Tavanir - Training Simulator Center Tavanir - Training Simulator Center Tarasht P.P - Edalat - presents :Tarasht P.P - Edalat - presents :
Gharb Power Plant Gharb Power Plant
Training SimulatorTraining Simulator
>> Main Titels>> Main Titels
IntroductionIntroduction >>
Why Training Simulators ?Why Training Simulators ? >>
What about our Training Simulator ?What about our Training Simulator ? >>
What about Simulator realism ?What about Simulator realism ? >>
How about Simulator Underlying technologyHow about Simulator Underlying technology ?? >>
What about Simulator instructor-station facilitiesWhat about Simulator instructor-station facilities ?? >>
What about Simulator Engineering Functions ?What about Simulator Engineering Functions ? >>>>
Simulation Simulation
The mathematical representation/modeling of phisical process, The mathematical representation/modeling of phisical process, control systems & user interfacescontrol systems & user interfaces
Simulators clasificationSimulators clasification
Reserch SimulatorsReserch Simulators
Training SimulatorsTraining Simulators
Full Scope high realism (Replica) SimulatorsFull Scope high realism (Replica) Simulators
Reduced Scope high realism (Semi) SimulatorsReduced Scope high realism (Semi) Simulators
Generic Simulators (emulators)Generic Simulators (emulators)
>> Introduction Introduction
Operator training is most important in industry to Operator training is most important in industry to increase operators knowledge and experience to increase increase operators knowledge and experience to increase plant :plant :
EfficiencyEfficiency
PerformancePerformance
SafetySafety
Practicing on normal, emergency, and malfunction conditions without Practicing on normal, emergency, and malfunction conditions without any dangerous for man or machines.any dangerous for man or machines.
Training Simulator Expriences can be carried out time by time as Training Simulator Expriences can be carried out time by time as exactly as possible.exactly as possible.
>> Why training simulators? Why training simulators?
Which Power Station is Modeled ? Which Power Station is Modeled ? >>
What Processes are Modeled ? What Processes are Modeled ? >>
What Control Systems are Modeled ? What Control Systems are Modeled ? >>
What about Interfaces Modeling ? What about Interfaces Modeling ? >>
What Items are not Modeled (well) ? What Items are not Modeled (well) ? >>
>> What about Simulator realism ? What about Simulator realism ?
>> Which Power Plant is Modeled ? Which Power Plant is Modeled ? (1/4)(1/4)
Plant General
It’s a semi-simulator of Gharb P.S which is running in HamadanType of plant : Unit system (one BLR. To one
TBN.)
Unit output : 250 MW
Condenser cooling water : Cooling by wet C.T
Aux. steam system : can be taken from another unit or from own boiler
Electricity for start up : Taken from transmission line via station transformer
>> Which Power Plant is Modeled ? Which Power Plant is Modeled ? (2/4)(2/4)
Boiler PlantType of boiler : Natural circulation radiant reheat
Type of draft system : Forced draft
Type of combustion : Corner Firing
Maximum evaporation : 800 T/H
Steam condition at MCR
Steam press. at SHO :146 atg
Steam temp. at SHO : 541 °c
Steam press. at RHO : 37.7 atg
Steam temp. at RHO : 541 °c
Steam press. at RHI : 39.2 atg
Steam temp. at RHI : 358.7 °c
>> Which Power Plant is Modeled ? Which Power Plant is Modeled ? (3/4)(3/4)
Turbine PlantType of turbine : Reheat condensing turbine
MCR : 250 MW
Rated speed of turbine : 3000 rpm
Steam conditions
Stm. pres. at TV in. : 139 atg
Stm. temp. at TV in. : 538 °c
Stm. temp. at RSV in. : 538 °c
Flow condition at 250 MW
Main steam : 729.2 t/h
Reheat steam : 649 t/h
Feed water : 729.6 t/h
>> Which Power Plant is Modeled ? Which Power Plant is Modeled ? (4/4)(4/4)
GeneratorType of generator : A.C, Total enclosed, Self excited, explosion proof, stationary
armature, cylindrical field and hydrogen inner cooled
Capacity : 312.5 MVA
Hydrogen press. : 3 atg
Voltage : 19 KV
No. of phases : 3
Frequency : 50 Hz
Speed : 3000 rpm
Exctation system : brushless exciter
>> What Processes are Modeled ? What Processes are Modeled ? (1/(1/114)4)
>> What Processes are Modeled ? What Processes are Modeled ? (2/(2/114)4)
>> What Processes are Modeled ? What Processes are Modeled ? (3/(3/114)4)
>> What Processes are Modeled ? What Processes are Modeled ? (4/(4/114)4)
>> What Processes are Modeled ? What Processes are Modeled ? (5/(5/114)4)
>> What Processes are Modeled ? What Processes are Modeled ? (6/(6/114)4)
>> What Processes are Modeled ? What Processes are Modeled ? (7/(7/114)4)
>> What Processes are Modeled ? What Processes are Modeled ? (8/(8/114)4)
>> What Processes are Modeled ? What Processes are Modeled ? (9/(9/114)4)
>> What Processes are Modeled ? What Processes are Modeled ? (10/(10/114)4)
>> What Processes are Modeled ? What Processes are Modeled ? (11/(11/114)4)
>> What Processes are Modeled ? What Processes are Modeled ? (12/(12/114)4)
>> What Processes are Modeled ? What Processes are Modeled ? (13/(13/114)4)
>> What Processes are Modeled ? What Processes are Modeled ? (14/(14/114)4)
>> What Control Systems are Modeled ? What Control Systems are Modeled ?
APC System >>
EHC System >>
Boiler FGC System >>
Burner Control System >>
Turbine FGC System >>
Annunciation System >>
Data Acquisition System (DAS) >>
>> APC System
Unit ControlCombustion Control (Air/Fuel)Feed Water ControlBFP Speed ControlMain Steam Temperature ControlReheat Steam Temperature ControlHP Bypass Control
LP Bypass Control
GAH Inlet Temperature Control
Condenser Level Control
LP Heater Level Control
Dearator Level Control
HP Heater Level Control
Turbine Lube Oil Control
>> EHC System
Speed Control
Load Control
Valve Transfer
Turbine Main Valves Stem Freedom TestHydraulic Control
>> Boiler FGC System
Boiler Protection
Fuel Supply System
Feed Water System
Air & Gas Draft System
Boiler Valve System
Auxiliary Steam System
Steam Air Heater System
Burner Control System
>> Burner Control System
Furnace Purge
Fuels Leak Check
Aux. Air Dampers Control
Fuel Air Dampers Control
Burners Remote/Local Selection
Burners Fuel Selection
Burners Startup & Shutdown
Burners Load Program
Burners Auto Purge
Burners Corner Control
Flame Scanner Monitoring
Burner Elavation Monitoring
Unit Monitoring
BCS Alarms Initialization
>> Turbine FGC SystemTurbine ProtectionCirculating Water SystemTurbine Oil SystemTurning SystemCondensate Watre SystemVacuum SystemLP Extraction SystemHP Extraction System
Turbine Drain System
Excitation & Synchronizing System
Bus Transfer System
Gen Seal Oil & H2 Gas Filling System
Common (Gas oil ) System
Cooling Tower System
Condensate polishing plant
>> Annunciation System
From Boiler Model
From Turbine Model
From Generator Model
From Auxiliary Machine Model
From Miscellaneous Models
>> Data Acquisition System
Plant Schematic Displays (10 pictures)
Bar Chart Displays
Real Time Trend Displays
Digital Group Data Displays
Alarm Summary Display
Historical Trend Display
Post Trip Review
>> What about Interfaces Modeling ? What about Interfaces Modeling ?
Interface Electronic Card Type Number of point (spare) Number of module
AO 240 (16) 30
DO 1248 (74) 39
DI 640 (56) 20
I/O PROCESSOR SCOPE
Destination
Number of I/O points (Number/Type of Modules)
DI DO AO
Boiler I/O ProcessorBoiler Main
Operation Desk288 576 112
Turbine I/O Processor
Turbine Main Operation Desk
256 448 128
Sub Operation Panel 96 224 0
>> What Items are not Modeled (well) ? What Items are not Modeled (well) ? (1/4)(1/4)
The Training simulator is designed and manufactured as most modern system & trainee may have a good feeling for plant operation, as in the actual power plant, however, some unimportant part are excluded from our system, and so on, simulator is not exactly same as the actual plant construction. some samples of difference between the simulator system & actual one are as follows:
>> What Items are not Modeled (well) ? >> What Items are not Modeled (well) ? (2/4)(2/4)
@ Simulator @ Actual PlantFuel oil tanks are always ful-filled & supplied oil from tanks are warmed up by suction heaters or buttom heaters
Level of the tanks should checked before start the fuel oil pumps. It takes so long times to warm up the fuel oil supplied from the tanks. Such warm up work should be started about 2 or 3 hours before pump is start.
Burner operation is simulated only their logic system.
At the actual burner operation, periodic burner gun cleaning is necessary in order to get the good & reliable combustion. This routine maintenance could not be experienced by the simulator.
Circulating water system is simplified.
At the actual power plant, two sets of main C.W.P, aux. C.W.P & distiled recirculating pump are installed. The complete cooling is also simplified.
Demineralized water tank is always kept at normal water level
Demineralized water is necessary a big amount especially for cold start up because for fill-up the water to the dearator & boiler & also for the long period of the silica purge operation. Because of above mentioned reason, demineralized water tank should be kept at full before start the plant.
>> What Items are not Modeled (well) ? >> What Items are not Modeled (well) ? (3/4)(3/4)
@ Simulator @ Actual PlantFeed water heating system is simplified.
At the actual power plant, many numbers of the LP & HP feed water heaters are adopted & much complicate operation procedure is needed..
Local control systems are excluded So many numbers of local control systems are installed. Operator should check the condition of their operation before & during the start up priod.
Compressed air system is excluded. Three service air compressors & four instrument air compressors are installed. Operator should check the condition of their operation before & during the start up period.
Soot blower system is excluded Soot blowers should be operated by checking the draft loss in the boiler system.
>> What Items are not Modeled (well) ? >> What Items are not Modeled (well) ? (4/4)(4/4)
@ Simulator @ Actual PlantNitrogen sealing system is excluded
When long term shut-down is expected, boiler, high pressure feed water heaters & dearator should be reserved by pressurized nitrogen gas to prevent the infiltration of air into them.
Chemical dosing system is excluded.
PH value control & de-oxygen for the boiler feed water is made by injecting the hydrogen and/or ammonia hydrate into the feedwater. Dosing rate of these chemicals should be adjusted correspond to the feed water flow rate and also to the analitical value.
>> Underlining technology in this simulator Underlining technology in this simulator
What Hard ware Technology & configuration? What Hard ware Technology & configuration? >>
What Software Technology & Algorithm? What Software Technology & Algorithm? >>
>> Main features of instructor console Main features of instructor console
Instructor Functions at a glance Instructor Functions at a glance >>
Inititial conditions details Inititial conditions details >>
Malfunctions Malfunctions >>
>>What Hard ware Technology & What Hard ware Technology & configuration?(1/2)configuration?(1/2)
>> What Hard ware Technology & What Hard ware Technology & configuration?(2/2)configuration?(2/2)
>> What Software Technology & What Software Technology & Algorithm?Algorithm?
>> Instructor Functions at a glance Instructor Functions at a glance
RUN FREEZEINITIAL
CONDITION SET
BACK TRACK
FAST
SLOWMALFUNC
REGISTPARAM
MODIF
INFORM
DISPLAY
NEXT
PAGE
BACK
PAGE
SNAP
SHOT
FILE
TRANSFER
DATE
TIME SET
MALFUNC
CANCEL
PARAM
RESET
MALFUNC
RELEASE
PARAM
RELEASE
>> Inititial conditions details Inititial conditions details
>> Malfunctions Malfunctions
Boiler Group Malfunctions Boiler Group Malfunctions >>>>
Turbine Group Malfunctions Turbine Group Malfunctions >>>>
Generator Group Malfunctions Generator Group Malfunctions >>>>
>> Boiler Group Malfunctions>> Boiler Group Malfunctions (1/3)
1 Economizer tube leak A
2 Furnace Tube Leak A
3 Reheat Tube Leak A
4 LP Heater Tube Leak A
5 HP Heater Tube Leak A
6 SH Tube Leak A
7 Gas Flow CV ABN. A
8 Oil Flow CV ABN. A
9 A-FDF Inlet CD. ABN. A
10 B-FDF Inlet CD. ABN. A
11 LR-FWF CV ABN. A
12 HR-FWF CV ABN. A
13 A-BFP Speed Con. ABN. A
14 B-BFP Speed Con. ABN. A
15 C-BFP Speed Con. ABN. A
16 A-GRF Inlet CD. ABN. A
17 B-GRF Inlet CD. ABN. A
18 2ry SH Spray CV. ABN. A
19 Final SH Spray CV. ABN. A
20 RH Spray CV. ABN. A
21 A-GAH TCV. ABN. A
22 B-GAH TCV. ABN. A
23 F.Oil Header Press. Low A
24 Gas Header Press. Low A
>> Boiler Group Malfunctions>> Boiler Group Malfunctions (2/3)
25 A-BFP Suction Press. Low A
26 B-BFP Suction Press. Low A
27 C-BFP Suction Press. Low A
28 A-BFP BRG. Oil Temp H. A
29 B-BFP BRG. Oil Temp H. A
30 C-BFP BRG. Oil Temp H. A
31 Loss of A-FDF D
32 Loss of B-FDF D
33 Loss of A-GAH Motor D
34 Loss of B-GAH Motor D
35 Loss of A-GRF D
36 Loss of B-GRF D
37 A-Elevation Oil BNR. Trip D
38 B-Elevation Oil BNR. Trip D
39 C-Elevation Oil BNR. Trip D
40 Failure Of A-elevation Oil BNR. To IGN.
D
41 Failure Of B-elevation Oil BNR. To IGN.
D
42 Failure Of C-elevation Oil BNR. To IGN.
D
43 A-High Res. Oil Pump Trip D
44 B-High Res. Oil Pump Trip D
45 A-elevation Gas BNR. Trip D
46 B-elevation Gas BNR. Trip D
>> Boiler Group Malfunctions>> Boiler Group Malfunctions (3/3)
47 C-elevation Gas BNR. Trip D
48 Failure Of A-elevation Gas BNR. To IGN.
D
49 Failure Of B-elevation Gas BNR. To IGN.
D
50 Failure Of C-elevation Gas BNR. To IGN.
D
51 A-BFP Trip D
52 B-BFP Trip D
53 C-BFP Trip D
54 A-BFP Aux. Oil Pump Trip D
55 B-BFP Aux. Oil Pump Trip D
56 C-BFP Aux. Oil Pump Trip D
>> Turbine Group Malfunctions>> Turbine Group Malfunctions (1/2)
1 DEA. LCV. ABN. A
2 COND. LCV. ABN. A
3 HP Heater LCV. ABN. A
4 LP Heater LCV. ABN. A
5 A-MSV. Stick A
6 B-MSV. Stick A
7 A-ICV. Stick A
8 B-ICV. Stick A
9 A-GV Stick A
10 B-GV Stick A
11 Turbine BRG. VIB. H. A
12 Turbine DIFF._EXP. H. A
13 Turbine Eccentricity H. A
14 Turbine Rotor Position H. A
15 Turbine Speed H. A
16 Turbine Oil Temp. High A
17 Condenser Pressure H. A
18 HP- Bypass V. Fail to Open D
19 HP- Bypass V. Fail to Close D
20 LP- Bypass V. Fail to Open D
21 LP- Bypass V. Fail to Close D
22 Turbine Trip D
23 A-MSV Close D
24 B-MSV Close D
>> Turbine Group Malfunctions>> Turbine Group Malfunctions (2/2)
25 A-GV. Close D
26 B-GV. Close D
27 C-GV. Close D
28 D-GV. Close D
29 A-RSV. Close D
30 B-RSV. Close D
31 A-ICV. Close D
32 B-ICV. Close D
33 A-CP. Trip D
34 B-CP. Trip D
35 CWP. Trip D
36 Turning Gear Motor Trip D
>> Generator Group Malfunctions>> Generator Group Malfunctions
1 System Frequency ABN. A
2 GEN. Voltage ABN. A
3 AVR. Control ABN. A
4 Failure of normal Air Side Seal Oil Pump
D
5 Failure of normal Hydrogen Side Seal Oil Pump
D
6 Generator Trip D
7 Exciter Trip D
8 Generator Circuit Breaker Trip
D
>> Engineering Functions >> Engineering Functions (1/2)(1/2)
Trend Displays the historical trend graph & the real time trend graph with using the defined trend signal, display signal, display span and display screen.
Diagram Monitoring Monitors the calculation
The calculated number transmitted from the controller is shown on the screen, and the red/blue digital connection line represents the controller in ON/OFF condition.
Loop Verification Verifies the loop in each controller with the loop data in a disk of the maintenance tool.
Signal Name List Displays the list with the signal names, diagram names, the external “From To”, ranges and units.
Static characteristic Collects, preserves and displays the data as the plant static characteristic at a specific time.
Parameter List Displays the value of the FX, HLM, PI, SG and Timer defined in the loop data.
Tuning History Displays the data and time, the element names and the value before/after a change
System Data Indicates the normal, stand-by and failure condition of each controller and the error information in the event of trouble.
>> Engineering Functions >> Engineering Functions (2/2)(2/2)
Tuning Tunes the parameter, and monitors the calculation which is transmitted from controllers.
Diagram Editor Defines the name of diagrams.
Draws, changes and analyzes diagrams, and performs the loop builder.
Loop Transfer Transmits the loop data to each controller.
Signal Name Def. Defines the name of INPUT/OUTPUT signals in loops or controllers, the information of INPUT/OUTPUT and the range/unit.
Maintenance Include following 4 sub items.
System Definition Defines, draws and changes the elements of controllers, loops and macros.
Controller Data Displays the controller data of loops and diagram
SCM Accesses and displays the loop data and memories in controllers.
Calculation Order Displays and changes the calculation order in loops.
Online Modification Modifies the controller logic and transfers loops. The controllers can be monitored in the diagram screen after/before transferring loops.
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