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Industrial Process Instrumentation Practical Training Course

 

Course Overview

This intensive 10-day hands-on training program is designed to provide participants with the practical knowledge and technical skills required to specialize in Industrial Process Instrumentation.

The course is ensuring progressive learning from basic logic development to complex control applications, networking, and data handling.

Target Audience

This training is ideal for:

  • Automation & Instrumentation Personnel
  • Maintenance Technicians, Supervisors and Engineers
  • Electrical Engineers & System Integrators
  • Industrial Electricians
  • Technical Trainers and Engineering Students
  • Beginners with little or no Instrumentation

Prerequisites

  • Basic understanding of physics
  • Familiarity with Windows-based PC operation
  • Prior Instrumentation experience is helpful but not required

Training Objectives

At the end of this course, participants will be able to:

  1. Understand Instrumentations Fundamentals
  2. Understand Instrumentation documentation
  3. Understand Instrumentation Measurement and Calibration
  4. Understand Instrumentation Maintenance Tasks

Training Structure

  • Registration Fee: N50,000
  • Advanced Training Fee: N350,000 
  • Duration: 10 Days
  • Mode: Instructor-led 95% Practical & 5% Theory Sessions

Software Tools:

  • HART and Foundation Fieldbus Communicator 
  • PDF and MS Word/Excel

How to apply

  • Send email to training@intellectsenergy.com.
  • Call or send Whatsapp message to 08051203632

DAY 1 – Fundamentals of Industrial Instrumentation (Beginner)

Session 1: Introduction to Instrumentation

  • Role of instrumentation in:
    • Oil & Gas (upstream, midstream, downstream)
    • Manufacturing (process & discrete)
    • Power plants (thermal, gas, hydro)
  • Process control loop fundamentals
  • Open-loop vs closed-loop control
  • Field instruments → PLC/DCS → SCADA architecture
  • What is instrumentation & control
  • Role of instrumentation in industrial plants
  • Types of control systems: Manual, Automatic
  • Open-loop vs Closed-loop systems
  • Basic control loop components

Session 2: Process Variables

  • Pressure
  • Temperature
  • Flow
  • Level
  • Analytical variables (pH, conductivity, gas analysis)
  • Typical industrial applications

Session 3: Measurement Concepts

  • Accuracy, precision, repeatability
  • Span, range, zero, linearity
  • Static vs dynamic characteristics
  • Errors and uncertainties

Session 4: Instrument Symbols & Standards

  • P&ID basics
  • ISA symbols and tag numbering
  • Instrument loop drawings
  • Hook-up drawings overview

Session 5: Standard & Documentation

  • ISA tag numbering
  • P&ID interpretation (oil & gas / power plant examples)
  • Instrument loop diagrams
  • Cause & Effect charts (introduction)

Practical:

  • Reading P&IDs
  • Identifying instruments on sample drawings

DAY 2 – Pressure, Level & Temperature Instruments (Beginner → Intermediate)

Session 1: Pressure Measurement

  • Pressure types: Absolute, Gauge, Differential
  • Pressure transmitters
  • Bourdon tube, diaphragm, bellows
  • DP transmitters (flow & level use)

Session 2: Level Measurement

  • Level switches vs level transmitters
  • Float, DP level, ultrasonic, radar
  • Capacitive level measurement
  • Level measurement in tanks & vessels

Session 3: Temperature Measurement

  • RTD (Pt100), Thermocouples
  • Temperature transmitters
  • Thermowells & installation practices
  • Common temperature errors

Session 4: Calibration Basics

  • Calibration standards
  • 2-wire, 3-wire, 4-wire instruments
  • Zero & span adjustment

Session 4: PLC/DCS Interface

  • 4–20 mA wiring to PLC AI modules
  • Scaling raw values in PLC/DCS
  • Instrument fault detection

Practical:

  • Pressure & temperature transmitter calibration
  • Loop simulation using calibrators

DAY 3 – Flow Measurement & Signal Standards (Intermediate)

Session 1: Flow Measurement Principles

  • Volumetric vs mass flow
  • Flow profile & Reynolds number
  • Primary vs secondary elements

Session 2: Flow Meter Types

  • Orifice plate, venturi, nozzle
  • Magnetic flow meters
  • Vortex flow meters
  • Turbine & ultrasonic flow meters
  • Coriolis mass flow meters

Session 3: Instrument Signals & Communication

  • Digital signals overview
  • Pneumatic signals (3–15 psi)
  • 4–20 mA, 0–10 V
  • HART communication
  • Modbus RTU/TCP
  • Profibus / Foundation Fieldbus (overview)

Session 4: Instrument Installation Practices

  • Impulse lines
  • Root valves & manifolds
  • Cable shielding & grounding
  • Hazardous area considerations

 Session 5: Hazardous Area Consideration

  • ATEX / IECEx basics
  • Intrinsic safety barriers
  • Ex-proof instrumentation (oil & gas)

Session 6: PLC/DCS & SCADA Integration

  • Mapping flow values to SCADA
  • Totalizers & trend displays
  • Alarm configuration

Practical:

  • Flow transmitter setup
  • Loop wiring exercises
  • Signal troubleshooting
  • Modbus data mapping to SCADA tags

DAY 4 – Control Valves, Actuators & Control Concepts (Intermediate → Advanced)

Session 1: Control Valves

  • Valve types (globe, ball, butterfly)
  • Control valve characteristics
  • Valve sizing basics
  • Cavitation & flashing

Session 2: Actuators & Positioners

  • Pneumatic actuators
  • Electric actuators
  • Valve positioners
  • I/P and P/I converters

Session 3: Control Strategies

  • On-Off control
  • P, PI, PID control
  • Feedback vs feedforward
  • Cascade & ratio control

Session 4: Final Control Element Troubleshooting

  • Valve hunting
  • Stiction problems
  • Air supply issues
  • Position feedback errors

Session 5: PLC/DCS Control Implementation

  • PID blocks in PLC/DCS
  • Interlocks & permissives
  • Control valve troubleshooting

SCADA Integration

  • Control faceplates
  • Manual / Auto selection
  • Trends & operator graphics

Practical:

  • Control valve operation
  • Control valve operation & stroking
  • PID tuning demonstration
  • Common valve faults diagnosis

DAY 5 – Advanced Instrumentation, Safety & Troubleshooting

Session 1: Analytical Instruments

  • pH & conductivity analyzers
  • Gas analyzers (O₂, H₂S, CO₂)
  • Sample conditioning systems

Session 2: Safety Instrumented Systems (SIS)

  • Basic safety concepts
  • SIL levels overview
  • Interlocks & trips
  • Emergency shutdown systems
  • Interlocks, trips & Cause & Effect

Session 3: Instrument Maintenance & Documentation

  • Preventive vs corrective maintenance
  • Calibration records
  • Instrument datasheets
  • Spare parts management

Session 4: Industrial Troubleshooting Workshop

  • Signal loop faults
  • No output / wrong output
  • Process vs instrument faults
  • Loop checking procedures
  • Instrument failure diagnosis
  • PLC/DCS vs field instrument fault isolation
  • Real-life case studies

Session 5: SCADA Alarm Management

  • Alarm priorities
  • Nuisance alarm reduction
  • Event logging & reporting

Final Practical & Assessment:

  • Complete instrument loop check:
    • Field device → PLC/DCS → SCADA
  • Fault finding exercises
  • Review & certification
  • Real industrial fault scenarios
  • Final assessment & review

Day 6 to Day 10: 

  • Self practice at our facility with hardware and software

Training Materials & Deliverables

  • Comprehensive training manual (soft + hard copy)
  • Practical lab exercises and example programs
  • Course slides and reference documents
  • Certificate of Completion
  • Post-training technical support (optional)

Training Methodology

  • Instructor-led presentations
  • Hands-on programming sessions using actual PLCs or simulators
  • Real-world case studies and troubleshooting
  • Progressive assessments to reinforce learning outcomes

Duration & Schedule

  • Total Duration: 10 Days (Monday–Friday, 2 weeks) 
  • Daily Schedule: 9:00 AM – 4:00 PM
  • Format: Onsite 

Certification

Participants who complete both modules and pass the final project assessment will receive a Certificate of Proficiency in Industrial Process Instrumentation issued by Intellects Energy Ltd

Industrial Control Systems Practical Training Course

 

Course Overview

This intensive 10-day hands-on training program is designed to provide participants with the practical knowledge and technical skills required to specialize in Industrial Control Systems.

The course is ensuring progressive learning from basic control system to complex control systems applications, networking, and data handling.

Target Audience

This training is ideal for:

  • Automation & Instrumentation Personnel
  • Maintenance Technicians, Supervisors and Engineers
  • Electrical Engineers & System Integrators
  • Industrial Electricians
  • Technical Trainers and Engineering Students
  • Beginners with little or no Instrumentation

Prerequisites

  • Basic understanding of control systems
  • Familiarity with Windows-based PC operation
  • Prior Instrumentation experience is helpful but not required

Training Objectives

At the end of this course, participants will be able to:

  1. Understand Control Systems Fundamentals
  2. Understand Control Systems Documentation
  3. Understand Control Systems Integration
  4. Understand Control Systems Maintenance Tasks

Training Structure

  • Registration Fee: N50,000
  • Advanced Training Fee: N350,000 
  • Duration: 10 Days
  • Mode: Instructor-led 95% Practical & 5% Theory Sessions

Software Tools:

  • HART and Foundation Fieldbus Communicator 
  • PDF and MS Word/Excel

How to apply

  • Send email to training@intellectsenergy.com.
  • Call or send Whatsapp message to 08051203632

DAY 1 – Fundamentals of Industrial Control Systems

(Beginner Level)

Topics

  • Overview of Industrial Control Systems (ICS)
    • PLC, DCS, SCADA, SIS – roles & differences
  • Typical control system architectures
    • Stand-alone PLC
    • PLC + SCADA
    • DCS-based plant control
  • Control loop fundamentals
    • Sensors, transmitters, controllers, final elements
  • Industrial standards & best practices
    • ISA-95, ISA-88, IEC 61131-3
  • Electrical & instrumentation basics refresher
    • Analog vs Digital signals (4–20 mA, 0–10 V)
    • Field wiring fundamentals

Industry Customization

  • Oil & Gas: Process plants, compressor stations, metering stations
  • Manufacturing: Production lines, packaging systems
  • Power Plants: Boiler–turbine–generator control hierarchy

Practical / Workshop

  • Identifying ICS components from real P&IDs
  • Signal tracing from field device → controller → actuator

DAY 2 – PLC Systems & Field Integration

(Beginner → Intermediate)

Topics

  • PLC hardware architecture
    • CPU, power supply, I/O modules
  • Digital & analog I/O interfacing
  • Field instrumentation wiring
    • 2-wire / 4-wire transmitters
    • Motor starters & VFD interface
  • PLC programming concepts
    • Ladder Logic, Function Block Diagram
  • Basic interlocks & permissives

Industry Customization

  • Oil & Gas: Pump start permissives, ESD inputs
  • Manufacturing: Conveyor interlocks, machine safety
  • Power Plants: Boiler feedwater control signals

Practical / Workshop

  • Wiring analog & digital I/O
  • Programming start/stop logic
  • Simulating field faults and troubleshooting

DAY 3 – DCS Concepts & PLC–DCS Interface

(Intermediate Level)

Topics

  • DCS architecture & philosophy
    • Controllers, I/O, engineering & operator stations
  • PLC vs DCS – integration scenarios
  • PLC–DCS communication methods
    • Modbus RTU / TCP
    • Profibus / Profinet
    • Ethernet/IP
  • Data mapping & tag management
  • Alarm and event handling

Industry Customization

  • Oil & Gas: PLC packages (compressors, metering skids) integrated into DCS
  • Manufacturing: PLC machines reporting to plant DCS
  • Power Plants: Balance-of-Plant (BOP) PLC integration

Practical / Workshop

  • Configuring PLC–DCS communication
  • Tag mapping and data verification
  • Troubleshooting communication loss

DAY 4 – SCADA Systems & HMI Integration

(Intermediate → Advanced)

Topics

  • SCADA system architecture
    • Servers, clients, RTUs, PLCs
  • HMI design principles
    • High-performance graphics
  • PLC/DCS to SCADA integration
  • Communication protocols
    • OPC DA / OPC UA
    • Modbus TCP
  • Alarm management & trends
  • Data logging & reporting

Industry Customization

  • Oil & Gas: Pipeline & tank farm SCADA
  • Manufacturing: Production monitoring & OEE
  • Power Plants: Substation & plant SCADA

Practical / Workshop

  • Creating SCADA screens
  • Real-time trending & alarms
  • Linking PLC/DCS tags to SCADA

DAY 5 – Advanced Control, Safety & Troubleshooting

(Advanced Level)

Topics

  • Advanced control strategies
    • PID tuning (PLC & DCS)
    • Cascade & ratio control
  • Safety Instrumented Systems (SIS)
    • SIL basics & interlocks
  • Cybersecurity for ICS
    • Network segmentation & best practices
  • System troubleshooting methodology
    • Field → PLC → DCS → SCADA
  • Maintenance & system optimization

Industry Customization

  • Oil & Gas: Process upsets, ESD trips
  • Manufacturing: Downtime reduction strategies
  • Power Plants: Load changes & trip analysis

Practical / Case Studies

  • End-to-end fault diagnosis
  • Communication failure recovery
  • Final integrated project (PLC + DCS + SCADA)

Day 6 to Day 10: 

  • Self practice at our facility with hardware and software

Training Materials & Deliverables

  • Comprehensive training manual (soft + hard copy)
  • Practical lab exercises and example programs
  • Course slides and reference documents
  • Certificate of Completion
  • Post-training technical support (optional)

Training Methodology

  • Instructor-led presentations
  • Hands-on programming sessions using actual PLCs or simulators
  • Real-world case studies and troubleshooting
  • Progressive assessments to reinforce learning outcomes

Duration & Schedule

  • Total Duration: 10 Days (Monday–Friday, 2 weeks) 
  • Daily Schedule: 9:00 AM – 4:00 PM
  • Format: Onsite 

Certification

Participants who complete both modules and pass the final project assessment will receive a Certificate of Proficiency in Industrial Control Systems issued by Intellects Energy Ltd