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HRS-305 Advanced Process Control Comprehensive Automation Training System

 *Input power: three-phase five-wire 380V±10% 50Hz
*Operating conditions: temperature: 0℃~+40℃; relative humidity: ≤85% (25℃)
*Device capacity: <5kVA
*Console external dimensions: 1470 × 750 × 1500 mm
*Training object external dimensions: 1900 × 800 × 1900 mm

Product Description:

Overview

The process control test platform can meet the practical training teaching needs of the Principle of Automatic Control, Process Control, Automation Instrumentation, Automatic Detection Technology and Sensors and related courses. The device can not only carry out verification, design experimental training, but also provide comprehensive practical training, fully meet the requirements of different levels of practical training and teaching. In addition to complex control systems, intelligent control systems and other aspects of the research provides the control object and control means, so it can also be used for the relevant enterprise technicians, instrumentation operators, system operation and monitoring personnel practice and training.

Characteristics

1. The system adopts split design and modular assembly structure. According to different needs to choose a variety of control methods, composed of different control systems.

2. The system has diversified control parameters and control programmes. The training platform through the pipeline valve switching and signal connection on the signal board signal combination, can constitute a variety of changes in the process control system. And the device can be carried out from single-variable to multi-variable control systems and complex process control system training.

3. The use of standard industrial automation instrumentation and flexible process equipment, making the device has openness, compatibility and scalability. The replacement of any instrument and device in the device will not affect the function and performance of the whole device, which is conducive to broadening the students' knowledge of the industrial field.

4. The control object contains the real pressure control object, can complete the pressure control training.

5. With the network version of the configuration software, a device can accommodate multiple groups of students training. That is, a server and several workstations to operate on the same object.

Practical training projects:

1 computer measurement and control system experiments

Experiment 1;

Experiment 2. Communication and use of R8000 module;

Experiment 3. configuration programming and data reading;

Experiment 4. PLC system communication and use;

Experiment 5. PLC Step 7 programming.

Experiment 6. Fieldbus technology and DCS experiment

2. Process equipment and instrumentation experiments

Experiment 1. Temperature, pressure, liquid level and flow measurement experiment;

Experiment 2. water pump load characteristic measurement experiment

Experiment 3. Pipeline pressure and flow coupling characteristic measurement experiment;

Experiment 4. electric control valve characteristic measurement experiment;

Experiment 5. regulator characteristic measurement experiment;

Experiment 6. inverter pump control characteristics measurement experiment;

3. Measurement study of object characteristics of industrial systems

Experiment 1. single-capacity water tank level mathematical model determination experiment;

Experiment 2. Experiment on the determination of the mathematical model of the level of a double-capacity water tank;

Experiment 3. experiment on the measurement of the mathematical model of the level of a non-linear volumetric tank;

Experiment 4. experiment on determination of mathematical model of level in single capacity tank with different resistance;

Experiment 5. experiment on mathematical modelling of boiler and heater objects;

Experiment 6. experiment on mathematical modelling of lagoon;

4. simple design-based control experiments

Experiment 1. single closed-loop flow control experiment;

Experiment 2. single-capacity tank level fixing experiment;

Experiment 3. two-capacity tank level fixing experiment;

Experiment 4. three-capacity water tank level fixing experiment;

Experiment 5. boiler water temperature control experiment;

Experiment 6, interlock control system experiment;

5. Complex design control system experiments

Experiment 1. Closed-loop dual-tank level cascade control experiment;

Experiment 2. lower tank level control and inlet flow series control experiment;

Experiment 3. single closed-loop flow ratio control system experiment;

Experiment 4. Feed-forward-feedback control of boiler liner water temperature.

Experiment 5. boiler temperature and and changeover coil feedback control system experiment;

Experiment 6. experiments on pipe pressure and flow decoupled control systems;

6. Innovative design and research

Experiment 1. study of compensatory control for large delay systems;

Experiment 2. study of adaptive control algorithms;

Experiment 3. study of fuzzy control algorithms;

Experiment 4. study of fieldbus control systems;

7. applied engineering design

Experiment 1. industrial project design;

Experiment 2. alarm system design;

Experiment 3. critical event processing and logging design;

Experiment 4. system trending and history storage design

Experiment 5. system logging and security design;

Experiment 6. study of networked control systems;


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