CN108565035A - A kind of radwaste bucket having self-supporting power - Google Patents

Abstract

The present invention discloses a kind of radwaste bucket having self-supporting power, including metal shell, and the containment drum for holding radioactive source is equipped in metal shell, radwaste is filled in containment drum；Containment drum is made of heat-insulating material；The baffle for the radiant of radwaste to be changed into thermal energy is connected on containment drum inner wall, thermoelectric material is filled between baffle and containment drum inner wall, it is connected by the first plain conductor between thermoelectric material and metal shell, the second plain conductor is equipped in thermoelectric material, the second plain conductor other end is extend out to outside metal shell, and metal shell itself is connected with a third plain conductor extending out to outside metal shell.Conducting between thermoelectric material and metal shell is generated voltage by each plain conductor, radwaste bucket is set to have the function of " supplying cell ", thermoelectric material is anode, metal shell is battery cathode, monitoring system for its outfit provides working power, it realizes self-powered, reduces the monitoring cost of radwaste bucket.

Description

A radioactive waste barrel with self-sufficient power supply

technical field

The invention belongs to the technical field of nuclear power, and in particular relates to a radioactive waste barrel with a self-supporting power supply.

Background technique

While nuclear power brings huge economic benefits to people, the technological wastes produced during the working process, such as enriched uranium, sludge, and waste water-saturated resins, and a large amount of absorbent paper, wet rags, and plastic sheets produced during the maintenance and overhaul process , cotton products, waste wood, construction waste and metal waste, etc., all have certain radioactivity. When processing these radioactive materials, they need to be temporarily stored in radioactive waste barrels or need to be transported in radioactive waste barrels. During the process of being temporarily stored in radioactive waste barrels, these radioactive substances are still radiating their energy to In the outside world, on the one hand, the radiation energy has not been contained or absorbed during its decay period, which will cause radioactive impact on the surrounding area; on the other hand, the radiation energy itself is wasted as a resource.

The most important thing is: the waste in the radioactive waste barrels is often subject to real-time wireless monitoring to prevent unforeseen and terrible consequences from being stolen, stolen or used by terrorists, and the radioactive waste barrels are usually filled with radioactive waste Finally, it is placed in a sparsely populated remote area, so that it is far away from the power supply. To achieve real-time wireless monitoring, it must be connected to the power supply from the outside, which will consume huge costs.

Contents of the invention

The purpose of the present invention is to overcome the above-mentioned deficiencies of the prior art and provide a radioactive waste barrel with a self-sufficient power supply, which can self-supply electric energy, provide electric energy for the monitoring system independently and "permanently", and greatly save the cost of radioactive waste monitoring .

The technical solution of the present invention is: a radioactive waste barrel with a self-sufficient power supply, which includes: a metal casing, a containing barrel for containing radioactive sources is arranged inside the metal casing, and the containing barrel is filled with radioactive waste; the containing barrel is made of heat insulating material Made; the inner wall of the storage barrel is connected with a baffle for converting the radiant energy of radioactive waste into heat energy, the temperature difference material is filled between the baffle and the inner wall of the storage barrel, and the temperature difference material and the metal shell are connected through the first metal wire , the temperature difference material is also provided with a second metal wire, the other end of the second metal wire extends out of the metal casing, and the metal casing itself is connected with a third metal wire extending out of the metal casing.

The further technical solution of the present invention is: the containing barrel includes a barrel body and a cover, and the cover is used to close the barrel body.

A further technical solution of the present invention is: the baffle is made of aluminum material.

A further technical solution of the present invention is that the temperature difference material is a semiconductor thermoelectric material based on Seebeck effect, Thomson effect, Fourier effect and Peltier effect.

A further technical solution of the present invention is: the temperature difference material is bismuth telluride.

A further technical proposal of the present invention is: the shape of the temperature difference material is a cylindrical sheet.

A further technical solution of the present invention is: the temperature difference material is connected in any one of series, parallel or series-parallel combination.

Compared with the prior art, the present invention has the following characteristics:

1. The temperature difference material and the baffle are combined as the heat source; the metal shell is used as the cold source, combined with the setting method of the first metal metal wire, the second metal wire and the third metal wire, the conduction between the temperature difference material and the metal shell is generated to generate a voltage , so that the radioactive waste barrel of the present invention has the function of "power supply battery", wherein the temperature difference material is used as the positive pole of the battery, and the metal shell is used as the negative pole of the battery, which can provide working power for the monitoring system that the radioactive waste barrel itself needs to be equipped with, forming a form of self-sufficient electric energy, Greatly reduce the cost of monitoring radioactive waste barrels.

2. Connect other loads (related electronic equipment) between the second metal wire and the third metal wire, and the radioactive waste barrel as a "power supply battery" can also provide power in real time, quickly realizing the conversion of radiation energy into electrical energy.

3. Immediately convert the attenuated radiation energy of radioactive waste into electrical energy. On the one hand, the resources are fully utilized. On the other hand, the nuclear energy of these radioactive wastes (industrial waste, auxiliary materials, etc.) can be attenuated to a safe discharge level, effectively To achieve the purpose of ecological protection.

4. The containment barrel with a cover is convenient for storage and retrieval. The cover can be opened according to the attenuation period of the radioactive source and a new radioactive source can be put in again, so that the radioactive waste barrel can be used continuously.

The detailed structure of the present invention will be further described below in conjunction with the accompanying drawings and specific embodiments.

Description of drawings

Fig. 1 is the brief structural representation of described a kind of radioactive waste barrel with self-sufficient power supply;

Fig. 2 is a schematic diagram of the wiring structure in the radioactive waste barrel with self-sufficient power supply.

Detailed ways

Example

A kind of radioactive waste barrel with self-sufficient power supply, which is equipped with a real-time monitoring system, as shown in Figure 1, it includes a metal shell 1, the metal shell 1 has a containment barrel 2 for containing radioactive waste, and the containment barrel 2 is made of heat insulating material Made, the inner wall of the storage barrel 2 is connected with a baffle 3 for converting the radiant energy of radioactive waste into heat energy, and the temperature difference material 4 is filled between the baffle 3 and the inner wall of the storage barrel 2, as shown in Figure 2, the temperature difference material 4 It is connected with the metal shell 1 through the first metal wire 51. The temperature difference material 4 is also provided with a second metal wire 52. The other end of the second metal wire 52 extends out of the metal shell 1. The metal shell 1 itself is connected to a A third metal wire 53 protruding to the outside of the metal casing.

A radioactive waste barrel with a self-sufficient power supply of the present invention can instantly convert the radiant energy of radioactive waste into electrical energy through the above-mentioned structural arrangement, and the radioactive waste barrel itself is equivalent to a power supply battery, wherein the second metal wire 52 protrudes to the outside of the metal casing 1 The end of the third metal wire 53 extending out of the metal shell is used as the negative terminal of the power supply battery.

As a "power supply battery", the radioactive waste barrel can provide working power for the matching real-time monitoring system in real time, forming a form of self-power supply, which greatly reduces the monitoring cost of the radioactive waste barrel.

Of course, the radioactive waste barrel can also be used as a power supply for other relevant electronic equipment, and only the relevant electronic equipment needs to be connected between the second metal wire and the third metal wire.

Specifically, the holding barrel 2 made of heat insulating material confines the radiant energy of radioactive waste in the metal casing 1 , and the radioactive waste emits decay heat to heat the baffle 3 , that is, the radiant energy is converted into heat energy through the baffle 3 .

The temperature difference material 4 is close to the baffle plate 3 as the heat source of the "power supply battery", and the metal casing 1 is used as the cold source. The "power supply battery" is the temperature difference battery, and its heat is transported from the end of the high temperature temperature difference material 4 through the first metal wire 51 While reaching the end of the metal case 1 with low temperature, a voltage is generated on the temperature difference material 4 and the metal case 1 (thermoelectric conversion), and the temperature difference material 4 is used as the positive electrode of the battery, and the metal case 1 is used as the negative electrode. The two constitute the "power supply battery". ends.

The first metal wire 51, the second metal wire 52, and the third metal wire 53 need to be vertically wired in the middle between the temperature difference material 4 and the metal casing 1, so that the line shape is regular and beautiful, and it is also convenient for later maintenance.

The second metal wire 52 and the third metal wire 53 adopt the same metal material (wherein the metal material that the first metal wire, the second metal wire and the third metal wire adopts can be any metal material that can conduct electricity, no specific material) limit).

In order to realize the function of the storage barrel 2 to facilitate storage and retrieval, the storage barrel 2 is designed to include a barrel body 21 and a cover 22, and the cover 22 is used to close the barrel body 21 (of course, the metal shell also has a corresponding movable opening for closing the cover. open and close), the cover 22 can be opened according to the decay period of the radioactive source and put into new radioactive waste again, so that the radioactive waste barrel can be used sustainably.

In this embodiment, the baffle plate 3 is made of aluminum material with high thermal conductivity. Compared with conventional metals such as iron, its thermal conductivity is several times higher, and it is most suitable for the working state of the radioactive waste barrel of the present invention as a "power supply battery". .

The characteristics of the temperature difference material 4 (that is, the thermoelectric conversion material) generally require low internal resistance to reduce the loss (heat generation) generated by the internal current, low thermal conductivity (thermal conductivity) to reduce heat conduction from the high temperature end to the low temperature end, and high Thermoelectromotive force (open circuit), preferably semiconductor thermoelectric material based on Seebeck effect, Thomson effect, Fourier effect and Peltier effect, with good thermoelectric value of merit. In this embodiment, the temperature difference material is bismuth telluride in the shape of a cylindrical sheet .

Specifically, the bismuth telluride temperature difference material is connected in any one of series, parallel or a combination of series and parallel.

The working principle of the radioactive waste barrel with self-sufficient power supply in the present invention is as follows: the radioactive waste in the storage barrel 2 emits decay heat, heats the aluminum material baffle 3, and the bismuth telluride temperature difference material 4 is close to the aluminum material baffle 3 is used as a heat source, and the metal shell 1 is used as a cold source to perform thermoelectric conversion. After connecting the positive and negative electrodes of all temperature difference materials, they are connected to the real-time monitoring system to form a current, that is, the conversion of radiant energy to electrical energy is realized. The real-time monitoring system can realize real-time monitoring. Ensuring the safety of radioactive waste.

The present invention is not limited to the above-mentioned specific structure or connection method, as long as it is a radioactive waste barrel with basically the same structure or connection method as the present invention, it falls within the protection scope of the present invention.

Claims (7)

1. A radioactive waste barrel with self-sufficient power supply, characterized in that: it includes a metal casing (1), the metal casing (1) is provided with a containing barrel (2) for containing radioactive sources, and the containing barrel (2) is filled with There is radioactive waste; the holding barrel (2) is made of heat insulating material; the inner wall of the holding barrel (2) is connected with a baffle (3) for converting the radiation energy of the radioactive waste into heat energy, and the space between the baffle and the inner wall of the holding barrel is filled There is a temperature difference material (4), and the temperature difference material (4) is connected to the metal shell (1) through a first metal wire (51). The temperature difference material (4) is also provided with a second metal wire (52). The other end of the metal wire (52) extends out of the metal casing (1), and the metal casing (1) itself is connected with a third metal wire (53) extending out of the metal casing. 2. A radioactive waste barrel with self-sufficient power supply according to claim 1, characterized in that: the containing barrel (2) includes a barrel body (21) and a cover (22), and the cover is used to close the barrel body. 3. A radioactive waste barrel with self-sufficient power supply according to claim 1, characterized in that: the baffle (3) is made of aluminum material. 4. A radioactive waste barrel with self-sufficient power supply according to claim 1, characterized in that: the temperature difference material (4) is a semiconductor based on Seebeck effect, Thomson effect, Fourier effect and Peltier effect thermoelectric materials. 5. A radioactive waste barrel with self-sufficient power supply according to claim 4, characterized in that: the temperature difference material (4) is bismuth telluride. 6. A radioactive waste barrel with self-sufficient power supply according to claim 4 or 5, characterized in that: the temperature difference material (4) is in the shape of a cylindrical sheet. 7. A radioactive waste barrel with a self-sufficient power supply according to claim 1, characterized in that: the temperature difference material (4) is connected in any one of series, parallel or series-parallel combination.