whatsapp: 0086-18615575385
whatsapp: 0086-15668389702

Pressure Control Didactic Equipment Vocational Training Equipment Process Control Trainer

Item No.: PCT63
Pressure Control Didactic Equipment Vocational Training Equipment Process Control Trainer
Description
PCT63 Pressure Control Didactic Equipment Vocational Training Equipment Process Control Trainer

DESCRIPTION
Teaching pressure process control to students equips them with the knowledge and skills necessary for success in industries where pressure regulation is critical.
It provides a strong foundation in engineering, automation, safety, and problem-solving, making students valuable assets in the workforce while contributing to the efficiency, safety, and quality of industrial processes.
Improper pressure levels can lead to equipment failure, leaks, or even explosions and emphasizes the importance of maintaining safe operating conditions.
The PCT63 system introduces students to fundamental control concepts, as in feedback control, proportional-integral-derivative (PID) controllers, and closed-loop control systems. It consists of a variable-speed reciprocating air pump (compressor), the speed of which can be adjusted by the user, a pressure vessel, and an outflow system.
The outflow system allows the air to escape via either a manually operated needle valve – providing an ongoing outflow, or via a solenoid valve and second needle valve – providing a step change in the outflow.
The vessel pressure is measured by a Bourdon-type mechanical gauge along with a pressure sensor. Providing a visual indication of the pressure in the vessel and a means for the user to check and calibrate the
controller input from the pressure sensor.


TECHNICAL SPECIFICATIONS
PCT63 PRESSURE CONTROL PROCESS
A pressure control process trainer, comprising:
24V PSU 60w 2.5a
Pressure process control assembly
USB lead
Manual Control software allowing low level access to the Drive and Load in each system allowing calibration of sensors and drive systems
On/Off Control software allowing control of each system with a simple On/Off algorithm, view software based oscillations and to explore the effects of hysteresis
PID Control software allowing uses to enter values for Kp, Ki, Kd and see how the system reacts to in-putted values