Computer Controlled Hydrologic Systems, Rain Simulator and Irrigation Systems Unit.
Computer Controlled Hydrologic Systems, Rain Simulator and Irrigation Systems Unit EXERCISES AND PRACTICAL POSSIBILITIES Some Practical Possibilities of the Unit: 1.- Determination of the superficial dragging. 2.- Hydrograph curve, strong storm. 3.- Calculation of concentration time for a shortstorm. 4.- Storm hydrographs from single or multiple storms. 5.- Storm hydrograph from a previously saturated catchment. 6.- Storm runoff from an impermeable catchment. 7.- Drainage density determination. 8.- Effect of a moving storm flood hydrograph. 9.- Effect of a reservoir storage on flood hydrograph. 10.- Effect of land drains on flood hydrograph. 11.- Reservoir filling and flooding. 12.- Gravity force of water. 13.- Fluvial-mechanical experiments. 14.- Model stream flow in alluvial material. 15.- Sediment transport in river models. 16.- Formation and development of river features over time. 17.- Meandering river. 18.- Erosion on river beds and current speed. 19.- Sediment transport, bedload motion, scour and erosion. 20.- Underground water capture studies. 21.- Well depression cone. 22.- Interaction of depression cones by two adjoining wells. 23.- Well in the centre of a circular island. 24.- Draw-down curves for one well and two wells systems. Other possible practices: 25.- Sensors calibration. Practices to be done by PLC Module (PLC-PI)+PLC Control Software: 26.- Control of the ESHC unit process through the control interface box without the computer. 27.- Visualization of all the sensors values used in the ESHC unit process. 28.- Calibration of all sensors included in the ESHC unit process. 29.- Hand on of all the actuators involved in the ESHC unit process.