboard surround, and the confined space that Shield blanket shell and backboard surround by Shield blanket coldplate is separated into multiple separate space successively, in the confined space that Shield blanket shell and backboard surround, multiple separate space is respectively as tungsten-carbide powder district, tungsten-carbide powder fills tungsten-carbide powder in district respectively.

2. a kind of Flibe fused salt cladding structure for fusion reactor according to claim 1, it is characterized in that: also include the helium cooling circuit being connected with helium, in helium cold loop, helium enters a Shield blanket air collecting chamber, enter Shield blanket coldplate after shunting to cool, then after the first manifold is collected, enter the first wall and cool the first wall, enter the second manifold after flowing out the first wall, then enter air ring to the lattice plate with radial direction, finally by flowing out propagation covering after the 3rd manifold.

3. a kind of Flibe fused salt cladding structure for fusion reactor according to claim 1, it is characterized in that: also include the cooling medium that is connected with and is made up of Flibe fused salt and multiplication agent from cold loop, in Flibe fused salt, the ratio of LiF and BeF2 is 2:1, in cold loop, Flibe fused salt is by entering the 4th manifold, the tritium that neutron multiplication zone walks reaction generation is entered after bottom tapping, enter one of them Flibe district and part neutron reaction simultaneously, then enter another Flibe district, finally flow out propagation covering.

4. a kind of Flibe fused salt cladding structure for fusion reactor according to claim 1, is characterized in that: the first wall of propagation covering, lattice plate, backboard all adopt low activation ferrite/martensite Steel material to make.

5. a kind of Flibe fused salt cladding structure for fusion reactor according to claim 1, is characterized in that: the Shield blanket shell of Shield blanket, Shield blanket coldplate all adopt low activation ferrite/martensite Steel material to make.