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Computer Controlled Axial Flow Turbine- Engineering Lab Training Systems

Computer Controlled Axial Flow Turbine- Engineering Lab Training Systems

CAT NO: DIDACTICNLE-Export-205106

Computer Controlled Axial Flow Turbine- Engineering Lab Training Systems Description and Tender Specification:

EXERCISES AND PRACTICAL POSSIBILITIES Some Practical Possibilities of the Unit: 1.-Determination of the nozzle discharge coefficient. 2.-Determination of operating characteristics of the Axial Turbine at different speed values (20º nozzle). 3.-Determination of operating characteristics of the Axial Turbine at different speed values (30º nozzle). 4.-Determination of the Axial Turbine characteristic curves (20º nozzle). 5.-Determination of the Axial Turbine characteristic curves (30º nozzle). 6.-Determination of torque, efficiency and power curves at a constant value (20º nozzle). 7.-Determination of torque, efficiency and power curves at a constant value (30º nozzle). 8.-Determination of curves in relation to the turning speed (20º nozzle). 9.-Determination of curves in relation to the turning speed (30º nozzle). 10.-Determination of curves in relation to the flow (20º nozzle). 11.-Determination of curves in relation to the flow (30º nozzle). 12.-Adimensionalization. 13.-Flow calculation. Other possible practices: 14.-Pressure Sensors Calibration. 15.-Flow Sensor Calibration. Practices to be done by PLC Module (PLC-PI)+PLC Control Software: 16.-Control of the TFAC unit process through the control interface box without the computer. 17.-Visualization of all the sensors values used in the TFAC unit process. 18.-Calibration of all sensors included in the TFAC unit process. 19.-Hand on of all the actuators involved in the TFAC unit process. 20.-Realization of different experiments, in automatic way, without having in front the unit. (This experiment can be decided previously). 21.-Simulation of outside actions, in the cases do not exist hardware elements. (Example: test of complementary tanks, complementary industrial environment to the process to be studied, etc). 22.-PLC hardware general use and manipulation. 23.-PLC process application for TFAC unit. 24.-PLC structure. 25.-PLC inputs and outputs configuration. 26.-PLC configuration possibilities. 27.-PLC program languages. 28.-PLC different programming standard languages. 29.-New configuration and development of new process. 30.-Hand on an established process. 31-To visualize and see the results and to make comparisons with the TFAC unit process. 32.-Possibility of creating new process in relation with the TFAC unit. 33.-PLC Programming Exercises. 34.-Own PLC applications in accordance with teacher and student requirements.   Fluid Mechanics Lab Equipments manufacturers.

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