ID | Course Name | Duration |
---|---|---|
MG1 | Basic Management Skills | 4 Days |
MG4 | Strategic Management | 3 Days |
MG7 | Strategic Leadership Workshop | 3 Days |
MG12 | Crisis Management | 3 Days |
MG14 | Business Planning | 3 Days |
MG15 | Human Resources Management | 5 Days |
MG16 | Business Management Performance | 3 Days |
MG17 | Corporate Governance | 3 Days |
MG19 | Inventory Management | 2 Days |
MG20 | Total Quality Management | 3 Days |
MG22 | Organizational Behavior | 4 Days |
MG23 | Six Sigma; Introduction to Orange Belt | 3 Days |
MG25 | Filing and Archiving | 3 Days |
MG29 | Integrated Business Computer Applications | 3 Days |
MG30 | ISO 9001 Quality Management Systems (Lead Auditor) (IRCA Accredited) | 5 Days |
MG32 | Supply Chain Management | 5 Days |
MG39 | Change Management | 4 Days |
MG47 | CSR “Corporate Social Responsibility “and Business Ethics | 3 Days |
MG49 | Measuring Organizational Performance (KPI’s) Workshop | 3 Days |
MI1
This course covers the applications of engineering science to design and construction projects. Participants learn how to size, design and select instruments for level, pressure, temperature and flow systems. Project management skills of analysis, scheduling, estimating, economics and supervision are developed. Participants learn how to interpret company specifications and industrial and government codes. Teamwork is emphasized and the skills needed to work effectively in teams are developed. The skills and knowledge developed are utilized by the teams to produce a bid package for the design, procurement and installation of the instrumentation required for a segment of an actual production plant.
Energy Technology Institute
– Project Introduction and Bid Proposal Format
– Instrument Selection and Specification
– Process and Instrument Component Sizing
– Safety Instrumented Systems and Hazardous Operability Analysis
– Project Management
– Team Building
– Project Economic
This course is designed for new and experienced engineers who are working in the instrumentation field in the areas of sizing, designing and selecting instruments for level, pressure, temperature and flow systems. Attendees should have a basic knowledge of instrument systems including types of transmitters, transducers, control systems, wiring, and pneumatics utilized in plant control systems. Also they should have basic personal computer skills in use of applications such as Microsoft Word, Microsoft Excel.
MI2
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)
Energy Technology Institute
– Process and Component Characteristics
– Selective Control/Over Ride Control
– Cascade Control
– Feed forward Control
– Ratio Control for Blending
– Multivariable Control
– Digital Controller Configuration
– Beyond the Basic Control Loop
Engineers, Senior Engineers/Managers, Process, Electrical and Instrumentation engineers involved in field or plant operations, plant process control and maintenance
MI3
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.
Energy Technology Institute
– Process Measurements Terminology
– System units
– Zero, span range
– Linearity, accuracy, hysteresis, etc.)
– Flow measurements basics (Differential pressure, Mechanical, ultrasonic, etc…)
– Orifice flow calculations and software
– Pressure measurements (bourdon, diaphragm, bellows, and electric transducers.)
– Level Measurements (float, displacer, hydrostatic head, radar and others)
– Temperature Measurements
Engineers, Technicians, with general instrumentation responsibilities which include; instrument selection, design, installation, or maintenance.
MI4
The course is designed to gain knowledge about specialized measurements and instrumentation system which not usually covered in the basic process instrumentation courses, such as speed, vibration, viscosity, humidity and moister content, the course also covers the basic of analytical measurement and gas analyzers and finally discuss in detail instrumentation calibration principals.
Energy Technology Institute
– Speed Measurement
– Vibration Measurement
– Viscosity Measurement
– Dew point and Humidity Measurement
– PH Measurement and control
– Conductivity Measurements
– ORP
– GAS analyzers basics
Experienced plant personnel with general instrumentation responsibilities which include, instrument selection, design, installation, or maintenance
MI5
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.
Energy Technology Institute
– PLC System Components
– Discrete Input/Output Modules
– Analog Input and Output Modules
– CPU Operation
– Memory Organization
– System Power Supply
– Communication interface card
– Human Machine Interface
– Building Process Simulation Tools
– Beyond Ladder Logic:
– The IEC 1131 Standard
– Ladder Programming:
– PLC Practical aspects
Instrumentation and control first and senior engineer Electrical first and senior engineer. Instrumentation and control technician and senior technician, Electrical technician and senior technician
MI6
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.
Energy Technology Institute
– Introduction to Control Valve Function
– Control Valve Types
– Actuators
– Valve Sealing
– Valve Accessories
– Phenomena Associated to the Control Valve
– Valve Selection and Sizing
– Testing and Installation
Instrumentation and control first and senior engineer
Mechanical first and senior engineer
Process first and senior engineer
Instrumentation and control technician and senior technician
Mechanical technician and senior technician
Process technician and senior technician
MI7
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.
Energy Technology Institute
– Foundation Field bus Technology Overview
– Foundation Field bus Installation Aspects.
– Foundation Field bus network/segment topologies
– Foundation Field bus wiring
– Foundation Field bus power, grounding and lightning protection
– Foundation Field bus segment risk management
– Intrinsically safe (IS) installations
– Field bus intrinsically safe concept (FISCO) installations
– Foundation Field bus loading and calculations
– Foundation Field bus function blocks and applications
This course is designed for instrument engineers who are responsible about installation, maintenance and troubleshooting such systems. Instrument engineers who participate in new project specifications and selection.
MI8
The course sets the basic understanding of emergency shutdown and safety related systems. It focuses on ESD/PSD and the recent development taking in consideration the ISA/IEC new standards ISA S84.01, IEC 61508/61511. The course details the engineering requirements, specification, design and implementation of emergency shutdown systems.
Energy Technology Institute
– ESD System Design
– Hydrocarbon Disposal Systems
– Emergency power systems
– ESD Vs. PSD practical consideration
– Fire & Gas Systems
– Testing ESD.
– Guidelines and Standards: PES-ISA–IEC
– General ESD Design Considerations: Programmable Electronic Systems (PES) Separation of Control and Protection – Life Cycle
– System Technologies (pros and cons): ESD Safety Requirements – SIS Logic Box Goals – Pneumatic Shutdown Systems – Solid State Systems – PLC/TMR Systems – Field Devices
– Operation and Maintenance: Bypassing – Installation Considerations.
This course is designed for engineers who use/select and for technicians who install/service these safety related systems. Managers with responsibility for plant and equipment
MI9
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.
Energy Technology Institute
– Gas sensing technology
– Combustible Gas Basics
– Detection Technologies
– Catalytic Combustible Gas Sensors
– Infrared Gas Sensors
– Toxic Gas Principles
– Electrochemical Sensors
– Flame detection technology
– Classification of Fire Detectors
This course is designed for engineers who use/select and for technicians who install/Service these safety devices. Managers with responsibility for plant and equipment
MI11
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.
Energy Technology Institute
– Overview of Data Communications in Instrumentation
– Data Communications Fundamentals
– Industrial Local Area Networks (ILANS’s)
– Field bus Protocols
– SLDC Networks
– DCS Networks
– Introduction to DAS, DCS and SCADA Systems
– Computer Simulations and Laboratory Exercises
New Engineers, Senior Engineers/Managers, Process, Electrical and Instrumentation engineers involved in field or plant operations, plant process control and maintenance.
MI12
To learn the main types and operating characteristics of safety and relief valves, Rupture Disks & Rupture pins. Be able to select and specify the correct safety valve for a given application. To understand the need to match actuator with valve.
Energy Technology Institute
– Relief valves definitions
– Relieve Valves Terminology
– Relieve Valves Standards
– Valves Type
– Valves Installation Considerations
– Chattering
– Selection
– Sizing
– Lab On Sizing Program
– Rupture Disks
– Rupture pins
– Rupture Disk Sizing
This course is designed for Engineers who use/select and for Technicians who install/service these safety devices. Managers with responsibility for plant and equipment.
MI14
This course presents the principles, design, and applications of flow measurement systems, emphasizing flow meter accuracy, performance, sizing, and specification, selection, and installation practices.
Energy Technology Institute
– Introduction to Flow Measurement
– Differential Pressure Flow meters
– Turbine Flow meters
– Ultrasonic Flow meters
– Magnetic Flow meters
– Vortex Flow meters
– Mass Flow meters
– Positive Displacement Flow meters:
Instrumentation and control first and senior engineer
Mechanical first and senior engineer
Process first and senior engineer
Instrumentation and control technician and senior technician
Mechanical technician and senior technician
Process technician and senior technician
MI15
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.
Energy Technology Institute
– Maintenance concepts in instrumentation
– Typical maintenance activity
– Types of Maintenance
– Troubleshooting basics
– Maintenance and troubleshooting of Pneumatic Field Instruments
– Maintenance and troubleshooting Electronic Field Instrumentation
– Maintenance and troubleshooting of control valves
– Maintenance and troubleshooting of Switches, Thermometers & Gauges
– Maintenance and troubleshooting of DCS’s and PLC’s
– Fundamentals of instrumentation calibration
This course is designed for instrument engineers and technicians who are responsible about installation, maintenance and troubleshooting such systems.
MI16
This course has been designed to improve the following competences:
• To use the new PLC programming techniques
• To practice the PLC sequence instruction
• To write the advanced ladder program for complete system
• To design Analogue control strategies through the PLC system
• To master PLC communication
Energy Technology Institute
• Karnugh map and truth table
– Construct and simplify
– Transfer to Boolean Equation
– Convert to Ladder program
– Appropriate applications
• New techniques of sequence/Batch programming
– States and transition diagram programming
– Flowchart programming
– Sequential Function chart programming
• Standards for batch programming
• Process description
– Identify system logic and I/O
– Description levels
– Human interfacing
• Program Flow Instructions
• Sequence instructions
• PID programming
• Advanced Logic Instructions
• PLC communication
• Case studies, and examples from different manufactures
Senior Instrumentation Engineers, Senior Electrical Engineer, Senior Turbines Engineers and Senior Project Engineer.
MI17
The aim of this course is to provide participants with the theoretical and practical aspects of valve classification, selection, installation, operation and maintenance.
Energy Technology Institute
– Introduction to Valves
– Piping Overview
– Safety Relief Valves
– Valve Maintenance
– Valve Leakage
– Valve Installation
– Valve Sizing & Selection
Senior Technicians and Junior Engineers in the following departments:
1. Instrumentation
2. Mechanical (Stationary equipment section)
3. Projects
4. Technical studies and development
5. Process
MI20
This course gives 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.
Energy Technology Institute
– P&IDs
– Hazardous Area drawing and reports
– Hook-up Drawings
– Wiring Diagrams
– Data Sheet
– Cable scheduling
– Control system Specifications
– Instrument Lists
– Logic Diagrams
– Installation Details
– Location Plans
– Loop Diagram
Engineers, Supervisors, senior technicians, and technicians for Instrumentation, Electrical Control, Process, and Maintenance Depts.
MI21
The course provide essential information on the main principles of hazardous areas, risks, ignition properties, the different types of protection for electrical apparatus in flammable atmospheres, the essentials of installation requirements, equipment certification, and information on the different types of protection for hazardous area electrical apparatus (Ex d, e, ia/ib, p, n, etc.).
Energy Technology Institute
– Defining hazardous area
– Zone / DIV concept
– Gas grouping
– Temperature rating
– Approved methods for hazard area
– Explosion proof enclosures
– Purging / pressurizing
– Powder filling type equipment
– Oil immersed type equipment
– Special type equipment
– Intrinsically safe techniques
– Typical examples of electrical installation in hazardous area
– Ingress protection (IP)
Technicians, engineers and safety personnel’s, which working in Oil and Gas fields
MI24
A combination of practical information and hands-on experience, covering proper installation, calibration, and maintenance of electronic instruments. You will examine characteristics of electronic control systems; techniques for installing electronic instruments; and procedures for configuring and calibrating transmitters, transducers, and controllers.
Energy Technology Institute
– Apply correct practice to installation, calibration and maintenance of instruments
– Calibrate electronic transmitters and controllers
– Configure instruments correctly to vendor instruction sheets
– Apply intrinsic safety techniques to instrumentation installation
– Maintain instruments correctly
– Connect instrument wiring correctly
– Predict and avoid the problems with installing measurement equipment
– Troubleshoot, isolate and fix electronic instrumentation problems
– Design and install safe working systems in hazardous areas
– Effectively apply the principles of analog meters, digital meters and oscilloscopes
– HAZARDOUS AREA
Instrument Engineers, Project Engineer, Electrical and Instrument technicians.
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