CN109445309A - A kind of nuclear heating device is from start-up and shut-down control analogue system and test method - Google Patents
A kind of nuclear heating device is from start-up and shut-down control analogue system and test method Download PDFInfo
- Publication number
- CN109445309A CN109445309A CN201811572958.2A CN201811572958A CN109445309A CN 109445309 A CN109445309 A CN 109445309A CN 201811572958 A CN201811572958 A CN 201811572958A CN 109445309 A CN109445309 A CN 109445309A
- Authority
- CN
- China
- Prior art keywords
- module
- thermal
- emulation
- hydraulic
- test
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Classifications
-
- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B17/00—Systems involving the use of models or simulators of said systems
- G05B17/02—Systems involving the use of models or simulators of said systems electric
Landscapes
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Engineering & Computer Science (AREA)
- Automation & Control Theory (AREA)
- Testing And Monitoring For Control Systems (AREA)
- Test And Diagnosis Of Digital Computers (AREA)
- Management, Administration, Business Operations System, And Electronic Commerce (AREA)
Abstract
The invention belongs to nuclear power unit verification technique fields, and in particular to a kind of nuclear heating device is from start-up and shut-down control analogue system and test method.Analogue system includes emulation server module, engineer station's module, operator's terminal module and communication interface modules;The operational order of operator is transferred to emulation server module by communication interface modules and carries out simulation calculation by operator's terminal module, obtained real-time testing value is fed back to engineer station's module and recorded into text file by emulation server module, and this paper file is shown by operator's terminal module.Compared with the existing test method from start-stop control system, the technical solution adopted in the present invention develops test environment by emulation mode and executes test, and the development cycle is short, it can carry out fully repeatability test, it can effectively find design defect, save the testing time, reduce testing cost.
Description
Technical field
The invention belongs to nuclear power unit verification technique fields, and in particular to a kind of nuclear heating device is imitative from start-up and shut-down control
True system and test method.
Background technique
Nuclear power unit completes the control of highest level in nuclear heating device automatic control system from start-stop control system
Function.In nuclear heating device shutdown process, all process equipments are managed as a whole according to start and stop process from start-stop control system
Control system.It is to realize that nuclear heating device started and stopped by automatic control technology from the purpose of start-stop control system
The automation of journey improves correctness, the normalization of the start and stop of nuclear heating device, and it is negative to mitigate operations staff's work in shutdown process
Lotus, so that the start and stop of nuclear heating device are simpler and more direct, more secure and reliable, the start-stop time is shorter.
It needs veritably be used for by sufficient, test repeatedly before engineering construction from start-stop control system
In actual production.It is found being retrieved to existing technical literature, at present from the test of start-stop control system mainly using system in kind
The problems such as system is tested, and there are testing time length, heavy workload, investment manpower and material resources at high cost.Due to from start-up and shut-down control system
The control range of system covers full factory, is related to a large amount of parameter and instruction, tests relative to using prototype system, and emulation testing can be
Do not have just to carry out the whole from start and stop test of full factory's range when available real process system, can find as soon as possible in design
Various mistakes, whether verification scheme is reasonable, meanwhile, the realization of emulation testing is easier, and iteration cycle is short, can carry out a large amount of
Reperformance test can save the testing time;Also, emulation testing does not need to configure true control system hardware environment, at
This is tested far below prototype system.Therefore, it is necessary to a kind of nuclear heating devices from start-up and shut-down control analogue system and test method.
Summary of the invention
It is an object of the invention to be directed to the existing prototype system test method problem that time-consuming, at high cost, one is provided
Nuclear energy heating plant is planted from start-up and shut-down control analogue system and test method.
Technical scheme is as follows:
A kind of nuclear heating device is from start-up and shut-down control analogue system, including emulation server module, engineer station's module, behaviour
Vertical member's terminal module and communication interface modules;Engineer station's module will be tested for developing emulation server module
The real-time testing value that emulation server module generates in journey is recorded in text file;The emulation server module is for emulating
Calculate and manage the real-time testing value that each module of analogue system generates;Operator's terminal module joins technique for operator
The operation of several and logic parameter monitoring and operator to process equipment;The communication interface modules is by communication software and leads to
Believe that interface inventory realizes the real-time data communication between operator's terminal module and emulation server module;Operator's terminal module
The operational order of operator is transferred to emulation server module by communication interface modules and carries out simulation calculation, emulation server
Obtained real-time testing value is fed back to engineer station's module and recorded into text file by module, and this paper file passes through operator's end
End module is shown.
Further, the emulation server module includes database module, thermal-hydraulic computing module, from start and stop logic
Simulation algorithm model, process equipment logical simulation computing module and traffic control module;The database module passes through database
Management software realizes the management function to nuclear heating device from the real value of start-up and shut-down control analogue system, the thermal-hydraulic meter
Calculating of the module by the realization of thermal-hydraulic software for calculation to process system thermal-hydraulic parameter real value is calculated, it is described to be patrolled from start and stop
Simulation algorithm model is collected by control logic simulating developer software realization to the calculating from start and stop logic parameter real value, the work
Skill apparatus logic simulation algorithm model is by control logic simulating developer software realization to process equipment logic parameter real value
Calculate, the traffic control module by dispatching management software realization to database module, thermal-hydraulic computing module, from
The load and operation of start and stop logical simulation computing module and process equipment logical simulation computing module.
Further, engineer station's module includes emulation testing control module;The emulation testing control module is real
Existing emulation testing control function of the nuclear heating device from start-up and shut-down control analogue system, and the test value in test process is recorded
Into text file.
Further, engineer station's module further includes simulation calculation development module and picture development module, emulation meter
Calculate development module Telnet emulation server Development of Module thermal-hydraulic computing module, from start and stop logical simulation computing module and
Process equipment logical simulation computing module, picture display operation module of the picture development module in locally exploitation operator's terminal
And picture file is downloaded into operator's terminal module.
Further, the simulation calculation development module includes that thermal-hydraulic software for calculation and control logic simulating developer are soft
Part, thermal-hydraulic software for calculation realize that the exploitation of thermal-hydraulic computing module in emulation server module, control logic emulation are opened
It sends out in software realization emulation server module from start and stop logical simulation computing module and process equipment logical simulation computing module
Exploitation.
Further, operator's terminal module includes picture display operation module, and picture display operation module passes through
Operator's operation screen of the picture exploitation software development of engineer station's module realizes operator to technological parameter and logic parameter
Operation to process equipment of monitoring and operator.
Further, described mutually only from start and stop logical simulation computing module and process equipment logical simulation computing module
It is vertical, and pass through database module exchange real time data.
Further, described from start and stop logical simulation computing module includes imitative from start stop operation management emulation logic, stepping
Proper program and step-by-step simulation instruction.
The present invention also provides a kind of above-mentioned nuclear heating devices from the test method of start-up and shut-down control analogue system, successively wraps
Include following method:
Before step 1. test, the expected response value of parameter to be tested is determined, expected response value file is written;
Emulation testing control module in step 2. engineer station's module issues test environment initialization directive, traffic control
Module according to test environment initialization directive reading database module in process system initial parameter value, meanwhile, emulation testing
Test result file is written in process system initial parameter value by control module;
The sending of step 3. emulation testing control module starts test instruction, starts test instruction and is sent out by communication interface modules
Give emulation server module;Traffic control module in emulation server module dispatches thermal-hydraulic according to test instruction is started
Computing module is run from start and stop logical simulation computing module and process equipment logical simulation computing module;
It is executed in step 4. operator's terminal and opens heap-shutdown selection and/or Cut Selection operation from start and stop investment, from start and stop
Movement, picture display operation module instruct these action recognitions at from start stop operation, are connect from start stop operation instruction by communication
Mouth mold block be sent in emulation server module from start and stop logical simulation computing module, while emulation testing control module incite somebody to action from
Start stop operation instruction write-in test result file;
Step 5. is instructed according to what operator's terminal was sent from start stop operation from start and stop logical simulation computing module, is calculated
Step-by-step simulation instruction, step-by-step simulation instruction are transmitted to process equipment logical simulation computing module by database module, emulate simultaneously
Step-by-step simulation is instructed write-in test result file by testing control module;
Step 6. process equipment logical simulation computing module calculates process equipment control instruction according to step-by-step simulation instruction,
Process equipment control instruction is transmitted to thermal-hydraulic computing module by database module, while emulation testing control module is by technique
Test result file is written in equipment control instruction;
Step 7. thermal-hydraulic computing module calculates nuclear heating device technique system heat according to process equipment control instruction
Work hydraulic parameters real value, and thermal-hydraulic parameter real value is sent to process equipment logical simulation meter by database module
Module is calculated, while test result file is written in thermal-hydraulic parameter real value by emulation testing control module;
Thermal-hydraulic parameter real value is transmitted to by step 8. process equipment logical simulation computing module by database module
Operator's end is passed to by communication interface modules from start and stop logical simulation computing module, while by thermal-hydraulic parameter real value
Picture display operation module on end, while test result file is written in picture display parameters by emulation testing control module;
Step 9. calculates step-by-step simulation program according to thermal-hydraulic parameter real value from start and stop logical simulation computing module and holds
Row state, and step-by-step simulation program execution state is passed into the display behaviour of the picture in operator's terminal by communication interface modules
Make module, while emulation testing control module is literary by step-by-step simulation program execution state and picture display parameters write-in test result
Part;
Emulation testing control module in step 10. engineer station's module, which issues, stops test instruction, stops test instruction
It is sent to emulation server module by communication interface modules, the traffic control module in emulation server module is surveyed according to stopping
Examination instruction scheduling thermal-hydraulic computing module, from start and stop logical simulation computing module, process equipment logical simulation computing module stops
Only;
After step 11. is tested, the expected response value file pair of test result file and step 1 that step 9 is obtained
Than if result is consistent, then test passes through, and if result is inconsistent, then stops nuclear heating device from start-up and shut-down control analogue system institute
There is software function module, and the problem of according to reflecting in test result, develops mould using simulation calculation in engineer station's module
Block modifies thermal-hydraulic calculation procedure, from start and stop logical simulation calculation procedure or technique by being remotely logged on emulation server
Apparatus logic simulation calculation program, re-executes test.
The beneficial effects of the present invention are:
Compared with the existing test method from start-stop control system, the technical solution adopted in the present invention passes through emulation mode
Exploitation test environment simultaneously executes test, and the development cycle is short, can carry out fully repeatability test, can effectively find that design lacks
It falls into, saves the testing time, reduce testing cost.
Detailed description of the invention
Fig. 1 is the functional block diagram of the invention.
Specific embodiment
The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.
Embodiment 1
A kind of nuclear heating device is present embodiments provided from start-up and shut-down control analogue system, is formed as shown in Figure 1, including
Emulation server module, engineer station's module, operator's terminal module and communication interface modules;
The emulation server module include database module, thermal-hydraulic computing module, from start and stop logical simulation calculate
Module, process equipment logical simulation computing module and traffic control module;Wherein: database module passes through database management language
Realize the management function to nuclear heating device from the real value of start-up and shut-down control analogue system, thermal-hydraulic computing module passes through heat
Work Hydraulic Calculation Software realizes the calculating to process system thermal-hydraulic parameter real value, logical from start and stop logical simulation computing module
Control logic simulating developer software realization is crossed to the calculating from start and stop logic parameter real value, process equipment logical simulation calculates mould
Block is passed through by calculating of the control logic simulating developer software realization to process equipment logic parameter real value, traffic control module
Dispatching management software realization to database module, thermal-hydraulic computing module, from start and stop logical simulation computing module and work
The load and operation of skill apparatus logic simulation algorithm model;
Engineer station's module include thermal-hydraulic software for calculation, control logic simulating developer software, picture exploitation it is soft
Part and emulation testing control module, in which: thermal-hydraulic software for calculation realizes the exploitation of thermal-hydraulic computing module, control logic
Simulating developer software carries out the exploitation from start and stop logical simulation computing module and process equipment logical simulation computing module, and picture is opened
The exploitation of software realization picture display operation module is sent out, emulation testing control module realizes that nuclear heating device is imitative from start-up and shut-down control
The emulation testing control function of true system, and the test value in test process is recorded in text file;Thermal technology's water
Force parameter is power, stick position, pressure, flow, temperature, revolving speed, water level, valve position;The step-by-step simulation program execution state is
It completes, complete, time-out.
Operator's terminal module includes picture display operation module, and picture display operation module is developed soft by picture
Operator's operation screen of part exploitation realizes that operator sets the monitoring of technological parameter and logic parameter and operator to technique
Standby operation;
The communication interface modules realizes that operator's terminal module and emulation take by communication software and communication interface inventory
Real-time data communication between device module of being engaged in.
Picture display operation module imitates being sent to from start stop operation instruction from start and stop logic for executing in operator's terminal
True computing module calculates process equipment manipulation instruction from start and stop logical simulation computing module and is sent to process equipment logical simulation
Computing module, process equipment logical simulation computing module calculate process equipment action command and are sent to thermal-hydraulic simulation calculation
Module;Thermal-hydraulic computing module calculates the real value of process system thermal-hydraulic parameter, and it is imitative to be sent to process equipment logic
Thermal-hydraulic parameter real value is sent to from start and stop logical simulation meter by true computing module, process equipment logical simulation computing module
Module is calculated, while thermal-hydraulic parameter real value is passed into the display behaviour of the picture in operator's terminal by communication interface modules
Make module, step-by-step simulation program execution state calculated according to thermal-hydraulic parameter real value from start and stop logical simulation computing module,
And step-by-step simulation program execution state is passed to by communication interface modules to the picture display operation module in operator's terminal.
Described is mutually indepedent from start and stop logical simulation computing module and process equipment logical simulation computing module, and passes through
Database module exchange real time data.
It is described from start and stop logical simulation computing module include from start stop operation management emulation logic, step-by-step simulation program,
Step-by-step simulation instruction.
Engineer station's module further includes simulation calculation development module, picture development module, and simulation calculation develops mould
Block Telnet emulation server Development of Module thermal-hydraulic computing module, from start and stop logical simulation computing module, process equipment
Logical simulation computing module, picture development module download to operator's end in locally exploitation display operation picture and by picture file
End module.
The thermal-hydraulic parameter is power, stick position, pressure, flow, temperature, revolving speed, water level, valve position;The step
State is executed into simulated program to be completion, do not complete, time-out.
The present embodiment additionally provides above-mentioned nuclear heating device from the test method of start-up and shut-down control analogue system, successively includes
Following steps:
Step 1: it before test, determines the expected response value of all parameters to be tested, the pre- of emulation testing control module is written
Phase response file;
Step 2: the emulation testing control module in engineer station's module issues test environment initialization directive, emulation clothes
The traffic control module of business device receives and according to the process system parameter in test environment initialization directive reading database module
Initial value feeds back to emulation testing control module;
Then, the test knot of emulation testing control module is written in process system initial parameter value by emulation testing control module
Fruit file;
Step 3: the sending of emulation testing control module starts test instruction, starts test instruction and passes through communication interface modules
It is sent to emulation server module;Traffic control module in emulation server module dispatches thermal technology's water according to test instruction is started
Power computing module is run from start and stop logical simulation computing module and process equipment logical simulation computing module;
Step 4: heap/shutdown selection is opened in execution from start and stop investment, from start and stop in operator's terminal and Cut Selection operation is dynamic
Make, picture display operation module instructs these action recognitions at from start stop operation, passes through communication interface from start stop operation instruction
Module be sent in emulation server module from start and stop logical simulation computing module, meanwhile, emulation testing control module incite somebody to action from
Start stop operation instruction write-in test result file;
Step 5: it is instructed, is calculated from start stop operation according to what operator's terminal was sent from start and stop logical simulation computing module
Step-by-step simulation instructs out, and step-by-step simulation instruction is transmitted to process equipment logical simulation computing module by database module, meanwhile, it imitates
Step-by-step simulation is instructed write-in test result file by true testing control module;
Step 6: process equipment logical simulation computing module calculates process equipment control according to step-by-step simulation instruction and refers to
It enabling, process equipment control instruction is transmitted to thermal-hydraulic computing module by database module, meanwhile, emulation testing control module will
Test result file is written in process equipment control instruction;
Step 7: thermal-hydraulic computing module calculates nuclear heating device technique system heat according to process equipment control instruction
Work hydraulic parameters real value, and thermal-hydraulic parameter real value is sent to process equipment logical simulation meter by database module
Module is calculated, meanwhile, test result file is written in thermal-hydraulic parameter real value by emulation testing control module;
Step 8: thermal-hydraulic parameter real value is transmitted to by process equipment logical simulation computing module by database module
Operator's end is passed to by communication interface modules from start and stop logical simulation computing module, while by thermal-hydraulic parameter real value
Picture display operation module on end, meanwhile, test result file is written in picture display parameters by emulation testing control module;
Step 9: step-by-step simulation program is calculated according to thermal-hydraulic parameter real value from start and stop logical simulation computing module and is held
Row state, and step-by-step simulation program execution state is passed into the display behaviour of the picture in operator's terminal by communication interface modules
Make module, meanwhile, test result is written in step-by-step simulation program execution state and picture display parameters by emulation testing control module
File;
Step 10: the emulation testing control module in engineer station's module, which issues, stops test instruction, stops test instruction
It is sent to emulation server module by communication interface modules, the traffic control module in emulation server module is surveyed according to stopping
Examination instruction scheduling thermal-hydraulic computing module, from start and stop logical simulation computing module, process equipment logical simulation computing module stops
Only;
Step 11: after test, test result file and expected response value file are compared, if result is consistent, then
Test passes through, and if result is inconsistent, then stops nuclear heating device from all software function modules of start-up and shut-down control analogue system, and
It is the problem of according to reflecting in test result, imitative by being remotely logged into using simulation calculation development module in engineer station's module
Thermal-hydraulic calculation procedure is modified on true server, calculates journey from start and stop logical simulation calculation procedure, process equipment logical simulation
Sequence re-executes test.
Embodiment 2
The present embodiment on the basis of embodiment 1, in conjunction with concrete case carries out furtherly technical solution of the present invention
It is bright.
As shown in Figure 1, the nuclear heating device of the present embodiment from start-up and shut-down control analogue system include emulation server module,
Engineer station's module, operator's terminal module and communication interface modules;Emulation server module includes database module, Re Gongshui
Power computing module, from start and stop logical simulation computing module, process equipment logical simulation computing module and traffic control module,
In: database module is realized to nuclear heating device by database management language SimBase from start-up and shut-down control analogue system
The management function of real value, thermal-hydraulic computing module are realized by thermal-hydraulic software for calculation SimFlow to process system heat
The calculating of work hydraulic parameters real value passes through control logic simulating developer software from start and stop logical simulation computing module
SimControl realizes that, to the calculating from start and stop logic parameter real value, process equipment logical simulation computing module is patrolled by control
Calculating of the simulating developer software SimControl realization to process equipment logic parameter real value is collected, traffic control module passes through fortune
Row management and running software mst is realized to database module, thermal-hydraulic computing module, from start and stop logical simulation computing module, work
The load and operation of skill apparatus logic simulation algorithm model;Engineer station's module includes thermal-hydraulic software for calculation SimFlow, control
Software SimControl, picture exploitation software SimHMI, emulation testing control software SimStation are developed in logical simulation processed,
In: thermal-hydraulic software for calculation realizes the exploitation of thermal-hydraulic computing module, and control logic simulating developer software is carried out from start and stop
The exploitation of logical simulation computing module and process equipment logical simulation computing module, picture develop software realization picture display operation
The exploitation of module, emulation testing control software realization nuclear heating device and control function from the emulation testing of start-up and shut-down control analogue system
Can, and the test value in test process is recorded in text file;Operator's terminal module includes picture display operation module,
Picture display operation module is realized operator to technological parameter by operator's operation screen that picture develops software development and is patrolled
Collect the operation of the monitoring and operator of parameter to process equipment;Communication interface modules passes through communication software and communication interface inventory
Realize the real-time data communication between operator's terminal module and emulation server module.
Before test, the expected response value of all parameters to be tested is determined, expected response value file is written;
Emulation testing control software in engineer station's module issues test environment initialization directive, traffic control module root
According to the process system initial parameter value in test environment initialization directive reading database module.Emulation testing controls software for work
Test result file is written in process system initial parameter value;
Emulation testing control software sending starts test instruction, start test instruction be sent to by communication interface modules it is imitative
True server module;Traffic control module in emulation server module calculates mould according to test instruction scheduling thermal-hydraulic is started
Block, from start and stop logical simulation computing module, the operation of process equipment logical simulation computing module;
It executed in operator's terminal from start and stop investment, open heap/shutdown selection, Cut Selection operational motion, picture from start and stop
Display operation module instructs these action recognitions at from start stop operation, is sent from start stop operation instruction by communication interface modules
To in emulation server module from start and stop logical simulation computing modules.Emulation testing control software will be instructed from start stop operation to be write
Enter test result file;
It is instructed from start and stop logical simulation computing module according to what operator's terminal was sent from start stop operation, it is imitative to calculate stepping
True instruction, step-by-step simulation instruction are transmitted to process equipment logical simulation computing module by database module.Emulation testing control is soft
Step-by-step simulation is instructed write-in test result file by part;
Process equipment logical simulation computing module calculates process equipment control instruction according to step-by-step simulation instruction, and technique is set
Standby control instruction is transmitted to thermal-hydraulic computing module by database module.Emulation testing controls software and refers to process equipment control
Enable write-in test result file;
Thermal-hydraulic computing module calculates nuclear heating device technique system thermal-hydraulic according to process equipment control instruction
Parameter real value, and thermal-hydraulic parameter real value is sent to process equipment logical simulation by database module and calculates mould
Block.Emulation testing controls software and test result file is written in thermal-hydraulic parameter real value;
Thermal-hydraulic parameter real value is transmitted to by database module from start and stop by process equipment logical simulation computing module
Logical simulation computing module, while thermal-hydraulic parameter real value being passed in operator's terminal by communication interface modules
Picture display operation module.Emulation testing controls software and test result file is written in picture display parameters;
Step-by-step simulation program execution state is calculated according to thermal-hydraulic parameter real value from start and stop logical simulation computing module,
And step-by-step simulation program execution state is passed to by communication interface modules to the picture display operation module in operator's terminal.
Emulation testing controls software and test result file is written in step-by-step simulation program execution state and picture display parameters;
Emulation testing control software in engineer station's module, which issues, stops test instruction, stops test instruction and passes through communication
Interface module is sent to emulation server module, and the traffic control module in emulation server module is adjusted according to test instruction is stopped
Thermal-hydraulic computing module is spent, from start and stop logical simulation computing module, process equipment logical simulation computing module stops;
After test, test result file and expected response value file are compared, if result is consistent, then test passes through,
If result is inconsistent, then stop nuclear heating device from all software function modules of start-up and shut-down control analogue system, and according to test
As a result in the problem of reflection, using simulation calculation development module by being remotely logged into emulation server in engineer station's module
Upper modification thermal-hydraulic calculation procedure, from start and stop logical simulation calculation procedure, process equipment logical simulation calculation procedure, hold again
Row test.
Obviously, various changes and modifications can be made to the invention without departing from essence of the invention by those skilled in the art
Mind and range.It is if these modifications and variations are within the scope of the claims of the present invention and its equivalent technology, then of the invention
It is also intended to include these modifications and variations.
Claims (9)
1. a kind of nuclear heating device is from start-up and shut-down control analogue system, it is characterised in that: including emulation server module, engineer
It stands module, operator's terminal module and communication interface modules;
Engineer station's module is used to develop emulation server module, and emulation server module in test process is generated
Real-time testing value is recorded in text file;The emulation server module is for simulation calculation and management each module of analogue system
The real-time testing value of generation;Operator's terminal module is used for monitoring and behaviour of the operator to technological parameter and logic parameter
Vertical operation of the member to process equipment;The communication interface modules realizes operator's terminal by communication software and communication interface inventory
Real-time data communication between module and emulation server module;
The operational order of operator is transferred to emulation server module by communication interface modules and carried out by operator's terminal module
Obtained real-time testing value is fed back to engineer station's module and recorded into text file by simulation calculation, emulation server module,
This paper file is shown by operator's terminal module.
2. a kind of nuclear heating device as described in claim 1 is from start-up and shut-down control analogue system, it is characterised in that: the emulation
Server module includes database module, thermal-hydraulic computing module, from start and stop logical simulation computing module, process equipment logic
Simulation algorithm model and traffic control module;The database module is realized by database management language to nuclear heating device
From the management function of the real value of start-up and shut-down control analogue system, the thermal-hydraulic computing module passes through thermal-hydraulic software for calculation
Realize the calculating to process system thermal-hydraulic parameter real value, it is described to pass through control logic from start and stop logical simulation computing module
Simulating developer software realization passes through the calculating from start and stop logic parameter real value, the process equipment logical simulation computing module
Calculating of the control logic simulating developer software realization to process equipment logic parameter real value, the traffic control module pass through fortune
Row management and running software realization to database module, thermal-hydraulic computing module, from start and stop logical simulation computing module and technique
The load and operation of apparatus logic simulation algorithm model.
3. a kind of nuclear heating device as claimed in claim 2 is from start-up and shut-down control analogue system, it is characterised in that: the engineering
Teacher station module includes emulation testing control module;The emulation testing control module realizes that nuclear heating device is imitative from start-up and shut-down control
The emulation testing control function of true system, and the test value in test process is recorded in text file.
4. a kind of nuclear heating device as claimed in claim 3 is from start-up and shut-down control analogue system, it is characterised in that: the engineering
Teacher station module further includes simulation calculation development module and picture development module, simulation calculation development module Telnet service of simulation
Device Development of Module thermal-hydraulic computing module, from start and stop logical simulation computing module and process equipment logical simulation computing module,
Picture file in the picture display operation module locally developed in operator's terminal and is downloaded to operator by picture development module
Terminal module.
5. a kind of nuclear heating device as claimed in claim 4 is from start-up and shut-down control analogue system, it is characterised in that: the emulation
Calculating development module includes thermal-hydraulic software for calculation and control logic simulating developer software, and thermal-hydraulic software for calculation is realized imitative
The exploitation of thermal-hydraulic computing module in true server module, in control logic simulating developer software realization emulation server module
From the exploitation of start and stop logical simulation computing module and process equipment logical simulation computing module.
6. a kind of nuclear heating device as claimed in claim 4 is from start-up and shut-down control analogue system, it is characterised in that: the manipulation
Member's terminal module includes picture display operation module, and picture display operation module develops software by the picture of engineer station's module
Operator's operation screen of exploitation realizes operator to the monitoring of technological parameter and logic parameter and operator to process equipment
Operation.
7. a kind of nuclear heating device as described in claim 2,3 or 4 is from start-up and shut-down control analogue system, it is characterised in that: institute
State it is mutually indepedent from start and stop logical simulation computing module and process equipment logical simulation computing module, and pass through database module hand over
Change real time data.
8. a kind of nuclear heating device as described in claim 2,3 or 4 is from start-up and shut-down control analogue system, it is characterised in that: institute
Stating from start and stop logical simulation computing module includes referring to from start stop operation management emulation logic, step-by-step simulation program and step-by-step simulation
It enables.
9. a kind of nuclear heating device as claimed in claim 6 exists from the test method of start-up and shut-down control analogue system, feature
In successively including following method:
Before step 1. test, the expected response value of parameter to be tested is determined, expected response value file is written;
Emulation testing control module in step 2. engineer station's module issues test environment initialization directive, traffic control module
According to the process system initial parameter value in test environment initialization directive reading database module, meanwhile, emulation testing control
Test result file is written in process system initial parameter value by module;
The sending of step 3. emulation testing control module starts test instruction, starts test instruction and is sent to by communication interface modules
Emulation server module;Traffic control module in emulation server module is calculated according to test instruction scheduling thermal-hydraulic is started
Module is run from start and stop logical simulation computing module and process equipment logical simulation computing module;
Heap-shutdown selection is opened in execution from start and stop investment, from start and stop in step 4. operator's terminal and/or Cut Selection operation is dynamic
Make, picture display operation module instructs these action recognitions at from start stop operation, passes through communication interface from start stop operation instruction
Module be sent in emulation server module from start and stop logical simulation computing module, while emulation testing control module will open certainly
Stop operational order write-in test result file;
Step 5. is instructed according to what operator's terminal was sent from start stop operation from start and stop logical simulation computing module, calculates stepping
Emulator command, step-by-step simulation instruction are transmitted to process equipment logical simulation computing module, while emulation testing by database module
Step-by-step simulation is instructed write-in test result file by control module;
Step 6. process equipment logical simulation computing module calculates process equipment control instruction, technique according to step-by-step simulation instruction
Equipment control instruction is transmitted to thermal-hydraulic computing module by database module, while emulation testing control module is by process equipment
Test result file is written in control instruction;
Step 7. thermal-hydraulic computing module calculates nuclear heating device technique system thermal technology's water according to process equipment control instruction
Force parameter real value, and thermal-hydraulic parameter real value is sent to process equipment logical simulation by database module and calculates mould
Block, while test result file is written in thermal-hydraulic parameter real value by emulation testing control module;
Thermal-hydraulic parameter real value is transmitted to by database module and is opened certainly by step 8. process equipment logical simulation computing module
Stop logical simulation computing module, while thermal-hydraulic parameter real value being passed in operator's terminal by communication interface modules
Picture display operation module, while emulation testing control module by picture display parameters be written test result file;
Step 9. calculates step-by-step simulation program according to thermal-hydraulic parameter real value from start and stop logical simulation computing module and executes shape
State, and step-by-step simulation program execution state is passed to by communication interface modules to the picture display operation mould in operator's terminal
Block, while test result file is written in step-by-step simulation program execution state and picture display parameters by emulation testing control module;
Emulation testing control module in step 10. engineer station's module, which issues, stops test instruction, stops test instruction and passes through
Communication interface modules is sent to emulation server module, and the traffic control module in emulation server module refers to according to test is stopped
Scheduling thermal-hydraulic computing module is enabled, from start and stop logical simulation computing module, process equipment logical simulation computing module stops;
After step 11. is tested, the expected response value file of test result file and step 1 that step 9 is obtained is compared, such as
As a result consistent, then test passes through, and if result is inconsistent, then stops nuclear heating device from all softwares of start-up and shut-down control analogue system
Functional module, and the problem of according to reflecting in test result, passed through in engineer station's module using simulation calculation development module
It is remotely logged on emulation server and modifies thermal-hydraulic calculation procedure, patrolled from start and stop logical simulation calculation procedure or process equipment
Simulation calculation program is collected, test is re-executed.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201811572958.2A CN109445309B (en) | 2018-12-21 | 2018-12-21 | Test method of nuclear energy heat supply device self-starting and stopping control simulation system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201811572958.2A CN109445309B (en) | 2018-12-21 | 2018-12-21 | Test method of nuclear energy heat supply device self-starting and stopping control simulation system |
Publications (2)
Publication Number | Publication Date |
---|---|
CN109445309A true CN109445309A (en) | 2019-03-08 |
CN109445309B CN109445309B (en) | 2021-12-17 |
Family
ID=65535765
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201811572958.2A Active CN109445309B (en) | 2018-12-21 | 2018-12-21 | Test method of nuclear energy heat supply device self-starting and stopping control simulation system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN109445309B (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111256203A (en) * | 2020-01-19 | 2020-06-09 | 深圳市奥宇节能技术股份有限公司 | Group control method for heat source heat exchangers of central heating system |
CN112540916A (en) * | 2020-11-30 | 2021-03-23 | 的卢技术有限公司 | Automatic rerun method and device for failed case, computer equipment and storage medium |
CN113970890A (en) * | 2021-11-10 | 2022-01-25 | 北京京能电力股份有限公司 | Thermal power generating unit automatic start-stop system based on digital simulation and development method thereof |
CN114428495A (en) * | 2022-01-25 | 2022-05-03 | 大唐南京热电有限责任公司 | Testing method for automatic start-stop system of unit |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102966586A (en) * | 2012-11-30 | 2013-03-13 | 中广核工程有限公司 | Control method for ventilation system of nuclear power station |
CN105321585A (en) * | 2015-09-28 | 2016-02-10 | 中国船舶重工集团公司第七一九研究所 | Semi-physical simulation system used for debugging nuclear power unit control system and method |
CN105810273A (en) * | 2014-12-30 | 2016-07-27 | 中核武汉核电运行技术股份有限公司 | Nuclear power station virtual disk table and virtual disk table testing method |
CN107885097A (en) * | 2017-10-24 | 2018-04-06 | 中广核核电运营有限公司 | A kind of Nuclear Power Plant Simulation I&C system DCS transformations closed loop checking system and method |
-
2018
- 2018-12-21 CN CN201811572958.2A patent/CN109445309B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102966586A (en) * | 2012-11-30 | 2013-03-13 | 中广核工程有限公司 | Control method for ventilation system of nuclear power station |
CN105810273A (en) * | 2014-12-30 | 2016-07-27 | 中核武汉核电运行技术股份有限公司 | Nuclear power station virtual disk table and virtual disk table testing method |
CN105321585A (en) * | 2015-09-28 | 2016-02-10 | 中国船舶重工集团公司第七一九研究所 | Semi-physical simulation system used for debugging nuclear power unit control system and method |
CN107885097A (en) * | 2017-10-24 | 2018-04-06 | 中广核核电运营有限公司 | A kind of Nuclear Power Plant Simulation I&C system DCS transformations closed loop checking system and method |
Non-Patent Citations (1)
Title |
---|
孙永胜等: "基于NS-3的核电DCS网络仿真框架", 《电子技术与软件工程》 * |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111256203A (en) * | 2020-01-19 | 2020-06-09 | 深圳市奥宇节能技术股份有限公司 | Group control method for heat source heat exchangers of central heating system |
CN112540916A (en) * | 2020-11-30 | 2021-03-23 | 的卢技术有限公司 | Automatic rerun method and device for failed case, computer equipment and storage medium |
CN113970890A (en) * | 2021-11-10 | 2022-01-25 | 北京京能电力股份有限公司 | Thermal power generating unit automatic start-stop system based on digital simulation and development method thereof |
CN114428495A (en) * | 2022-01-25 | 2022-05-03 | 大唐南京热电有限责任公司 | Testing method for automatic start-stop system of unit |
Also Published As
Publication number | Publication date |
---|---|
CN109445309B (en) | 2021-12-17 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN109445309A (en) | A kind of nuclear heating device is from start-up and shut-down control analogue system and test method | |
EP2869144B1 (en) | Simulation testing platform for wind power plant and testing method thereof | |
EP1868152A1 (en) | Selective functional group simulation of automation control and information systems | |
KR20080065936A (en) | Systems and methods for turbine control simulation | |
CN109324601A (en) | The test platform of robot controller or control system based on hardware in loop | |
CN104460360A (en) | Control system simulation system and method | |
CN106257367A (en) | A kind of nuclear power DCS platform test device based on analogue system and method for testing | |
CN105137807B (en) | General digital Star Service emulation platform | |
US20090271169A1 (en) | Training Simulators for Engineering Projects | |
CN105204420B (en) | Pump-storage generator operational process and trouble shoot training system and method | |
CN204790550U (en) | Nuclear power DCS platform testing arrangement based on simulation system | |
US20100049486A1 (en) | Systems and Methods for Simulating Plant Operations | |
CN104317283A (en) | Hardware-in-the-loop test platform and test method for wind power plant control system | |
CN111767031B (en) | Nuclear power industry internet experiment bed based on emulation | |
CN102722107A (en) | Intelligent integrated development and test system for high-voltage frequency converter and establishment method thereof | |
CN108134407A (en) | Grid-connected photovoltaic system based on virtual synchronous machine is in ring real-time simulation platform | |
CN107562969A (en) | The integrated approach and device of aeroengine control system software | |
CN109813999A (en) | A kind of Fault Diagnosis of Distribution Network algorithm automatically testing platform, method and application | |
CN112036023A (en) | Software integrated generation system for generator transformer bank protection device | |
US20050102126A1 (en) | Control logic simulation-verification method and simulation-verification personal computer | |
Roth et al. | Cyber-physical system development environment for energy applications | |
CN110847111B (en) | Method for acquiring hydropower station gate scheduling parameters based on semi-physical simulation | |
CN105179156B (en) | Pump-storage generator controls program off-line test system and method | |
CN109870927A (en) | Million capacitance grade steam turbine island control logic verification platforms | |
CN109976185A (en) | A kind of MAAP5 program and nuclear power plant analog machine integrated approach |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |