The mechanism for controlling the water level at the dam is designed to automatically release water when the level rises

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The mechanism for controlling thewater level at the dam is designed to automatically release waterwhen the level rises too high and to stop release when it falls toolow. The system consists of a controller, sensors, and a releasevalve. The controller is programmed to open the release valve whenthe water level sensor detects that the level is above the highwater level setpoint and to close it when the level is below thelow water level setpoint. The release valve is opened and closed byan actuator that is controlled by the controller. When the waterlevel drops too low, the system is designed to immediately stop thedischarge, keeping the dam from toppling. The water level systemincludes a controller, sensors, and a release valve. The controlleris programmed to open the release valve when the water level sensordetects that the level is above the high water level setpoint andto close it when the level is below the low water level setpoint.The release valve is opened and closed by an actuator that iscontrolled by the controller. The water level system monitorsa dam's water level and alerts the required personnel when itincreases or falls outside predefined tolerances. The system ismade up of sensors that measure the water level, a controller thatcompares the data to the desired level, and a communication systemthat sends alerts when the water level rises above or drops belowthe desired level. The device is designed to prevent the dam fromcollapsing or overflooding. To watch the water level and alertthe required employees when it increases or decreases, a waterlevel monitoring system was installed in the dam. The system ismade up of sensors that measure the water level, a controller thatcompares the data to the desired level, and a communication systemthat sends alerts when the water level rises above or drops belowthe desired level.
The device is designed to prevent thedam from collapsing or overflooding. The technique has worked wellto prevent the dam from exploding or collapsing. The water levelsystem has been very useful in ensuring that the dam doesn'toverflow or collapse by keeping track of the water level in thedam.
arrange to halt the dam from flooding, the water level frameworkconsequently discharges water as the water level rises. The dukanDam, on the small zab Waterway, could be a huge (120 m tall, with a510 m long peak) earthfall dam. This dam, found close (2 km) thetown of dukan .it was outlined between 2000 and 2005. It was putinto benefit in 2005 in arrange (1) to store water for the era ofpower (capacity capacity roughly 3476.00 x 106 m3) and (2) tocontrol waterway flooding. The dam was built from earthen fabrictaken from riverbed . The impermeable clay center of the dam issecured by semi-permeable material. The primary filling periodbegun within the December 2003 and finished in April 2005. Toguarantee its basic judgment, the anticipation of major harm and,particularly, the security of the open, we put this water levelsystem to the dam. the dam was checked by geodeticstrategies. The point of the geodetic distortion observingframework of the dukan dam is to distinguish conceivable verticaland level relocations. In expansion, with legitimately outlinedobserving overviews, the moment point of the misshape Ningobserving framework is additionally to decide the genuinedistortion component and clarify the causes of misshape Ning incase of an irregular behaviour of the examined protest. Thegeodetic misshape Ning checking framework incorporates a number ofprotest focuses on the dams and a arrange of nearby referencestations with regard to relocations of the protest focuses are tobe decided. Checking arrange comprises of six reference stations(100, 102, 103, 104, 107, 108) set up environment of the dam and ofnine protest focuses (19, 20, 21, 22, 23, 24, 25, 26, 27) on thesurface of the dam's downstream face.
Tasks
1.check water level
2.check actuator
3. Check wifi
4. Upload data to database
5. Turn on water valve
6. Turn of water valve
7. Read database data
8. Update Data
9. read data from sensor
10. Check automtion status
11. Analys data
12. Distance measurement
i have this case study for water level system for dam and 12tasks
based on the case study and thosetasks i need the complete"Component Diagram" please