Complete Instrumentation Engineering Masterclass Training

Instrumentation Design from Basics to Advanced – Sizing, Calculation, Control System, Documentation and Deliverables.

What you'll learn

Introduction to EPC and role of Instrumentation & Control Engineering

Introduction to P& ID, PFD, PDS, ISA Codes and Standards

Basic Measurements and Process Control

Overview of Instrument Design Basis

Flow Instruments - Working principle and types of flow meter such as Orifice, Mag, Mass, Vortex, Rotameter etc

Flow Instruments - Sizing selection & calculation of flow meters

Flow Instruments - Material selections

Temperature Instruments - Temperature gauges, Temperature Elements, Temperature Transmitter, Thermo well

Pressure Instruments - Pressure Gauge, Pressure Transmitter, Pressure Switches

Level Instruments - Level gauges, Level Transmitter such as DP LT, Radar LT, Ultrasonic LT, Level Switches

Hazardous Area Classification and IP Certification

Introduction to control system and Design Consideration

DCS/PLC system configuration and function specification

Bought out items & Spare Philosophy, Documentation & Control Room Layout

Analytical Instruments - Analyser operation, Analyser application and selection, Specification of pH analyser, Specification of Conductivity analyser

Introduction to control Valve , Control Valve Operations, Valve and actuator types, Control Valve accessories

Material selection, Sizing and calculation of Valves

Introduction to Safety Valve, Calculation and sizing, Material Selection

Introduction to Rupture Disk, Calculation, sizing, Material selection.

Detail Designing and Documentation - Instrument Index, IO List, Instrument Hook Up Drawing

Cause and effect Diagram, Cable specification, Junction Box Specification, Air Manifold Specification, Cable Tray specification

Instrument location Plan, Junction Box Schedule, Cable schedule, Air manifold Schedule

Instrument and Junction Box wiring, Air manifold Layouts, Loop Drawings, JB Layout, Cable Tray Layout, Bill of Material

Requirements

Electrical/Electronics Fundamentals

Basic Engineering Principles

Proficiency in mathematics

Good Internet

Laptop / PC

Description

Description of the Course:Comprehensive Instrumentation Design Engineering for the Chemical, Power, Oil and Gas, and Other EPC IndustriesAre you prepared to advance in the EPC sector? This extensive course in instrumentation design engineering is designed to give you the fundamental abilities and information needed for a prosperous career in the power, chemical, oil and gas, and other EPC industries.What You Will Learn:The principles of instrumentation engineering and their uses in industrial projectsComprehensive planning of instrumentation systems, including instrument selection, sizing, and installation.Control system designs like SCADA, PLC, and DCS.Loop diagrams, calibration methods, and instrumentation standards.Creating solutions that are both safe and effective while following global guidelines.Why Choose This Course?This course, which was created by experienced professionals with years of experience in the EPC field, is the ideal combination of academic ideas and real-world applications. Both beginner and experienced engineers wishing to advance their skills will find the content structured to meet their needs.Who Should Enroll?Instrumentation engineers, process engineers, electrical engineers, and anyone hoping to work in or advance within the EPC industry would find this course suitable.Important features:Comprehensive modules with real-world examples.Tools and methods that are pertinent to the industry.Access to the course materials for life.Upon completion, you will receive a certificate to improve your professional profile.Join this course to gain mastery in Instrumentation Design Engineering and unlock new career opportunities in the ever-evolving EPC industry!

Overview

Section 1: Introduction

Lecture 1 Introduction

Lecture 2 Engineering Coordination

Section 2: P&ID (Piping & Instrumentation Diagram)

Lecture 3 What is P&ID

Lecture 4 What does a P&ID include

Lecture 5 P&ID Symbols

Lecture 6 P&ID Review Part 1

Lecture 7 P&ID Review Part 2

Lecture 8 Line Number and PMS

Section 3: Introduction, Working, P&ID Representation and Classification

Lecture 9 Control Valve - Introduction

Lecture 10 Control Valve - Working

Lecture 11 P&ID Representation

Lecture 12 Control Valve - Classification

Section 4: Control Valve Characteristics

Lecture 13 Valve Characteristics

Lecture 14 Glove Valve

Section 5: Valve Packing and Fugitive Emission

Lecture 15 Valve Packing

Lecture 16 Fugitive Emission

Section 6: Understanding Magnetic Flow Meters

Lecture 17 Working Principle of Magnetic Flow Meter

Lecture 18 Parts fo Magnetic Flowmeter

Lecture 19 Technical Datasheet

Lecture 20 Technical Bid Analysis

Lecture 21 Installation

Lecture 22 Dimensional Drawing

Section 7: Vortex Flow Meter

Lecture 23 Working Principle of Vortex Flow Meter

Lecture 24 Sizing and Vendor Calculation Review

Lecture 25 Technical Datasheet

Lecture 26 Technical Bid Analysis

Lecture 27 Installation and Dimensional Drawing

Section 8: Coriolis Flow Meter

Lecture 28 Overview and Working Principle

Lecture 29 Parts, Construction & Mounting

Lecture 30 Material Selection & Technical Specification

Lecture 31 Meter Sizing

Lecture 32 Technical Datasheet

Lecture 33 Technical Bid Analysis & Dimensional Drawing

Section 9: Orifice Flow Meter

Lecture 34 Working Principle of Orifice Flow Meter

Lecture 35 Application Advantages and Disadvantages

Lecture 36 Type of Orifice Flow Meter

Lecture 37 Technical Points

Lecture 38 Straight Length Requirement

Lecture 39 Technical Specifications

Lecture 40 Vendor Calculation Review

Lecture 41 Dimensional Drawing Review

Section 10: Venturi Flow Meter

Lecture 42 Working Principle

Lecture 43 Application Advantage and Disadvantages

Lecture 44 Venturi Parts and Material

Lecture 45 Technical Specifications

Lecture 46 Technical Datasheet

Lecture 47 Review - Vendor Calculation & Dimensional Drawing

Lecture 48 Installation Details

Section 11: Detail About Pressure Gauge

Lecture 49 Introduction & Working Principle

Lecture 50 Pressure Gauge- Selection Criteria

Lecture 51 Pressure Gauge- Parts

Lecture 52 Differential Pressure Gauge

Lecture 53 Technical Specifications

Lecture 54 Range and Material Selection

Lecture 55 Technical Datasheet

Lecture 56 Mounting, Installation and Suppliers

Section 12: Temperature Gauges

Lecture 57 Introduction & Working Principle

Lecture 58 Parts

Lecture 59 Technical Specification

Lecture 60 Technical Datasheet

Lecture 61 Technical Bid Analysis

Lecture 62 Dimensional Drawing, Supplier and Summery

Section 13: Level Gauge

Lecture 63 Introduction Level Gauges

Lecture 64 Glass Type Level gauges

Lecture 65 Float Type Level gauges

Section 14: Temperature Elements

Lecture 66 Introduction - Temperature Elements

Lecture 67 Working Principle of Thermocouple

Lecture 68 Technical Specification

Lecture 69 Technical Datasheet and Installation Details

Section 15: Thermowell

Lecture 70 Introduction of Thermowell

Lecture 71 Construction & Design and Material Selection

Lecture 72 Technical Specifications

Lecture 73 Design Criteria & Wake Frequency Calculation

Section 16: Pressure Transmitter

Lecture 74 Electronic Transmitter - Working Principle

Lecture 75 Parts, Accessories and Selection Criteria

Lecture 76 Electronic Transmitter - Design Type

Lecture 77 Material Selection

Lecture 78 Valve Manifold

Lecture 79 Instrument Range Selection

Lecture 80 Technical Datasheet

Lecture 81 Mounting, Installation and Transmitters Wiring

Section 17: Temperature Transmitter

Lecture 82 Working Principle and Design Type

Lecture 83 Technical Specification

Lecture 84 Wiring & Mounting

Section 18: Engineering Design and Deliverables

Lecture 85 Instrument Index

Lecture 86 Instrument IO List

Lecture 87 Instrument Location Plan - Part 1

Lecture 88 Instrument Location Plan - Part 2

Lecture 89 Instrument Air Manifold

Lecture 90 Instrument Cable Schedule

Lecture 91 Instrument Cable Tray

Lecture 92 Cable Tray Layout

Section 19: Instruments Cable

Lecture 93 Instruments Cable Part -1

Lecture 94 Instruments Cable Part - 2-1

Lecture 95 Instruments Cable Part - 2-2

Section 20: Engineering Deliverables: Instrument Junction Box

Lecture 96 What is Instrument Junction Box?

Lecture 97 Selection of Junction Box

Lecture 98 Technical Specification

Lecture 99 Technical Datasheet

Lecture 100 GAD, Installation & Supplier

Section 21: Junction Box Grouping & Schedule

Lecture 101 Junction Box Grouping

Lecture 102 Junction Box Schedule

Section 22: Engineering Design Basic Inputs

Lecture 103 Plot Plan & Equipment Layout

Lecture 104 Piping GAD & Piping Isometric

Section 23: 3D Model and Codes & standards

Lecture 105 What is 3D Model?

Lecture 106 Role of 3D Modeler

Lecture 107 Codes & Standards

Engineering Students: Undergraduate or graduate students in fields like Electrical Engineering, Electronics Engineering, Mechanical Engineering, Chemical Engineering, or Instrumentation Engineering who want to specialize in the design and application of instrumentation systems.,Engineering Professionals,Industrial Engineers,Research and Development Engineers,Instrumentation Technicians,Students Pursuing Further Studies,Technical Specialists: Individuals working in sectors such as aerospace, automotive, pharmaceuticals, or process industries who require expertise in instrumentation for monitoring, control, and data acquisition.