CN115019989A - Special type removes nuclear supply vehicle - Google Patents

Abstract

The invention discloses a special mobile nuclear power supply vehicle, which relates to the field of mobile power supplies and comprises: the system comprises a chassis vehicle, a shelter, a control system, a heat pipe reactor main body, a dynamic and static combined energy conversion system, a composite energy storage device, a modular cooling system, a pressure-bearing protective shell, a cable system and a high-temperature alkali metal heat pipe; the invention combines the microminiature nuclear power and the composite energy storage system, so that the advantages of the microminiature nuclear power and the composite energy storage system are complementary, and the leap of the mobile power supply vehicle technology is realized. The special mobile nuclear power supply vehicle system gets rid of the dependence on fuel supply, can continuously provide stable power output for a long time, and meets the application requirements of army field long-term tasks and the requirements of novel weaponry on long-term endurance and high power density energy power.

Description

Special type removes nuclear supply vehicle

Technical Field

The invention relates to the technical field of mobile power supplies, in particular to a special mobile nuclear power supply vehicle.

Background

The portable power source vehicle is power supply equipment configured for meeting the power demand of high-power utilization parts in field operations, is a vehicle-mounted power generation device, is generally powered by an engine to drive a generator to generate power, needs to be installed on a vehicle, is transported by the vehicle, and can be stopped at any time according to the operation needs to start, operate and supply power for the power utilization parts. The system can be applied to rescue and relief work, field exploration, engineering operation, handling of emergencies, providing power guarantee for remote areas and the like.

The novel radar system and the photoelectric system of army equipment consume huge power, under the condition of high-strength countermeasure, the normal operation of the novel radar system and the photoelectric system consumes massive power resources, and energy weapons such as lasers, electromagnetic guns and the like are more consumers of electricity. The novel weaponry puts long-endurance, high-reliability and high-power requirements on energy supply.

The traditional gasoline and diesel mobile power generation system is simple in mode, but is limited by fuel reserves, and the use of the traditional gasoline and diesel mobile power generation system in long-term field tasks is limited by the problem of fuel supply. The battery power mode has the disadvantages of low energy density, large volume and weight, long recharging time and the like, and is difficult to meet the long-term continuous power supply requirement. The solar emergency power generation car takes the high-efficiency solar panel as a power supply source, is a representative of green environmental protection, is greatly influenced by environmental factors, is difficult to provide stable power supply in the field, and has low power density, so that the use of the solar emergency power generation car is also greatly limited. The novel radar system and the photoelectric system of army equipment consume huge power, under the condition of high-strength countermeasure, the normal operation of the novel radar system and the photoelectric system consumes massive power resources, and energy weapons such as lasers, electromagnetic guns and the like are more consumers of electricity. In conclusion, the traditional power supply vehicle system is difficult to meet the application requirements of army field long-term tasks and the requirements of novel weaponry on long-endurance and high-power-density energy power. Therefore, how to overcome the above problems is a problem that needs to be solved by those skilled in the art.

Disclosure of Invention

In view of this, the invention provides a special mobile nuclear power supply vehicle, which overcomes the defects.

In order to achieve the above purpose, the invention provides the following technical scheme:

a special mobile nuclear power cart comprising: the system comprises a chassis vehicle, a shelter, a control system, a heat pipe reactor main body, a dynamic and static combined energy conversion system, a composite energy storage device, a modular cooling system, a pressure-bearing protective shell, a cable system and a high-temperature alkali metal heat pipe;

the chassis vehicle is used for bearing the shelter and moving the shelter to a destination;

the shelter is used for accommodating each system and providing protection for each system;

the control system is used for controlling the allocation of each system and the electrical system;

the heat pipe reactor main body generates huge energy through nuclear fission, and transfers heat to the dynamic and static combination energy conversion system through the high-temperature alkali metal heat pipe;

the dynamic and static combined energy conversion system is used for converting heat transferred by the high-temperature alkali metal heat pipe into electric energy;

the composite energy storage device is used for storing the electric energy generated by the dynamic and static combined energy conversion system;

the modularized cooling system is used for removing the residual heat of the dynamic and static combined energy conversion system;

the pressure-bearing protective shell is used for protecting the heat pipe reactor main body and avoiding the leakage of radiation substances;

the cable system is used for automatically recovering and releasing the flexible cable and outputting power.

Optionally, the shelter is a multi-layer shelter body, the interior of the shelter body is filled with heat insulation materials and/or sound absorption materials, and the outer side of the shelter body is coated with intelligent coating.

Optionally, the control system is further configured to perform autonomous and intelligent control on the heat pipe reactor main body.

Optionally, the heat pipe reactor main body adopts a solid reactor core, and safety control is realized by controlling the rotary drum and the control rod.

Optionally, the dynamic and static combined energy conversion system comprises an opposed stirling thermoelectric converter and a cascaded semiconductor thermoelectric power generation sheet set, the opposed stirling thermoelectric converter is used for forming a dynamic thermoelectric conversion module, and the cascaded semiconductor thermoelectric power generation sheet set is used for forming a static thermoelectric conversion module.

Optionally, the static thermoelectric conversion module and/or the dynamic thermoelectric conversion module are selectively activated according to the operating power of the solid core.

Optionally, the plurality of high-temperature alkali metal heat pipes are divided into two groups, a condensing end of one group of high-temperature alkali metal heat pipes is connected with the opposed stirling thermoelectric converter, and a condensing end of the other group of high-temperature alkali metal heat pipes is connected with the cascade semiconductor thermoelectric power generation sheet group.

Optionally, the high-temperature alkali metal heat pipe takes high-purity potassium as a working medium; the pipe material of the high-temperature alkali metal heat pipe is Haynes 230, and a Haynes 230 wick is sintered in the high-temperature alkali metal heat pipe.

Optionally, the composite energy storage device includes a lithium battery pack, a UPS module, a super capacitor, and a control module; the lithium battery pack and the super capacitor are respectively used for storing electric power generated by the dynamic and static combined energy conversion system for a long time and a short time, outputting the electric power externally through the UPS module, and adjusting the whole electric power transmission and distribution through the control module.

Optionally, the cable system adopts an automatic winding mechanism for automatically recovering and releasing the cable.

According to the technical scheme, compared with the prior art, the invention discloses the special mobile nuclear power supply vehicle, firstly, the multipurpose small heat pipe reactor power supply technology is adopted, the power supply vehicle has the great advantages of long endurance, compact structure, strong environmental adaptability, high inherent safety and the like, can continuously provide stable high-power and high-quality power output, and meets various task requirements. Secondly, the microminiature nuclear power and the composite energy storage system are combined, so that the advantages of the microminiature nuclear power and the composite energy storage system are complementary, and the leap of the mobile power supply vehicle technology is realized. The special mobile nuclear power supply vehicle system gets rid of the dependence on fuel supply, can continuously provide stable power output for a long time, and meets the application requirements of army field long-term tasks and the requirements of novel weaponry on long-term endurance and high power density energy power. In addition, the present invention may be applied to fragmented energy supply in remote areas.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a special mobile nuclear power supply vehicle according to the present invention;

FIG. 2 is a front view of a heat pipe reactor body of a special mobile nuclear power truck according to the present invention;

wherein, 1 is a chassis vehicle; 2 is a control system; 3 is a composite energy storage device; 4 is a square cabin; 5 is a modular cooling system; 6, a pressure-bearing protective shell; 7 is a cable system; 8 is a quick junction box; 9 is a heat pipe reactor main body; 10 is a supporting seat; 11 is a dynamic thermoelectric conversion module; 12 is a reactor core; 13 is a static thermoelectric conversion module; 14 is a high temperature alkali metal heat pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The embodiment of the invention discloses a special mobile nuclear power supply vehicle, which comprises a chassis vehicle 1, a control system 2, a composite energy storage device 3, a shelter 4, a modular cooling system 5, a pressure-bearing protective shell 6, a cable system 7, a quick junction box 8, a heat pipe reactor main body 9, a supporting seat 10, a dynamic thermoelectric conversion module 11, a reactor core 12, a static thermoelectric conversion module 13 and a high-temperature alkali metal heat pipe 14, wherein the composite energy storage device 3 is arranged on the chassis vehicle;

the chassis truck 1 is used for bearing the whole system and meets the mobile target.

And a shelter 4 which is arranged above the chassis 1, is used for accommodating various systems and provides reliable protection.

The control system 2 is used for controlling each actuating mechanism and each sensor system of the power supply vehicle to realize the monitoring of each system of the whole vehicle; and on the other hand, the intelligent control system is used for allocating the electrical system and realizing the intelligent control of the electrical system. The reactor intelligent control module is equipped to control the safe operation of the reactor and the safe shutdown in emergency.

And the composite energy storage device 3 is used for storing and allocating electric energy generated by the dynamic and static combined energy conversion system and supplying power and electric power output to the chassis vehicle 1.

The modularized cooling system 5 is used as a cold trap of a dynamic and static combined energy conversion system, and simultaneously ensures the waste heat removal of the heat pipe reactor main body 9.

And the pressure-bearing protective shell 6 is coated on the outer side of the heat pipe reactor main body 9 and used for supporting and protecting the heat pipe reactor main body 9 and avoiding the leakage of radiation substances.

The dynamic thermoelectric conversion module 11 and the static thermoelectric conversion module 13 constitute a dynamic and static combined energy conversion system, as shown in fig. 2, and are connected to the reactor core 12 through the high temperature alkali metal heat pipe 14, so as to convert heat transferred by the reactor core 12 into electric energy.

And the cable system 7 is used for outputting electric power to the outside.

A support base 10 for keeping the chassis 1 stable and horizontal

In the embodiment, the heat pipe reactor is used for replacing the traditional diesel motor, so that the system has the great advantages of long endurance, compact structure, strong environmental adaptability, high inherent safety and the like, can continuously provide stable high-power and high-quality power output, and meets various task requirements. The microminiature nuclear power and the composite energy storage device 3 are combined, so that the advantages of the microminiature nuclear power and the composite energy storage device are complementary, and the leap of the mobile power supply vehicle technology is realized.

In the present embodiment, the chassis 1 is a 30-ton van; the wheels are driven by a motor, and the power of the motor is provided by a composite energy storage device 3 and is controlled by a control system 2.

In this embodiment, the shelter 4 is a 4-layer type cabin body filled with heat-insulating and sound-damping materials, has the functions of sound insulation, fire prevention and explosion resistance, and is coated with intelligent paint on the outer surface of the carriage, so that the whole vehicle is integrated with the surrounding natural background in all weather, all processes and all time.

In the present embodiment, the control system 2 is composed of a primary cabinet, a control cabinet, an output board, and the like.

In this embodiment, the heat pipe reactor body is a solid core, the safety control of the reactor is realized by controlling the rotating drum and the control rods, and the heat generated by the reactor core is extracted through the high-temperature alkali metal heat pipe 14.

In this embodiment, the high temperature alkali metal heat pipe 14 uses high purity potassium as a working medium; the pipe of the high-temperature alkali metal heat pipe 14 is Haynes 230, and a Haynes 230 wick is sintered in the high-temperature alkali metal heat pipe 14.

In this embodiment, the dynamic-static combined energy conversion system includes 6 pairs of opposed stirling thermoelectric converters and cascaded semiconductor thermoelectric power generation sheet sets, the opposed stirling thermoelectric converters are used for forming the dynamic thermoelectric conversion module 11, and the cascaded semiconductor thermoelectric power generation sheet sets are used for forming the static thermoelectric conversion module 13; the plurality of high-temperature alkali metal heat pipes 14 are divided into 2 groups, wherein the condensation ends of the first group of the plurality of high-temperature alkali metal heat pipes 14 are connected with the opposed Stirling thermoelectric converter, and the condensation ends of the second group of the plurality of high-temperature alkali metal heat pipes 14 are connected with the cascade semiconductor thermoelectric generation sheet group; the reactor core of the special mobile nuclear power supply vehicle runs at low power in a low power output mode, only the static thermoelectric conversion module 13 is started, and the reactor core runs at full power in a high power output mode, and simultaneously the static thermoelectric conversion module 13 and the dynamic thermoelectric conversion module 11 are started.

In this embodiment, the modular cooling system 5 drives the fan to rotate by powering on the motor, so that the cooling air enters from two sides of the whole cabin body, flows through the radiator and is discharged from the top surface to take away heat. The cooling water enters the radiator through the dynamic and static combined energy conversion system respectively and exchanges heat with cooling air in the radiator.

In this embodiment, the composite energy storage device 3 is composed of a lithium battery pack, a UPS module, a super capacitor, and a control module.

In this embodiment, the cable system 7 is an automatic winding mechanism, and the motor and the transmission mechanism are controlled by a wireless remote control device or a function button on a panel of the automatic winding machine to drive the cable turntable to rotate forward or backward, so as to achieve the purpose of automatically recovering and releasing the cable, thereby greatly improving the automation degree and the operation efficiency of the system.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a special type removes nuclear power supply car which characterized in that includes: the system comprises a chassis truck (1), a shelter (4), a control system (2), a heat pipe reactor main body (9), a dynamic and static combination energy conversion system, a composite energy storage device (3), a modular cooling system (5), a pressure-bearing protective shell (6), a cable system (7) and a high-temperature alkali metal heat pipe (14);

the chassis (1) is used for carrying the square cabin (4) and moving the square cabin (4) to a destination;

the shelter (4) is used for accommodating each system and providing protection for each system;

the control system (2) is used for controlling the allocation of each system and the electrical system;

the heat pipe reactor main body (9) generates huge energy through nuclear fission, and transfers heat to the dynamic and static combination energy conversion system through the high-temperature alkali metal heat pipe (14);

the dynamic and static combined energy conversion system is used for converting heat transferred by the high-temperature alkali metal heat pipe (14) into electric energy;

the composite energy storage device (3) is used for storing electric energy generated by the dynamic and static combined energy conversion system;

the modularized cooling system (5) is used for removing waste heat of the dynamic and static combined energy conversion system and leading out the waste heat under the condition of a reactor accident;

the pressure-bearing protective shell (6) is used for protecting the heat pipe reactor main body (9) and simultaneously avoiding the leakage of radiation substances;

and the cable system (7) is used for automatically recovering and discharging the flexible cable and outputting power.

2. A special mobile nuclear power supply vehicle according to claim 1, characterized in that the square cabin (4) is a multi-layer cabin body, which is filled with heat insulating and/or sound deadening materials and coated with smart paint.

3. A special mobile nuclear power supply vehicle according to claim 1 or 2, characterised in that the control system (2) is also adapted to perform autonomous intelligent control of the heat pipe reactor body (9).

4. A special mobile nuclear power supply as claimed in claim 3, wherein the heat pipe reactor body (9) incorporates a solid core, and is controlled safely by control drums and control rods.

5. A special mobile nuclear power supply vehicle according to claim 4, wherein said hybrid energy conversion system comprises opposed Stirling thermoelectric converters and cascaded semiconductor thermoelectric power generation stacks, said opposed Stirling thermoelectric converters being arranged to form dynamic thermoelectric conversion modules (11), said cascaded semiconductor thermoelectric power generation stacks being arranged to form static thermoelectric conversion modules (13).

6. A special mobile nuclear power cart according to claim 5, wherein the static thermoelectric conversion modules (13) and/or the dynamic thermoelectric conversion modules (11) are selectively activated according to the operating power of the solid state core.

7. A special mobile nuclear power supply vehicle according to claim 5, wherein the plurality of high temperature alkali metal heat pipes (14) are divided into two groups, the condensation end of one group of high temperature alkali metal heat pipes (14) is connected with the opposed Stirling thermoelectric converter, and the condensation end of the other group of high temperature alkali metal heat pipes (14) is connected with the cascade semiconductor thermoelectric generation sheet group.

8. A special mobile nuclear power supply vehicle according to any one of claims 1 to 2 or 4 to 7, characterised in that the high temperature alkali metal heat pipes (14) use high purity potassium as working medium; the pipe of the high-temperature alkali metal heat pipe (14) is Haynes 230, and a Haynes 230 wick is sintered in the high-temperature alkali metal heat pipe (14).

9. A special mobile nuclear power supply vehicle according to claim 8, characterized in that said hybrid energy storage means (3) comprise a lithium battery pack, a UPS module, a super capacitor, a control module; the lithium battery pack and the super capacitor are used for storing electric power generated by the dynamic and static combined energy conversion system, outputting electric power to the outside through the UPS module, and adjusting the whole electric power transmission and distribution through the control module.

10. A special mobile nuclear power supply vehicle according to claim 1, characterised in that the cable system (7) comprises an automatic winding mechanism for automatic recovery and deployment of the cables.

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