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Course Name:
Field Bus System - Driving Total Productivity Management
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Course Objective :
This program offers a technical overview on the Foundation Field bus Technology, focusing the Communication, Installation aspects, FF Function Blocks application and the FF System Benefits.
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Course Name:
Advanced Process Control, Loops, Analysis and Troubleshooting
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Course Objective :
This course covers the theory and application of advanced control strategies including adaptive, cascade, feed forward, ratio, selective, multivariable and statistical process controls (SPC). The second half of this course covers the control strategies employed in a number of common control applications including compressors, boilers, distillation columns, chemical reactors and other systems related to the oil and gas industry.
Laboratory exercises involve programming and/or configuring single-loop digital controllers and distributed control systems (DCS) to implement and test the control strategies on typical industrial processes.
This philosophy will help the participant develop a high level of practical skills useful in industry.
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Course Name:
Control Valves Engineering
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Course Objective :
This course will help you to gain a practical understanding of control valves, actuators, and positioner designs and their applications. The course also provides methods that can be used to identify specific valve problems and arrive at acceptable solutions within engineering tolerance. It you how to correctly install, calibrate, and maintain valves.
• To tabulate the valve data sheet
• To assembly and disassembly the valve parts safely
• To test control valve operation (on line – off line)
• To interpret the function of control valve
• To install the control valve
• To select and size the control valve
• Evaluate and select actuators for specific applications
• Specify appropriate auxiliaries including Positioners and I/P transducers
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Course Name:
Developing and Applying Standard Instrumentation
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Course Objective :
This course give you a methodology for designing and developing control systems documentation including P&IDs, loop diagrams, specification form, instruments list, logic diagrams, installation details and location plans
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Course Name:
Fire & Gas System Detectors Guard Safety Controller
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Course Objective :
This course introduces the concept of Fire & gas detection system. The course cover gas detection principles for both combustion flammable and toxic gases, different types of instrumentation used in modern industries along with their applications. The course also cover fire detection principles, fire spectrums, types of fire detectors according to fire signature and also fire extinguishers techniques used.
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Course Name:
Gas Measurement & Flow Metering Station
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Course Objective :
This course presents the principles, design, and applications of flow measurement systems, emphasizing flowmeter accuracy, performance, sizing, and specification, selection, and installation practices.
• To design a system to make practical and precise industrial flow measurements
• To Calculate the effects of fluid properties on flow meter performance
• To Evaluate flow meter performance statements and compare them with application requirements
• To Specify and select the appropriate flow meters for different applications
• To Identify requirements for flow meter calibration
• To Solve typical flow meter problems
• To Perform flow meter compensation and totalization calculations
• To Understand flow and related phenomena (piping hydraulics, Reynolds Number, cavitation, etc.)
• To Size flow elements for specific applications
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Course Name:
Industrial Process Measurement
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Course Objective :
Increase plant reliability and reduce plant corrective and preventive maintenance costs by generating a sound foundation and references in the engineering principles and theories behind the selection and use of common plant sensing devices: flow, pressure, temperature, level and electrochemical. This course will require you to put to use what you learned in sizing flow devices and orifices. The course material is not tied to any specific vendor equipment.
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Course Name:
Instrumentation Systems Maintenanceand Troubleshooting (Workshop Course)
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Course Objective :
The course is focusing on maintenance, calibration and troubleshooting of different instrumentation devices and systems. Minimum operation theory also included either as an introduction or on refreshment basis.
• To design a system to make practical and precise industrial flow measurements
• To Calculate the effects of fluid properties on flow meter performance
• To Evaluate flow meter performance statements and compare them with application requirements
• To Specify and select the appropriate flow meters for different applications
• To Identify requirements for flow meter calibration
• To Solve typical flow meter problems
• To Perform flow meter compensation and totalization calculations
• To Understand flow and related phenomena (piping hydraulics, Reynolds Number, cavitation, etc.)
• To Size flow elements for specific applications
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Course Name:
New Approaches in DCS & SCADA Systems
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Course Objective :
This course covers the fundamentals of digital communications and industrial local area networks. Supervisory Control and Data Acquisition (SCADA) systems and the basics of Ethernet are included. Lab activities involve: the investigation of basic serial data communications; an introduction to Remote Terminal Unit (RTU) hardware and SCADA software; programming/configuring of digital transmitters and controllers; and various industrial communication protocols.
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Course Name:
Programmable Logic Controller PLC Architecture and Basic Programming
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Course Objective :
This course demonstrates the concepts involved in deploying and maintaining automation systems based on PLCs. It covers discrete and analog control applications, operator interface systems and links to plant networks, and introduces advanced graphical programming tools for PLCs as defined in the IEC 1131 standard Part 3.
• To select the appropriate applications to use PLC in
• To identify the basic components of a PLC system
• To develop and test a PLC program using Ladder diagram instructions
• To install and address discrete and analogue I/O for a given PLC
• To apply the fundamentals of programming instructions into various applications
• To follow guidelines for the installation, wiring, and maintenance of PLC systems
• To design and test process simulation programs using the PLC instruction set
• To design and develop closed-loop analog control systems with PLCs
• To understand the IEC 1131 programming language standards
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