10.- PROCESS CONTROL

Equipment or processes that require maintaining some fixed parameter can easily be found in industry. The speed of a motor, the flow, level and temperature of a hydraulic circuit or the pressure of a compressed air system are a good example. The aim of process control engineering is the automation of these processes through the implementation of monitoring and control systems.

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This discipline covers from the study of the system dynamics and the instrumentation involved (sensors, actuators, controllers, etc.) to the development of control strategies and their subsequent implementation, including the study of the different industrial communications protocols used in this type of systems (Fieldbus, HART, etc.).

Nowadays, the most commonly used control algorithm is the PID control (proportional, integral and derivative). From this control mechanism, more complex strategies have been developed, such as the cascade control, multivariable control, feedforward control and selective control. These strategies are implemented using industrial controllers, programmable logic controllers (PLCs) and SCADA control and acquisition applications that, in addition to the control, allow the process visualization. The control can be carried out with a single control device (centralized control system) or through an organized network of controllers (distributed control system).

The improvements in productivity and efficiency that control systems provide to industrial processes are favoring the research of new advanced control algorithms, such as the predictive control, adaptive control or fuzzy control.

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PROCESS CONTROL SUBCATEGORIES

10.1.- THEORETICAL - PRACTICAL FUNDAMENTALS

Automatic control is the branch of engineering that deals with the regulation of the operation of equipment, processes or complete plants, using a set of devices and mechanisms called control system. The open-loop control systems act on the input of the system (actuator) without taking into...
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10.2.- CONTROLLERS & INDUSTRIAL COMMUNICATIONS

The evolution in the control of large industrial plants gives rise to a new type of systems in which control is no longer implemented in a single device: distributed control systems or DCS. In these systems, the process to automate is divided into simple control loops that are locally regulated...
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10.3.- INDUSTRIAL APPLICATIONS AND SYSTEMS

An optimal operation of equipment and plants is essential in the process industry. Some devices are installed to achieve this purpose: sensors to measure the parameters to be regulated (controlled variables), actuators to allow modifying their values (manipulated variables), and controllers to...
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PROCESS CONTROL UNITS
Showing 1-36 of 41 item(s)
BASIC TEACHING UNIT FOR THE STUDY OF REGULATION AND CONTROL - RYC/B
  • RYC/B
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS
RYC/B
Basic Teaching Unit for the Study of Regulation and Control
The Basic Teaching Unit for the Study of Regulation and Control, "RYC/B", allows the user to learn the basics about regulation and control of first and second order systems.This unit enables to carry a set of practices related with basic...
COMPUTER CONTROLLED MODULAR CONTROL AND REGULATION UNIT - RYC/T
  • RYC/T
Available
10.1.- THEORETICAL - PRACTICAL FUNDAMENTALS
RYC/T
Computer Controlled Modular Control and Regulation Unit
Regulation and control theory is divided into two major divisions in, namely, classical and modern. The implementation of classical controller designs as compared to systems designed using modern control theory is easier and these controllers are...
BALL AND BEAM MODULE - RYC-BB
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS
RYC-BB
Ball and Beam Module
Accessory of RYC, RYC/T
The "RYC-BB" Ball and Beam module has been designed to study a practical control system, through the study of a classical control system, the Ball and Beam Control system.The "RYC-BB" module consists of two main components: the "RYC-BB" apparatus...
DC SERVO MOTOR MODULE - RYC-SM
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS
RYC-SM
DC Servo Motor Module
Accessory of RYC, RYC/T
The "RYC-SM" Servo Motor module has been designed to study a practical control system, through the control of the position and speed of a DC Servo Motor.The "RYC-SM" module consists of two main components: the "RYC-SM" apparatus and the "RYC-SM"...
AIR FLOW TEMPERATURE CONTROL MODULE - RYC-TAR
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS
RYC-TAR
Air Flow Temperature Control Module
Accessory of RYC, RYC/T
The "RYC-TAR" Air Flow Temperature Control module has been designed to study a practical control system, through the control of an air flow temperature.The "RYC-TAR" module consists of two main components: the "RYC-TAR" apparatus and the "RYC-TAR"...
INVERTED PENDULUM CONTROL MODULE - RYC-PI
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS
RYC-PI
Inverted Pendulum Control Module
Accessory of RYC, RYC/T
The "RYC-PI" Inverted Pendulum Control module has been designed to study a practical control system, through the control of a linear position system of movable cart.The "RYC-PI" module consists of two main components: the "RYC-PI" apparatus and...
MAGNETIC LEVITATION CONTROL MODULE - RYC-CLM
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS
RYC-CLM
Magnetic Levitation Control Module
Accessory of RYC, RYC/T
The "RYC-CLM" Magnetic Levitation Control module has been designed to study a practical control system.The "RYC-CLM" module consists of two main components: the "RYC-CLM" apparatus and the "RYC-CLM" interface box. The "RYC-CLM" apparatus contains...
WATER FLOW TEMPERATURE CONTROL MODULE - RYC-TAG
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS
RYC-TAG
Water Flow Temperature Control Module
Accessory of RYC, RYC/T
The "RYC-TAG" Water Flow Temperature Control module has been designed to study a practical control system, through the control of water flow temperature.The "RYC-TAG" module consists of two main components: the "RYC-TAG" apparatus and the...
TEMPERATURE CONTROL MODULE - RYC-TE
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS
RYC-TE
Temperature Control Module
Accessory of RYC, RYC/T
The "RYC-TE" Temperature Control module has been designed to study a practical control system, through the control of the water temperature in a tank.The "RYC-TE" module consists of two main components: the "RYC-TE" apparatus and the "RYC-TE"...
PRESSURE CONTROL MODULE - RYC-P
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS
RYC-P
Pressure Control Module
Accessory of RYC, RYC/T
The "RYC-P" Pressure Control module has been designed to study a practical control system, through the control of the air pressure level of an air pressure tank.The "RYC-P" module consists of two main components: the "RYC-P" apparatus and the...
LEVEL CONTROL MODULE - RYC-N
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS
RYC-N
Level Control Module
Accessory of RYC, RYC/T
The "RYC-N" Level Control module has been designed to study a practical control system, through the control of the water level of a tank.The "RYC-N" module consists of two main components: the "RYC-N" apparatus and the "RYC-N" interface box. The...
FLOW RATE CONTROL MODULE - RYC-C
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS
RYC-C
Flow Rate Control Module
Accessory of RYC, RYC/T
The "RYC-C" Flow Rate Control module has been designed to study a practical control system, through the flow rate of a close water circuit.The "RYC-C" module consists of two main components: the "RYC-C" apparatus and the "RYC-C" interface box. The...
LUMINOSITY CONTROL MODULE - RYC-I
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS
RYC-I
Luminosity Control Module
Accessory of RYC, RYC/T
The "RYC-I" Luminosity Control module has been designed to study a practical control system and study different light sensors, through the luminosity control with three different light sensors.The "RYC-I" module consists of two main components:...
PH CONTROL MODULE - RYC-pH
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS
RYC-pH
pH Control Module
Accessory of RYC, RYC/T
The "RYC-pH" pH Control module has been designed to study a practical control system, through the pH dissolution control in a stirred tank.The "RYC-pH" module consists of two main components: "RYC-pH" apparatus and "RYC-pH" interface box. The...
POSITION CONTROL MODULE - RYC-CP
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS
RYC-CP
Position Control Module
Accessory of RYC, RYC/T
The "RYC-CP" Position Control module has been designed to study a practical control system, through the control of a linear position system.The "RYC-CP" module consists of two main components: the "RYC-CP" apparatus and the "RYC-CP" interface box....
INDUSTRIAL CONTROLLERS UNIT - CECI
  • CECI
Available
6.1.1.2.- INDUSTRIAL CONTROLLERS
CECI
Industrial Controllers Unit
The Industrial Controllers Unit, "CECI", is based on a modular design structure whose functionality is divided into different modules toallow the student a better understanding of the unit. The modules included in the unit are: industrial...
INDUSTRIAL CONTROLLERS NETWORKING - CRCI
  • CRCI
Available
6.1.1.2.- INDUSTRIAL CONTROLLERS
CRCI
Industrial Controllers Networking
The Industrial Controllers Networking, "CRCI", unit is based on a modular design structure whose functionality is divided into different modules to allow the student a better understanding of the unit. The modules provided with the unit are: two...
COMPUTER CONTROLLED CONTROLLER TUNING UNIT - CEAC
  • CEAC
Available
6.1.1.2.- INDUSTRIAL CONTROLLERS
CEAC
Computer Controlled Controller Tuning Unit
The Computer Controlled Controller Tuning Unit, "CEAC", provides the tools to simulate different industrial processes in a HIL system and control them with a commercial industrial controller. The CEAC unit works in conjunction with a computer, in...
FIELD BUS APPLICATIONS UNIT - CEAB
  • CEAB
Available
6.1.1.2.- INDUSTRIAL CONTROLLERS
CEAB
Field Bus Applications Unit
The Trainer for Field Bus Applications, "CEAB", provides the components to conform a real Profibus DP Network where the PC is the master device and different components included with the unit are the slave devices. The "CEAB" unit also allows to...
APPLICATIONS FOR PROCESS CONTROL - APC
  • APC
Available
10.3.- INDUSTRIAL APPLICATIONS AND SYSTEMS
APC
Applications for Process Control
The Applications for Process Control, "APC", designed by EDIBON, allows the student to design, assemble and configure various control systems, apart from studying the fundamentals of the control engineering on which they are based.These...
COMPUTER CONTROLLED COUPLED TANKS SYSTEM - CTAC
  • CTAC
Available
6.1.1.3.- INDUSTRIAL SYSTEM APPLICATIONS
CTAC
Computer Controlled Coupled Tanks System
The Computer Controlled Coupled Tanks System, "CTAC", consists of four transparent tanks, each with a pressure sensor to measure the water level.The coupling configuration between tanks can be modified by the use of computer controlled solenoid...
COMPUTER CONTROLLED PROCESS CONTROL (ELECTRONIC VALVE) - UCP
  • UCP
Available
6.1.1.3.- INDUSTRIAL SYSTEM APPLICATIONS
UCP
Computer Controlled Process Control (Electronic Valve)
The Computer Controlled Process Control (Electronic Valve), "UCP", designed by EDIBON, allows the study of several types of automatic control and can be used to control different variables (flow, level, temperature, pressure, pH, conductivity and...
COMPUTER CONTROLLED PROCESS CONTROL (PNEUMATIC VALVE) - UCPCN
  • UCPCN
Available
6.1.1.3.- INDUSTRIAL SYSTEM APPLICATIONS
UCPCN
Computer Controlled Process Control (Pneumatic Valve)
The Computer Controlled Process Control (Pneumatic Valve), "UCPCN", designed by EDIBON, allows the study of several types of automatic control and can be used to control different variables (flow, level, temperature, pressure, pH, conductivity and...
COMPUTER CONTROLLED PROCESS CONTROL (SPEED CONTROLLER) - UCPCV
  • UCPCV
Available
6.1.1.3.- INDUSTRIAL SYSTEM APPLICATIONS
UCPCV
Computer Controlled Process Control (Speed Controller)
The Computer Controlled Process Control Unit (Speed Controller), "UCPCV", designed by EDIBON, allows the study of several types of automatic control and can be used to control different variables (flow, level, temperature, pressure, pH,...
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