Complete Instrumentation Engineering Masterclass Training from Udemy

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 projects
Comprehensive planning of instrumentation systems, including instrument selection, sizing, and installation.
Control system designs like
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.

What's inside

Learning objectives

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
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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
Show more
Show less

Syllabus

Introduction

Engineering Coordination

P&ID (Piping & Instrumentation Diagram)

What is P&ID

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Covers P&ID, PFD, and PDS, which are essential diagrams used in plant design and crucial for professionals in the EPC industry

Explores hazardous area classification and IP certification, which are critical for ensuring safety and compliance in industrial environments

Includes detail designing and documentation, such as instrument index, IO list, and instrument hook-up drawings, which are vital for project execution

Examines control valve operations, valve and actuator types, and control valve accessories, which are fundamental for control system design

Requires familiarity with ISA codes and standards, which may necessitate additional study for those new to the field

Focuses on specific instrumentation, such as the specification of pH and conductivity analyzers, which may not be broadly applicable outside of certain industries

Reviews summary

Instrumentation design for epc careers

According to learners, this course offers comprehensive training in instrumentation design engineering, particularly valuable for those in the EPC industry (Engineering, Procurement, and Construction). Students highlight its strong practical relevance, covering key aspects like various instrument types, control systems, and detailed design documentation such as P&IDs, hook-up drawings, and loop diagrams. Many found the content beneficial for career advancement and bridging the gap between theory and practice. While generally well-received, some mention the technical depth might be challenging for complete beginners, suggesting some prior engineering knowledge is helpful. Overall, it's seen as a solid foundation for instrumentation professionals.

Strong emphasis on design documents.

"The detailed sections on P&IDs, instrument hook-ups, and loop diagrams were extremely useful for real-world work."

"Learning about cable schedules, junction box layouts, and other documentation was a major plus."

"Helped me understand the critical importance of clear and accurate documentation in engineering projects."

"The course provides templates and examples of industry standard documents."

Beneficial for career advancement.

"Taking this course significantly boosted my confidence and understanding for my role."

"Helped me prepare for interviews and understand the technical aspects expected in the industry."

"Valuable knowledge for anyone looking to grow or transition into instrumentation engineering."

"The certificate adds value to my professional profile."

Covers a wide range of topics deeply.

"The course covers everything from basic principles to detailed documentation required in projects."

"I was impressed by the depth of coverage on different instrument types and calculation methods."

"Provided a thorough understanding of control valves, safety valves, and analytical instruments."

"A complete masterclass covering all major areas of instrumentation design."

Highly practical for EPC careers.

"This course is highly relevant to real-world instrumentation design work in the EPC industry."

"I can immediately apply the concepts learned to my job in oil and gas."

"Excellent coverage of practical topics like P&ID review and hook-up drawings."

"Directly applicable to engineering roles in power, chemical, and oil & gas sectors."

Assumes some prior engineering background.

"Might be challenging for someone with absolutely no prior engineering knowledge or experience in the field."

"The pace is quite fast at times, assuming you grasp the basic engineering concepts quickly."

"I found some parts required revisiting if my engineering foundation wasn't solid enough."

"Best suited for engineers with some prior exposure to process or electrical concepts."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Complete Instrumentation Engineering Masterclass Training with these activities:

Review P&ID Symbols and Diagrams

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Reinforce your understanding of P&ID symbols and diagrams to better interpret and utilize them in instrumentation design.

Show steps

Find a comprehensive P&ID symbol reference guide.
Study the common symbols for instruments, valves, and equipment.
Practice identifying symbols in sample P&ID diagrams.

Study 'Instrumentation for Process Measurement and Control'

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Deepen your understanding of process instrumentation with a widely recognized textbook.

View Instrument Engineers' Handbook,(Volume 2) Third... on Amazon

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Acquire a copy of 'Instrumentation for Process Measurement and Control'.
Read chapters relevant to the course syllabus.
Work through example problems and exercises.

Read 'Process/Industrial Instruments and Controls Handbook'

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Expand your knowledge of instrumentation and control principles with a comprehensive handbook.

View Process Industrial Instruments And Controls... on Amazon

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Obtain a copy of the 'Process/Industrial Instruments and Controls Handbook'.
Focus on chapters related to topics covered in the course syllabus.
Take notes on key concepts and examples.

Four other activities

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Control Valve Sizing Calculations

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Improve your proficiency in control valve sizing by working through a series of practice problems with varying process conditions.

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Gather a set of control valve sizing problems with different scenarios.
Apply the appropriate sizing equations and formulas.
Verify your calculations using online tools or software.

Design an Instrumentation System for a Chemical Reactor

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Apply your knowledge by designing a complete instrumentation system for a chemical reactor, including selecting instruments, creating loop diagrams, and specifying control strategies.

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Define the process requirements for the chemical reactor.
Select appropriate instruments for measuring flow, temperature, pressure, and level.
Develop control loop diagrams for the reactor system.
Specify the control strategies for maintaining reactor stability and safety.

Develop an Instrument Index for a Hypothetical Plant

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Practice creating a detailed instrument index, a crucial document for instrumentation projects, to solidify your understanding of instrument specifications and documentation.

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Define the scope of the hypothetical plant.
Identify all instruments required for the plant's operation.
Create a spreadsheet or database to store instrument data.
Populate the instrument index with relevant information, such as tag numbers, descriptions, and specifications.

Create a Presentation on a Specific Instrument Type

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Solidify your understanding of a specific instrument type by researching its working principle, applications, and selection criteria, and then presenting your findings.

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Choose a specific instrument type (e.g., Coriolis flow meter, radar level transmitter).
Research the instrument's working principle, applications, advantages, and disadvantages.
Prepare a presentation with clear explanations and visuals.
Present your findings to peers or colleagues.

Career center

Learners who complete Complete Instrumentation Engineering Masterclass Training will develop knowledge and skills that may be useful to these careers:

Instrumentation Engineer

As an instrumentation engineer, you'll be at the forefront of designing, developing, and managing the systems that measure and control industrial processes. This course provides a strong foundation in instrumentation design engineering, which is directly applicable to the daily tasks of an instrumentation engineer. You'll delve into the principles of instrumentation engineering, control system designs, and global guidelines, ensuring the creation of safe and effective solutions. The course's focus on real-world applications helps you transition smoothly into this role. The modules on flow, temperature, pressure, and level instruments, along with hazardous area classification, are particularly relevant for success as an instrumentation engineer.

See salaries and explore the career path for Instrumentation Engineer

Control Systems Engineer

Control systems engineers are responsible for designing, implementing, and maintaining systems that regulate the dynamic behavior of processes and equipment. This course equips you with the skills to understand control system designs, loop diagrams, and instrumentation standards, all crucial for a control systems engineer. The course material specifically addresses DCS and PLC system configuration, control valve operations and material selection, which are key elements in the daily work of a control systems engineer. The course will be particularly helpful with the design considerations and function specifications.

See salaries and explore the career path for Control Systems Engineer

Process Engineer

Process engineers develop, design, and optimize industrial processes. While not solely focused on instrumentation, a strong understanding of instrumentation is crucial for effective process control and optimization. This course enhances a process engineer's capabilities by providing in-depth knowledge of instrumentation systems, including instrument selection, sizing, and installation. The course's coverage of P&ID diagrams, flow instruments, temperature instruments, and pressure instruments offers practical insights that process engineers need. These are directly applicable to enhancing process efficiency and safety. The course's exploration of process control helps a process engineer succeed.

See salaries and explore the career path for Process Engineer

EPC Project Engineer

EPC project engineers oversee various aspects of engineering, procurement, and construction projects. This course is specifically designed to provide the fundamental abilities and information needed for a prosperous career in the EPC sector. The course gives the EPC project engineer a comprehensive understanding of instrumentation engineering principles, planning of instrumentation systems, and adherence to global guidelines. The modules on instrument index, IO list, instrument hook-up drawings, and bill of materials offered in this course are essential for overseeing instrumentation aspects of EPC projects. An EPC project engineer will benefit from this course.

See salaries and explore the career path for EPC Project Engineer

Automation Engineer

Automation engineers design, develop, and implement automated systems to improve efficiency and productivity. This course provides an invaluable understanding of instrumentation and control systems, which are fundamental to automation. As an automation engineer, you will find the course's content on control system designs, DCS/PLC systems, and control valve operations particularly relevant. The course also covers essential topics like hazardous area classification which helps an automation engineer design safe and reliable systems. This course helps an automation engineer succeed.

See salaries and explore the career path for Automation Engineer

Instrumentation Technician

Instrumentation technicians install, maintain, and troubleshoot instrumentation systems. This course provides practical knowledge about loop diagrams, calibration methods, and instrumentation standards which are essential for an instrumentation technician. By learning about different types of instruments, such as flow meters, temperature elements, and pressure transmitters, you can expertly diagnose and repair issues. The course may be useful for someone pursuing a career as an instrumentation technician.

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Calibration Technician

Calibration technicians are responsible for ensuring the accuracy and reliability of instruments. This course helps build a solid understanding of calibration methods, instrumentation standards, and the working principles of various instruments. A calibration technician will find information about instrument calibration and proper usage in this course. The course may be useful for success as a calibration technician.

See salaries and explore the career path for Calibration Technician

Control Valve Technician

Control valve technicians specialize in the maintenance, repair, and testing of control valves. This course offers comprehensive knowledge of control valve operations, valve types, actuator types, and material selection which are essential for a control valve technician. The course may be useful for learning about the calculations and sizing involved in control valve selection. A control valve technician will find this useful.

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SCADA Engineer

Supervisory Control and Data Acquisition (SCADA) engineers design and maintain SCADA systems, which are used to monitor and control industrial processes remotely. The principles of instrumentation engineering and control system designs, provided by this course, may assist a SCADA engineer. The course's modules on DCS/PLC systems will also be beneficial. SCADA engineers typically require a bachelor's degree.

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Electrical Engineer

Electrical engineers design, develop, and test electrical equipment and systems. While this course focuses on instrumentation, the knowledge gained may be beneficial for electrical engineers working on projects involving instrumentation and control systems. An electrical engineer in the EPC industry may find the course particularly helpful. The electrical engineer would find the sections on cabling useful.

See salaries and explore the career path for Electrical Engineer

Project Manager

Project managers plan, execute, and close projects ensuring they meet specific goals. While this course focuses on instrumentation, understanding the principles and components of instrumentation systems may assist a project manager involved in EPC projects. The course's modules on instrumentation design are helpful for project managers. Project managers typically require a bachelor's degree.

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Health and Safety Engineer

Health and safety engineers develop and implement systems and procedures to prevent workplace injuries and illnesses. Knowledge of instrumentation and control systems may be relevant to health and safety engineers to understand safety aspects of industrial processes. The course's coverage of hazardous area classification is particularly relevant for a health and safety engineer.

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Reliability Engineer

Reliability engineers assess and improve the reliability of systems and equipment. Understanding instrumentation systems may contribute to their ability to analyze and improve the reliability of industrial processes. This course's knowledge of instrument selection and maintenance may be useful for a reliability engineer. Reliability engineers typically require a bachelor's degree.

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Chemical Engineer

Chemical engineers apply the principles of chemistry, physics, and engineering to design and operate chemical processes. While this course focuses on instrumentation, understanding instrumentation and control systems may assist a chemical engineer in process design and optimization. Chemical engineers will benefit from the modules on instrument selection. Chemical engineers typically require a bachelor's degree.

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Manufacturing Engineer

Manufacturing engineers improve efficiency and reduce waste in manufacturing processes. While this course is focused on instrumentation, a basic awareness of instrumentation and control systems may be useful. The manufacturing engineer may find something of value in this course. Manufacturing engineers typically require a bachelor's degree.

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Complete Instrumentation Engineering Masterclass Training

What's inside

Learning objectives

Syllabus

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Reviews summary

Instrumentation design for epc careers

Activities

Career center

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