CN111142412B - Control platform and method suitable for marine nuclear power platform - Google Patents
Control platform and method suitable for marine nuclear power platform Download PDFInfo
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- CN111142412B CN111142412B CN201911083922.2A CN201911083922A CN111142412B CN 111142412 B CN111142412 B CN 111142412B CN 201911083922 A CN201911083922 A CN 201911083922A CN 111142412 B CN111142412 B CN 111142412B
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- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
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- G05B19/04—Programme control other than numerical control, i.e. in sequence controllers or logic controllers
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- G—PHYSICS
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- G05G—CONTROL DEVICES OR SYSTEMS INSOFAR AS CHARACTERISED BY MECHANICAL FEATURES ONLY
- G05G1/00—Controlling members, e.g. knobs or handles; Assemblies or arrangements thereof; Indicating position of controlling members
- G05G1/02—Controlling members for hand actuation by linear movement, e.g. push buttons
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Abstract
The invention provides a control platform and a method suitable for an ocean nuclear power platform, belonging to the technical field of ocean nuclear power platform operation and comprising the following steps: the marine nuclear power platform comprises an offshore platform control end and a shore-based control end which are in communication connection with the marine nuclear power platform, wherein the offshore platform control end and the shore-based control end are in communication connection based on a 5G technology, and the marine nuclear power platform sends real-time operation data to the offshore platform control end and the shore-based control end simultaneously; the shore-based control end sends the control command to the ocean platform control end and the ocean platform control end sends the control command to the ocean nuclear power platform to control the operation of the ocean nuclear power platform. The invention has the beneficial effects that: the realization is controlled the long-range intelligence of ocean nuclear power platform, and very big improvement operator's operational environment and system on duty can greatly reduce operator's human error and provide very big facility for remote technical support, very big promotion ocean nuclear power platform operation safety and economic nature.
Description
Technical Field
The invention relates to the technical field of operation of an ocean nuclear power platform, in particular to a control platform and a control method suitable for the ocean nuclear power platform.
Background
The marine nuclear power platform is a marine floating nuclear power station, 1 to 2 reactors with certain nuclear power are carried on one platform according to actual requirements, and certain product services are provided according to user requirements, such as power supply for a drilling platform, fresh water supply, island power supply, ocean fleet comprehensive guarantee, deep sea exploration, exploitation and power supply and the like. The ocean nuclear power platform has the characteristic of island operation, the facing ocean environment is extremely severe, and operators who operate the platform need to face the extremely severe working environment all the time, such as swinging, long-term life in extremely narrow space and long-term separation from the outside, and the like, so that the requirements on the psychological quality and the physical quality of the operators are extremely high. If the operation and control actions are carried out on the ocean nuclear power platform for a long time, operators are easy to have many errors, and therefore the nuclear safety and the economical efficiency of the operation of the ocean nuclear power platform are affected.
The 5G technology is the latest generation of cellular mobile technology, and has the advantages of high data transmission rate, very little delay, energy saving, cost reduction, system capacity improvement and large-scale equipment connection. How to solve the current problem of difficult control of the marine nuclear power platform by utilizing the above advantages of the 5G technology becomes a problem to be solved urgently.
Disclosure of Invention
Aiming at the problems in the prior art, the invention discloses an operation platform suitable for an ocean nuclear power platform, which can realize remote intelligent operation and control of the ocean nuclear power platform, greatly improve the working environment and the duty system of an operator, greatly reduce the human error of the operator, provide great convenience for remote technical support and greatly improve the operation safety and the economical efficiency of the ocean nuclear power platform.
The invention adopts the following technical scheme:
a control platform suitable for an ocean nuclear power platform is used for controlling the ocean nuclear power platform; the manipulation platform comprises:
the marine nuclear power platform comprises an offshore platform control end and a shore-based control end which are in 5G communication connection with the marine nuclear power platform, wherein the offshore platform control end and the shore-based control end are in communication connection based on a 5G technology, and the marine nuclear power platform sends real-time operation data to the offshore platform control end and the shore-based control end simultaneously;
the shore-based control end is used for providing a shore operator to check the real-time operation data and input a shore control instruction, sending the shore control instruction to the offshore platform control end, and forwarding the offshore platform control end to the marine nuclear power platform to control the operation of the offshore platform control end.
Preferably, when no offshore operator is arranged at the offshore platform manipulating end, after the shore-based manipulating end sends the shore-based manipulating command to the offshore platform manipulating end, the offshore platform manipulating end directly forwards the shore-based manipulating command to the offshore nuclear power platform to control the operation of the offshore nuclear power platform.
Preferably, when an offshore operator is arranged at the offshore platform manipulating end, the shore-based manipulating end sends the shore manipulation command to the offshore platform manipulating end, the offshore platform manipulating end synchronously displays the shore manipulation command for the offshore operator to view, the offshore operator inputs a confirmation command and then forwards the shore manipulation command to the offshore nuclear power platform to control the offshore nuclear power platform to operate, and the offshore operator inputs a negative command and then does not forward the shore manipulation command.
Preferably, the offshore platform maneuvering terminal is further used for providing an offshore operator with viewing the real-time operation data and inputting an offshore maneuvering command, and sending the offshore maneuvering command to the offshore nuclear power platform to control the operation of the offshore platform;
and the marine platform control end is also used for sending the marine control command to the shore-based control end for synchronous display.
Preferably, the shore-based control end is further configured to provide a shore operator with viewing of the real-time operation data and the offshore control instruction, and provide the shore operator with inputting of the shore control instruction according to the real-time operation data and the offshore control instruction, the shore-based control end sends the shore control instruction to the offshore platform control end for synchronous display so as to provide viewing for the offshore operator, and after the offshore operator inputs a confirmation instruction, the shore control instruction is forwarded to the offshore nuclear power platform to control the operation of the offshore nuclear power platform, and after the offshore operator inputs a negative instruction, the shore control instruction is not forwarded.
Preferably, the manipulation end of the offshore platform is composed of a first display screen and a first manipulation button assembly;
the shore-based control end is composed of a second display screen and a second control button assembly;
the hardware configuration of the offshore platform control end and the shore-based control end is the same.
A control method suitable for an ocean nuclear power platform is used for controlling the ocean nuclear power platform; the control method comprises the following steps:
step S1a, providing an offshore platform control end and a shore-based control end, wherein the offshore platform control end and the shore-based control end are respectively in communication connection with the offshore nuclear power platform based on a 5G technology, and the offshore platform control end and the shore-based control end are in communication connection based on the 5G technology;
s2a, the marine nuclear power platform sends real-time operation data to the shore-based control end for display;
and S3a, the shore-based control end provides a shore operator with the real-time operation data to check and input the shore control instruction, and sends the shore control instruction to the offshore platform control end, and the offshore platform control end forwards the offshore platform control instruction to the offshore nuclear power platform to control the operation of the offshore platform.
A control method suitable for an ocean nuclear power platform is used for controlling the ocean nuclear power platform; the control method comprises the following steps:
step S1b, providing an offshore platform control end and a shore-based control end, wherein the offshore platform control end and the shore-based control end are respectively in communication connection with the offshore nuclear power platform based on a 5G technology, and the offshore platform control end and the shore-based control end are in communication connection based on the 5G technology;
s2b, the marine nuclear power platform sends real-time operation data to the offshore platform control end and the shore-based control end simultaneously for displaying;
and S3b, the shore-based control end provides a shore operator with real-time operation data to check and inputs a shore control instruction, the shore control instruction is sent to the offshore platform control end to be synchronously displayed so as to be provided for the offshore operator to check, the shore control instruction is transmitted to the offshore nuclear power platform to control the offshore nuclear power platform to operate after the offshore operator inputs a confirmation instruction, and the shore control instruction is not transmitted after the offshore operator inputs a negative instruction.
A control method suitable for an ocean nuclear power platform is used for controlling the ocean nuclear power platform; the control method comprises the following steps:
step S1c, providing an offshore platform control end and a shore-based control end, wherein the offshore platform control end and the shore-based control end are respectively in communication connection with the offshore nuclear power platform based on a 5G technology, and the offshore platform control end and the shore-based control end are in communication connection based on the 5G technology;
s2c, the marine nuclear power platform sends real-time operation data to the offshore platform control end and the shore-based control end simultaneously for displaying;
and S3c, the offshore platform control end provides an offshore operator with the real-time operation data and inputs an offshore control command, and the offshore control command is sent to the shore-based control end to be synchronously displayed so as to be provided for the onshore operator to view.
Preferably, the control method suitable for the marine nuclear power platform further comprises the following steps:
and S4c, inputting an onshore control instruction by an onshore operator according to the real-time operation data and the offshore control instruction, sending the onshore control instruction to the offshore platform control end by the shore-based control end for synchronous display so as to be provided for the offshore operator to check, forwarding the onshore control instruction to the offshore nuclear power platform to control the offshore nuclear power platform to operate after the offshore operator inputs a confirmation instruction, and not forwarding the onshore control instruction after the offshore operator inputs a negative instruction.
The invention has the beneficial effects that: the realization is controlled the long-range intelligence of ocean nuclear power platform, and very big improvement operator's operational environment and system on duty can greatly reduce operator's human error and provide very big facility for remote technical support, very big promotion ocean nuclear power platform operation safety and economic nature.
Drawings
FIG. 1 is a schematic diagram of the connection between a control platform and an offshore nuclear power platform suitable for use in an offshore nuclear power platform according to a preferred embodiment of the present invention;
FIG. 2 is a flow chart of a method for operating a marine nuclear power platform, according to a preferred embodiment of the present invention;
FIG. 3 is a flow chart of a method for operating a marine nuclear power platform, according to a preferred embodiment of the present invention;
fig. 4 is a flow chart of a method for operating an offshore nuclear power platform according to a preferred embodiment of the invention.
Reference numerals:
the marine nuclear power platform comprises an ocean nuclear power platform 1, an offshore platform control end 2, a shore-based control end 3, a first display screen 4, a first control button assembly 5, a second display screen 6 and a second control button assembly 7.
Detailed Description
In the following embodiments, the technical features may be combined with each other without conflict.
The following further describes embodiments of the present invention with reference to the drawings:
the 5G technology is a latest generation cellular mobile technology, and has the functions of high data transmission rate, little delay, energy saving, cost reduction, system capacity improvement and large-scale equipment connection. The advantages of the 5G technology can be well used for reference in an operation system of the marine nuclear power platform 1, on-site real-time operation data is quickly transmitted to a screen of the land-based operation system in real time by the 5G technology, an operator can perform remote operation according to real-time display data, marine operation instructions are quickly transmitted to the operation system of the marine nuclear power platform 1 through an operation end 2 of the marine platform in real time by the 5G technology to execute relevant actions, the marine nuclear power platform 1 can be remotely controlled, the working environment of marine operators is greatly improved, if three shifts of the operators in the onshore nuclear power plant (returning home for one day on two days), human errors of the marine operators can be greatly reduced, and the safety and the economy of the marine nuclear power platform 1 are further improved.
The invention provides an operation platform which meets the island operation requirement of an ocean nuclear power platform 1 and can realize remote operation by adopting a 5G technology.
As shown in fig. 1, a control platform and a method suitable for an ocean nuclear power platform 1 are used for controlling the ocean nuclear power platform 1; the above-mentioned control platform includes:
the offshore nuclear power platform comprises an offshore platform control end 2 and a shore-based control end 3 which are in 5G communication connection with the offshore nuclear power platform 1, wherein the offshore platform control end 2 and the shore-based control end 3 are in communication connection based on a 5G technology, and based on the characteristic of delayed transmission of a 5G communication technology section, the offshore nuclear power platform 1 sends real-time operation data to the offshore platform control end 2 and the shore-based control end 3 at the same time, and the offshore platform control end 2 and the shore-based control end 3 can synchronously display the received real-time operation data in real time and synchronously. The execution end of the marine nuclear power platform 1 comprises a nuclear power device execution end, a platform execution end and a single-point mooring execution end. The nuclear power plant execution end mainly comprises a reactor, a primary loop, a secondary loop, a power generation module and a fresh water making module; the platform execution end is mainly used for controlling air conditioning, illumination and the like of the living cabin; the single-point mooring execution end is a single-point mooring system. Each execution end of the marine nuclear power platform 1 is provided with corresponding control, transmission, execution, signal acquisition and other sub-modules, such as a loop water level control system, an upper filling and lower draining system, a loop water level measurement component, a signal transmission channel and the like.
The offshore platform manipulation end 2 is used for providing an operator to check the real-time operation data and input an offshore manipulation instruction, and sending the offshore manipulation instruction to the marine nuclear power platform 1 to control the operation of the offshore platform, and the offshore platform manipulation end is also used for sending the offshore manipulation instruction to the shore-based manipulation end 3 to be displayed. The offshore platform manipulation end 2 can display an offshore manipulation instruction input by an offshore manipulator located on the offshore platform manipulation end 2, and meanwhile, based on the advantages of the 5G communication technology, if an onshore manipulation instruction sent by the shore-based manipulation end 3 is received, the offshore platform manipulation end 2 can also display an onshore manipulation instruction input by an onshore manipulator located on the shore-based manipulation end 3 through the shore-based manipulation end 3 in real time and synchronously.
The shore-based control terminal 3 is used for providing a shore operator to view the real-time operation data and input the shore control command, and sending the shore control command to the offshore platform control terminal 2, and the offshore platform control terminal 2 forwards the shore control command to the offshore nuclear power platform 1 to control the operation of the offshore platform, and the shore-based control terminal 3 is also used for sending the shore control command to the offshore platform control terminal 2 to be displayed. The shore-based control terminal 3 can display the shore control command input by the shore operator positioned at the shore-based control terminal 3, and meanwhile, based on the advantages of the 5G communication technology, if the offshore control command sent by the offshore platform control terminal 2 is received, the shore-based control terminal 3 can also display the offshore control command input by the offshore platform control terminal 2 by the offshore operator positioned at the offshore platform control terminal 2 in real time and synchronously. When marine environment is better, the operator on the sea can work under a more comfortable environment, can dispose relevant marine operator at offshore platform control end 2 and control marine nuclear power platform 1, the information of controlling adopts the 5G technique to transmit in real time to shore base control end control button display, can provide real-time accurate data supply and then better for marine nuclear power platform 1 operation provides technical support and guarantee for shore base technical support expert, can greatly reduce marine operator's human factor error and provide very big facility for remote technical support. When the marine environment is poor, an offshore operator is not needed to be arranged at the offshore platform control end 2, a certain number of emergency disposal personnel are arranged on the offshore platform control end 2, an onshore operator and technical support experts are arranged at the shore-based control end, so that the remote real-time control of the marine nuclear power platform 1 is realized, and the operation safety and the economy of the marine nuclear power platform 1 are greatly improved.
In addition, based on the advantages of the 5G communication technology, when only the shore-based control end 3 is provided with an offshore operator, the operator inputs an onshore control command through the shore-based control end 3, the shore-based control end 3 sends the onshore control command to the offshore platform control end 2 for real-time and synchronous display, and the offshore platform control end 2 directly forwards the onshore control command to the offshore nuclear power platform 1 to control the operation of the offshore nuclear power platform in real time. When an offshore operator is also arranged at the offshore platform control end 2, the onshore control command sent by the shore-based control end 3 is transmitted to the offshore nuclear power platform 1 to control the operation of the offshore nuclear power platform after the offshore operator confirms and inputs the confirmation command, and the onshore control command is not transmitted after the offshore operator inputs the negative command. The working environment and the duty system of an operator can be greatly improved, the remote real-time operation and control of the marine nuclear power platform are realized, and the operation safety and the economical efficiency of the marine nuclear power platform are greatly improved.
Further, the offshore platform manipulating end 2 is composed of a first display screen 4 and a first manipulating button assembly 5;
the shore-based control terminal 3 is composed of a second display screen 6 and a second control button assembly 7;
the hardware configuration of the offshore platform control end 2 is the same as that of the shore-based control end 3, the execution end of the marine nuclear power platform 1 adopts 5G technology to transmit real-time operation data generated in operation to the first display screen 4 of the offshore platform control end 2 and the second display screen 6 of the shore-based control end 3 in real time, and the real-time operation data are synchronously displayed on the first display screen 4 and the second display screen 6 based on 5G communication for the offshore operator and the shore operator to check.
The offshore control command input by the operator at the offshore platform control end 2 is displayed on the shore-based control end 3 in real time, and the shore-based control end 3 operator can also input the shore-based control command and transmit the shore-based control command to the offshore control end so as to transmit the shore-based control command to the execution end of the offshore nuclear power platform 1 to execute the relevant command.
When the marine environment is good, an operator can work in a comfortable environment, a relevant operator can be configured at the control end (namely the control end 2 of the marine platform) of the marine nuclear power platform 1 to control the platform, the control information is transmitted to the shore-based control end 3 (for example, a control button of the shore-based control end 3) in real time by adopting a 5G technology to be displayed, and real-time accurate data can be provided for a shore-based technical support expert so as to better provide technical support and guarantee for the operation of the marine nuclear power platform 1. After the operator inputs the manipulation command through the offshore platform manipulation end 2, the manipulation command is synchronously displayed on the first display screen 4 and the second display screen 6 based on 5G communication. If the first display screen 4 shows that the water level of the primary circuit is lower than the normal running value, the upper charging pump can be started to carry out water replenishing operation on the primary circuit, and the lower discharging system is closed to further achieve the purpose of increasing the water level of the primary circuit; if the water level of the primary circuit is higher than that of the normal operation, the charging system can be closed, and the discharging system can be opened to achieve the purpose of reducing the water level of the primary circuit.
When the marine environment is poor, an operator can be configured on the control end 2 of the marine platform, only a certain number of emergency treatment personnel are configured on the marine nuclear power platform 1, and an operator and technical support experts are configured on the shore-based control end 3, so that the remote real-time control of the marine nuclear power platform 1 is realized, and the operation safety and the economy of the marine nuclear power platform 1 are greatly improved. After the operator inputs the manipulation command through the shore-based manipulation terminal 3, the manipulation command is synchronously displayed on the first display 4 and the second display 6 based on 5G communication. The shore-based control end 3 and the offshore platform control end 2 are configured identically, for example, the same display screen and the same control button can be greatly improved in the control environment compared with the offshore platform control end 2, for example, technical support expert office positions are added. The operator can work at the shore-based control end (namely be the operator on the shore), remotely control the marine nuclear power platform 1 according to the real-time transmission operation data of the marine nuclear power platform 1, greatly improve the working environment and the living environment of the marine operator, greatly reduce human errors of the marine operator, provide a combined office place for technical support experts, the marine operator and the operator on the shore, and greatly improve the operation safety and further improve the economy of the marine nuclear power platform.
First embodiment
As shown in fig. 2, a control method for an ocean nuclear power platform is used for controlling the ocean nuclear power platform; the control method comprises the following steps:
step S1a, providing an offshore platform manipulating end 2 and a shore-based manipulating end 3, wherein the offshore platform manipulating end 2 and the shore-based manipulating end 3 are respectively in communication connection with the offshore nuclear power platform 1 based on a 5G technology, and the offshore platform manipulating end 2 and the shore-based manipulating end 3 are in communication connection based on the 5G technology;
step S2a, the ocean nuclear power platform 1 sends real-time operation data to the shore-based control end 3 for display;
step S3a, the shore-based control end 3 provides a shore operator with the real-time operation data and inputs a shore control command, and sends the shore control command to the offshore platform control end 2, and the offshore platform control end 2 forwards the shore control command to the marine nuclear power platform 1 to control the operation thereof.
In the embodiment, when the offshore environment is severe, an offshore operator is not arranged at the offshore platform control end 2, an onshore operator at the shore-based control end 3 inputs an onshore control command, the onshore control command is rapidly transmitted to the offshore platform control end 2 in real time by adopting a 5G technology, and the offshore platform control end 2 directly forwards the onshore control command to the offshore nuclear power platform 1 to control the operation of the offshore platform. The offshore platform control end 2 can also display the onshore control command in real time through the first display screen 4 and the first control button assembly 5. The working environment and the living environment of the marine operator can be greatly improved, the human error of the marine operator can be greatly reduced, the site of joint office is provided for technical support experts and onshore operators, and the operation safety is greatly improved, so that the economy of the marine nuclear power platform 1 is improved.
Second embodiment
As shown in fig. 3, a control method suitable for an ocean nuclear power platform is used for controlling the ocean nuclear power platform; the control method comprises the following steps:
step S1b, providing an offshore platform manipulating end 2 and a shore-based manipulating end 3, wherein the offshore platform manipulating end 2 and the shore-based manipulating end 3 are respectively in communication connection with the offshore nuclear power platform 1 based on a 5G technology, and the offshore platform manipulating end 2 and the shore-based manipulating end 3 are in communication connection based on the 5G technology;
step S2b, the marine nuclear power platform 1 sends real-time operation data to the offshore platform control end 2 and the shore-based control end 3 simultaneously for displaying;
step S3b, the shore-based control end 3 provides a shore operator with viewing the real-time operating data and inputting a shore control command, and sends the shore control command to the offshore platform control end 2 for synchronous display so as to be provided for the offshore operator to view, and after the offshore operator inputs a confirmation command, forwards the shore control command to the offshore nuclear power platform 1 to control the operation thereof, and after the offshore operator inputs a negative command, does not forward the shore control command.
In this embodiment, when an offshore operator is also arranged at the offshore platform control end 2, the onshore operator at the shore-based control end 3 inputs an onshore control command according to the real-time operation data, and rapidly transmits the onshore control command to the offshore platform control end 2 in real time by adopting a 5G technology, and the onshore control command is confirmed by the offshore platform control end 2 and then forwarded to the offshore nuclear power platform 1 to control the operation of the offshore nuclear power platform. The offshore platform manipulation end 2 can also display onshore control instructions in real time through the first display screen 4 and the first manipulation button assembly 5. The shore-based control terminal 3 can also display the offshore control command in real time through the second display screen 6 and the second control button assembly 7. The working environment and the living environment of the marine operator can be greatly improved, the human error of the marine operator can be greatly reduced, the site of joint office is provided for technical support experts and onshore operators, and the operation safety is greatly improved, so that the economy of the marine nuclear power platform 1 is improved.
Third embodiment
As shown in fig. 4, a control method suitable for an ocean nuclear power platform is used for controlling the ocean nuclear power platform; the control method comprises the following steps:
step S1c, providing an offshore platform manipulating end 2 and a shore-based manipulating end 3, wherein the offshore platform manipulating end 2 and the shore-based manipulating end 3 are respectively in communication connection with the offshore nuclear power platform 1 based on a 5G technology, and the offshore platform manipulating end 2 and the shore-based manipulating end 3 are in communication connection based on the 5G technology;
step S2c, the marine nuclear power platform 1 sends real-time operation data to the offshore platform control end 2 and the shore-based control end 3 simultaneously for displaying;
step S3c, the offshore platform console 2 provides the offshore operator with viewing the real-time operating data and inputting the offshore console command, and sends the offshore console command to the shore-based console 3 for synchronous display so as to provide the onshore operator with viewing.
Step S4c, the shore-based control terminal 3 transmits the shore-based control command to the offshore platform control terminal 2 to be synchronously displayed for the offshore operator to check, and after the offshore operator inputs the confirmation command, the shore-based control command is forwarded to the offshore nuclear power platform 1 to control the offshore nuclear power platform to operate, and after the offshore operator inputs the negative command, the shore-based control command is not forwarded.
In this embodiment, when an offshore operator is also arranged at the offshore platform control end 2, the onshore operator at the shore-based control end 3 inputs an onshore control instruction according to the real-time operation data and the offshore control instruction, and rapidly transmits the onshore control instruction to the offshore platform control end 2 in real time by adopting a 5G technology, and the onshore control instruction is confirmed by the offshore platform control end 2 and then forwarded to the offshore nuclear power platform 1 to control the operation of the offshore nuclear power platform. The offshore platform manipulation end 2 can also display the onshore manipulation instruction in real time through the first display screen 4 and the first manipulation button assembly 5. The shore-based control terminal 3 can also display the offshore control command in real time through the second display screen 6 and the second control button assembly 7. The working environment and the living environment of the marine operator can be greatly improved, the human error of the marine operator can be greatly reduced, the site of joint office is provided for technical support experts and onshore operators, and the operation safety is greatly improved, so that the economy of the marine nuclear power platform 1 is improved.
In conclusion, when the offshore environment is good, an operator at the offshore platform control end 2 inputs control instructions according to received real-time operation data, the control instructions are respectively sent to the offshore nuclear power platform 1 to control the operation of the offshore platform, the shore-based control end 3 is used for an operator at the shore-based control end 3 to check and select whether to input the control instructions, if the control instructions are input, the shore-based control end 3 sends the control instructions to the offshore platform control end 2, and the control instructions are displayed by the offshore platform control end 2 and forwarded to the offshore nuclear power platform 1 to control the operation of the offshore platform;
when the offshore environment is poor, an operator at the shore-based control end 3 inputs a control instruction according to received real-time operation data, sends the control instruction to the offshore platform control end 2, and the control instruction is displayed by the offshore platform control end 2 and forwarded to the offshore nuclear power platform 1 to control the operation of the offshore platform;
based on 5G communication, an operator can be flexibly arranged to the offshore platform control end 2 or the shore-based control end 3, remote intelligent control over the marine nuclear power platform 1 can be achieved, and the working environment and the duty system of the operator are greatly improved;
based on 5G communication, can show operating data and operating command in step at offshore platform control end 2 and bank base control end 3, can greatly reduce operator's human error, provide very big facility for remote technical support, very big promotion the operation safety and the economic nature of ocean nuclear power platform 1.
While the specification concludes with claims defining exemplary embodiments of particular structures for practicing the invention, it is believed that other modifications will be made in the spirit of the invention. While the invention has been described in connection with what is presently considered to be the preferred embodiment, it is not intended to be limited to the disclosed embodiment.
Various alterations and modifications will no doubt become apparent to those skilled in the art after having read the description. It is therefore intended that the appended claims be interpreted as covering all alterations and modifications as fall within the true spirit and scope of the invention. Any and all equivalent ranges and contents within the scope of the claims should be considered to be within the intent and scope of the present invention.
Claims (7)
1. A control platform suitable for an ocean nuclear power platform is used for controlling the ocean nuclear power platform; characterized in that, the control platform includes:
the marine nuclear power platform comprises an offshore platform control end and a shore-based control end which are in 5G communication connection with the marine nuclear power platform, wherein the offshore platform control end and the shore-based control end are in communication connection based on a 5G technology, and the marine nuclear power platform sends real-time operation data to the offshore platform control end and the shore-based control end simultaneously;
the shore-based control end is used for providing a shore operator with the real-time operation data to check and input a shore control command, sending the shore control command to the offshore platform control end, and forwarding the offshore platform control end to the marine nuclear power platform to control the operation of the offshore platform control end;
when no offshore operator is arranged at the offshore platform manipulating end, after the shore-based manipulating end sends the shore manipulation command to the offshore platform manipulating end, the offshore platform manipulating end directly forwards the shore manipulation command to the marine nuclear power platform to control the operation of the marine nuclear power platform;
when an offshore operator is arranged at the offshore platform control end, the shore-based control end sends the shore control command to the offshore platform control end, the offshore platform control end synchronously displays the shore control command for the offshore operator to check, the shore control command is transmitted to the offshore nuclear power platform to control the offshore nuclear power platform to operate after the offshore operator inputs a confirmation command, and the shore control command is not transmitted after the offshore operator inputs a negative command;
the offshore platform control end is also used for providing an offshore operator with the real-time operation data and inputting an offshore control command, and sending the offshore control command to the offshore nuclear power platform to control the operation of the offshore nuclear power platform;
and the marine platform control end is also used for sending the marine control command to the shore-based control end for synchronous display.
2. The control platform suitable for the marine nuclear power platform according to claim 1, wherein the shore-based control terminal is further configured to provide a shore operator with viewing of the real-time operation data and the marine control command, and provide the shore operator with inputting of the shore control command according to the real-time operation data and the marine control command, the shore-based control terminal sends the shore control command to the marine platform control terminal for synchronous display for viewing by the marine operator, and after the marine operator inputs a confirmation command, the shore control command is forwarded to the marine nuclear power platform to control operation of the marine nuclear power platform, and after the marine operator inputs a negative command, the shore control command is not forwarded.
3. The vessel adapted for use with an offshore nuclear power platform of claim 1, wherein said offshore platform maneuvering end is comprised of a first display screen and a first maneuvering button assembly;
the shore-based control end is composed of a second display screen and a second control button assembly;
the hardware configuration of the offshore platform control end and the shore-based control end is the same.
4. A maneuvering method for maneuvering a marine nuclear power platform according to any of claims 1-3, for maneuvering the marine nuclear power platform; the control method is characterized by comprising the following steps:
step S1a, providing an offshore platform control end and a shore-based control end, wherein the offshore platform control end and the shore-based control end are respectively in communication connection with the marine nuclear power platform based on a 5G technology, and the offshore platform control end and the shore-based control end are in communication connection based on the 5G technology;
s2a, the marine nuclear power platform sends real-time operation data to the shore-based control end for display;
and S3a, the shore-based control end provides a shore operator with the real-time operation data to check and input the shore control instruction, and sends the shore control instruction to the offshore platform control end, and the offshore platform control end forwards the shore control instruction to the offshore nuclear power platform to control the operation of the offshore platform.
5. A maneuvering method for maneuvering a marine nuclear power platform according to any of claims 1-3, for maneuvering the marine nuclear power platform; the control method is characterized by comprising the following steps:
step S1b, providing an offshore platform control end and a shore-based control end, wherein the offshore platform control end and the shore-based control end are respectively in communication connection with the marine nuclear power platform based on a 5G technology, and the offshore platform control end and the shore-based control end are in communication connection based on the 5G technology;
s2b, the marine nuclear power platform sends real-time operation data to the offshore platform control end and the shore-based control end simultaneously for displaying;
and S3b, the shore-based control end provides a shore operator with real-time operation data to check and inputs a shore control command, the shore control command is sent to the offshore platform control end to be synchronously displayed so as to be provided for the offshore operator to check, the offshore operator inputs a confirmation command and then forwards the shore control command to the marine nuclear power platform to control the marine nuclear power platform to operate, and the offshore operator inputs a negative command and then does not forward the shore control command.
6. A maneuvering method for maneuvering a marine nuclear power platform according to any of claims 1-3, for maneuvering the marine nuclear power platform; the control method is characterized by comprising the following steps:
step S1c, providing an offshore platform control end and a shore-based control end, wherein the offshore platform control end and the shore-based control end are respectively in communication connection with the marine nuclear power platform based on a 5G technology, and the offshore platform control end and the shore-based control end are in communication connection based on the 5G technology;
s2c, the marine nuclear power platform sends real-time operation data to the offshore platform control end and the shore-based control end simultaneously for displaying;
and S3c, the offshore platform control end provides an offshore operator with the real-time operation data and inputs an offshore control command, and the offshore control command is sent to the shore-based control end to be synchronously displayed so as to be provided for the onshore operator to view.
7. The manipulation method according to claim 6, further comprising:
and S4c, inputting the onshore control command by an onshore operator according to the real-time operation data and the offshore control command, sending the onshore control command to the offshore platform control terminal by the shore-based control terminal for synchronous display so as to be provided for the offshore operator to check, forwarding the onshore control command to the offshore nuclear power platform to control the offshore nuclear power platform to operate after the offshore operator inputs a confirmation command, and not forwarding the onshore control command after the offshore operator inputs a negative command.
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Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2003072675A (en) * | 2001-09-04 | 2003-03-12 | Mitsubishi Heavy Ind Ltd | Hydrogen recovery system provided with hydrogen manufacturing plant |
CN103955198A (en) * | 2014-05-15 | 2014-07-30 | 中国石油大学(华东) | Marine petroleum drilling machine integrated network redundancy monitoring system |
CN203907242U (en) * | 2014-05-20 | 2014-10-29 | 黄河 | Underwater oil and gas leakage safety monitoring device |
CN105003389A (en) * | 2015-07-20 | 2015-10-28 | 中国华能集团清洁能源技术研究院有限公司 | Offshore wind power and ocean tidal current energy combined power generation device |
KR20160103429A (en) * | 2015-02-24 | 2016-09-01 | 대우조선해양 주식회사 | Marine structure, marine surveillance system and method using the same |
CN106155027A (en) * | 2016-08-24 | 2016-11-23 | 北京匡恩网络科技有限责任公司 | A kind of industrial control system and safety protecting method |
CN205931182U (en) * | 2016-08-25 | 2017-02-08 | 中国海洋石油总公司 | Remote, unmanned on duty's floating subsea wellhead control platform |
CN108263566A (en) * | 2017-12-14 | 2018-07-10 | 中国船舶重工集团公司第七〇九研究所 | A kind of nuclear power unit master station of ocean nuclear power platform |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002258943A (en) * | 2001-02-28 | 2002-09-13 | Mitsubishi Heavy Ind Ltd | Remote monitor system for on-the-ocean |
US20160203883A1 (en) * | 2015-01-14 | 2016-07-14 | David W. Richardson | Semi Submersible Nuclear Power Plant and Multi-Purpose Platform |
-
2019
- 2019-11-07 CN CN201911083922.2A patent/CN111142412B/en active Active
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2003072675A (en) * | 2001-09-04 | 2003-03-12 | Mitsubishi Heavy Ind Ltd | Hydrogen recovery system provided with hydrogen manufacturing plant |
CN103955198A (en) * | 2014-05-15 | 2014-07-30 | 中国石油大学(华东) | Marine petroleum drilling machine integrated network redundancy monitoring system |
CN203907242U (en) * | 2014-05-20 | 2014-10-29 | 黄河 | Underwater oil and gas leakage safety monitoring device |
KR20160103429A (en) * | 2015-02-24 | 2016-09-01 | 대우조선해양 주식회사 | Marine structure, marine surveillance system and method using the same |
CN105003389A (en) * | 2015-07-20 | 2015-10-28 | 中国华能集团清洁能源技术研究院有限公司 | Offshore wind power and ocean tidal current energy combined power generation device |
CN106155027A (en) * | 2016-08-24 | 2016-11-23 | 北京匡恩网络科技有限责任公司 | A kind of industrial control system and safety protecting method |
CN205931182U (en) * | 2016-08-25 | 2017-02-08 | 中国海洋石油总公司 | Remote, unmanned on duty's floating subsea wellhead control platform |
CN108263566A (en) * | 2017-12-14 | 2018-07-10 | 中国船舶重工集团公司第七〇九研究所 | A kind of nuclear power unit master station of ocean nuclear power platform |
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