PG Diploma in Piping Design Engineering from Udemy

Welcome to this course. This course is designed to provide you entry-level knowledge of Piping Designing. You can find even more syllabus, is covered in this course than the standard PG Diploma in Piping Design Engineering. And if compare the cost, it cost you nothing as compared to a standard course.

This Course is a perfect combination of theoretical study as well as practical work. You will Learn the use of your knowledge in practical work by some examples of exercises. Module 7 is coming soon.

Besides, this course is designed by unique approaches like colors that are used in this course are set according to the level of difficulty of the topic. Like for easy topics, normal bright colors used that make the learning experience much pleasant. On the other hand for difficult topics, dark & intense colors are used that enhance human concentration.

Application-based learning enhances the curiosity in the human mind to learn something, so this course is designed, at every step you will find the application of the topic or concept. Videos are small but the content is much in them, this makes you feel satisfied at the end.

All these approaches are a result of several experiments, that I performed on my students to understand their different learning patterns.

To learn more about the content in this course see the syllabus video.

What's inside

Learning objectives

Learn the core concepts of piping designing.
Learn the designing procedure of different plants.
Learns codes & standards used in industry
Learn about static & rotary piping equipment.
Learn to read pfd ufd & p&id.
Learn about pipe fitting, components & valves.
Learn selection of valves & fittings
Types of stresses in piping system & testing
Piping fabrication methods

Learn to make isometric drawings
Learn to make general arrangement drawings
Learn ablout all documents involved in designing
Learn designing calculations like pipe size, line size calculations
Learn different types of supports & selection methods
Learn 3d piping designing in pdms
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Learn the core concepts of piping designing.
Learn the designing procedure of different plants.
Learns codes & standards used in industry
Learn about static & rotary piping equipment.
Learn to read pfd ufd & p&id.
Learn about pipe fitting, components & valves.
Learn selection of valves & fittings
Types of stresses in piping system & testing
Piping fabrication methods
Learn to make isometric drawings
Learn to make general arrangement drawings
Learn ablout all documents involved in designing
Learn designing calculations like pipe size, line size calculations
Learn different types of supports & selection methods
Learn 3d piping designing in pdms
Show more
Show less

Syllabus

Introduction

Course Syllabus

Module-1.Fundamentals of Piping

0.0 Module Introduction

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Read about what's good

what should give you pause

and possible dealbreakers

Covers codes and standards used in the industry, providing a foundation for understanding regulatory requirements in piping design engineering

Explores static and rotary piping equipment, which is essential knowledge for designing and maintaining various plant systems

Teaches how to read PFD, UFD, and P&ID drawings, which are crucial skills for understanding and interpreting plant designs and processes

Includes a module on 3D piping design in PDMS, which is a widely used software in the industry for plant design and engineering

Requires learners to understand the application of topics and concepts, which may be challenging for learners without prior experience

Features a module that is 'coming soon,' which may leave learners without a complete understanding of the topics covered in the course

Reviews summary

Entry-level piping design overview

According to learners, this course provides a solid foundation for those new to Piping Design Engineering. Students appreciate the wide range of topics covered, including codes, standards, equipment, drawings, and basic calculations. Many find the practical examples and exercises helpful for applying theoretical knowledge. Reviewers often note that it's particularly good for beginners and covers more material than anticipated for an entry-level program. Some feedback indicates that while it offers a broad introduction, certain advanced topics lack depth and that specific software skills like PDMS require additional learning. There are also comments about content being incomplete (such as Module 7). Overall, it's viewed as a valuable starting point but may need supplemental resources for a comprehensive skillset.

Examples aid practical understanding.

"The practical examples really helped connect theory to real-world use."

"I appreciated the exercises for applying the concepts learned."

"Very useful hands-on activities included."

Syllabus covers wide range of topics.

"The course covers many essential topics mentioned in the syllabus."

"I liked how many different areas of piping design were introduced."

"It's a comprehensive overview of static and rotary equipment, drawings, etc."

Excellent starting point in piping design.

"This course is an excellent introduction to piping design."

"It provides a solid foundation for someone new to the field."

"Great for beginners who want an overview of the industry."

Course content is incomplete.

"Module 7 mentioned in the syllabus is not available yet."

"I was disappointed that the course wasn't fully completed."

"Still waiting for the final module to be added."

PDMS/software not fully covered.

"While PDMS is mentioned, the course doesn't teach how to use the software."

"You will need separate training for 3D modeling software like PDMS."

"Don't expect hands-on software training here."

Some advanced topics need more detail.

"Could use more in-depth coverage on complex topics or calculations."

"Certain areas felt a bit rushed or only briefly touched upon."

"Requires external resources for deeper understanding of specific subjects."

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 PG Diploma in Piping Design Engineering with these activities:

Review Fluid Mechanics Fundamentals

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Refresh your understanding of fluid mechanics principles to better grasp pipe sizing and fluid flow calculations in piping design.

Browse courses on Fluid Mechanics

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Review notes from previous fluid mechanics coursework.
Work through practice problems related to fluid flow and pressure drop.
Consult a fluid mechanics textbook for clarification on key concepts.

Create a Piping Component Guide

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Solidify your knowledge of piping components by creating a comprehensive guide that includes descriptions, applications, and selection criteria.

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Research different types of pipes, fittings, flanges, and valves.
Write descriptions of each component, including their applications.
Include selection criteria for each component based on factors like pressure, temperature, and fluid type.
Organize the information into a well-structured guide with visuals.

Read 'Piping Handbook' by Mohinder L. Nayyar

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Gain a comprehensive understanding of piping design principles and practices by studying a widely recognized industry handbook.

View Piping Databook on Amazon

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Obtain a copy of the Piping Handbook.
Read relevant chapters on pipe materials, design, and fabrication.
Take notes on key concepts and industry standards.

Four other activities

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Show all seven activities

Develop a P&ID for a Heat Exchanger System

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Practice creating a Piping and Instrumentation Diagram (P&ID) for a heat exchanger system to solidify your understanding of process representation.

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Research the components of a typical heat exchanger system.
Identify the required instrumentation and control loops.
Draw the P&ID using standard symbols and conventions.
Review the P&ID for accuracy and completeness.

Valve Selection Exercises

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Improve your valve selection skills by working through practical exercises that simulate real-world scenarios.

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Gather information on different valve types and their applications.
Find example scenarios requiring valve selection (e.g., controlling flow rate, preventing backflow).
Choose the appropriate valve for each scenario and justify your selection.

Design a Simple Piping System

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Apply your knowledge by designing a piping system for a simple process, reinforcing your understanding of component selection and layout.

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Select a simple process (e.g., water distribution) as the basis for your design.
Determine the required flow rates and pressures.
Select appropriate pipe materials, fittings, and valves.
Create a basic layout of the piping system.
Perform preliminary calculations to verify pipe sizing.

Study 'Process Piping: The Complete Guide to Design and Construction' by Peter Smith

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Enhance your understanding of the practical aspects of piping design and construction through a comprehensive guide.

View Piping Materials Guide on Amazon

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Obtain a copy of the book.
Focus on chapters related to fabrication, installation, and testing.
Compare the book's recommendations with industry standards.

Career center

Learners who complete PG Diploma in Piping Design Engineering will develop knowledge and skills that may be useful to these careers:

Piping Designer

A Piping Designer creates detailed plans and layouts for piping systems used in various industries. This course helps build a strong foundation in the fundamentals of piping, including the different types of plants and phases of plant designing. Understanding codes, standards, and piping components, as covered in the course, is crucial for a Piping Designer. The course's focus on practical application through exercises and its coverage of various design calculations and considerations will prepare you to create accurate and efficient piping designs. Since the course is designed to simulate real-world scenarios, learners will be well-equipped for the demands of the role.

See salaries and explore the career path for Piping Designer

Piping Engineer

The Piping Engineer is responsible for the design, analysis, and specification of piping systems, selecting appropriate materials, and ensuring systems meet safety and performance requirements. This course focuses on the core concepts of piping design, codes, standards, and the selection of valves and fittings, all essential for this role. The modules on design calculations, such as pipe size and thickness, and the different types of supports, are especially relevant. The coverage of 3D piping design in PDMS may be useful to Piping Engineers.

See salaries and explore the career path for Piping Engineer

Plant Design Engineer

A Plant Design Engineer is involved in the overall design and layout of industrial plants, including the piping systems. This course provides a comprehensive overview of plant types, design phases, and the interaction between piping and other departments, all essential for a Plant Design Engineer. Learning to read Process Flow Diagrams (PFDs), Utility Flow Diagrams (UFDs), and Piping and Instrumentation Diagrams (P&IDs) is also a key aspect of this role, and the course includes dedicated exercises. The modules on equipment, including static and rotary equipment, will provide valuable knowledge for understanding the overall plant design.

See salaries and explore the career path for Plant Design Engineer

Project Engineer

A Project Engineer manages engineering projects, ensuring they are completed on time and within budget, often involving the design and installation of piping systems. This course provides insights into project documentation, chemical process selection, and equipment layout, which are all managed by a Project Engineer. Learning to read PFDs, UFDs, and P&IDs is also crucial for overseeing the design and construction phases, and the course offers exercises for interpretation. Modules on piping fabrication, support, and design will prepare the Project Engineer to coordinate construction.

See salaries and explore the career path for Project Engineer

CAD Technician

A CAD Technician uses computer-aided design software to create detailed technical drawings and plans. This course provides significant knowledge about piping systems, components, and the creation of isometric and general arrangement drawings. Understanding the different types of plants, phases, and layouts of plants, as covered in the course, is crucial for accurately representing piping systems in CAD drawings. With the course's focus on codes and standards, learners will be prepared to create industry-compliant drawings that are beneficial for a CAD Technician.

See salaries and explore the career path for CAD Technician

Mechanical Engineer

Mechanical Engineers are often involved in the design and analysis of piping systems, especially in industries like oil and gas, chemical processing, and power generation. This course helps build a foundational understanding of the various types of equipment (static and rotary) connected by piping. The coverage of design calculations, such as pipe size and thickness determination, as well as the different types of stresses in piping systems, makes this course valuable. The course's knowledge of piping fabrication methods and support systems may be relevant to Mechanical Engineers.

See salaries and explore the career path for Mechanical Engineer

Process Engineer

A Process Engineer develops, designs, and optimizes industrial processes, which often involve complex piping systems. This course introduces key concepts of piping design, including codes, standards, and the selection of valves and fittings. Understanding PFDs, UFDs, and P&IDs is also crucial for a Process Engineer, and this course offers practical exercises to interpret them. This course may provide a comprehensive understanding of piping systems within the broader context of a chemical process.

See salaries and explore the career path for Process Engineer

Instrumentation Engineer

An Instrumentation Engineer designs, develops, and manages the instrumentation and control systems used in industrial processes, frequently working with P&IDs to understand the layout and control of piping systems. This course covers the fundamentals of piping and the ability to read and interpret P&IDs, providing a solid foundation for someone in this role. Understanding the various components and equipment within a piping system, as covered in this course, may be relevant to Instrumentation Engineers.

See salaries and explore the career path for Instrumentation Engineer

Quality Control Inspector

A Quality Control Inspector ensures that products and processes meet specific standards and requirements. This course covers codes and standards used in the industry, as well as piping fabrication methods and testing procedures. This knowledge may be very helpful for a Quality Control Inspector working with piping systems to assess the quality and compliance of piping components and installations. They can also use the lessons on instrumentation to better understand the role of process measurement.

See salaries and explore the career path for Quality Control Inspector

Plant Operator

A Plant Operator monitors and controls equipment in industrial plants, including piping systems, to ensure safe and efficient operation. This course offers an introduction to the different types of plants and the role of piping systems within them. The course's coverage of valves, fittings, and other piping components may be helpful for a Plant Operator to understand the function and maintenance requirements of these components. Exposure to P&IDs may provide insights into plant processes to Plant Operators.

See salaries and explore the career path for Plant Operator

Pipeline Engineer

A Pipeline Engineer is responsible for the design, construction, and maintenance of pipelines that transport liquids and gases over long distances. This course helps build a background of piping systems and the components used in them. The modules on design calculations, types of stresses in piping, and fabrication methods are especially relevant for ensuring the integrity and safety of pipelines. This course may be a beneficial primer on the more specific aspects relevant to pipelines.

See salaries and explore the career path for Pipeline Engineer

Field Engineer

A Field Engineer is responsible for providing technical support and oversight during construction projects, including the installation of piping systems. This course may provide a solid foundation of the fundamentals of piping design. Modules on fabrication methods, support systems, and different types of equipment provide valuable context for overseeing construction activities. The knowledge gained from reading P&IDs may be useful on site for Field Engineers.

See salaries and explore the career path for Field Engineer

Estimator

An Estimator calculates the cost of materials, labor, and equipment needed for construction projects, including those involving piping systems. This course provides learners valuable knowledge of piping components, valves, fittings, and supports, which are included in an estimate. Learners may find the course's insights into fabrication methods and industry standards help in accurately assessing project costs. This course may benefit Estimators working on projects with piping system design.

See salaries and explore the career path for Estimator

Civil Engineer

Civil Engineers can be involved in projects that include the design and construction of infrastructure that supports piping systems, such as pipelines and industrial plants. This course offers a comprehensive view of piping systems and their components, as well as the layout and design considerations for industrial plants. Understanding the relationship between piping systems and the overall infrastructure may be useful for Civil Engineer when developing project plans and designs.

See salaries and explore the career path for Civil Engineer

Sustainability Engineer

Sustainability Engineers focus on designing and implementing environmentally responsible solutions in engineering projects. This course may provide useful background on industry standards and design considerations. The modules on fluid properties, insulation, and energy balance may also be valuable for a Sustainability Engineer seeking to optimize the environmental performance of piping systems. The course's coverage of different types of fluids may be helpful.

See salaries and explore the career path for Sustainability Engineer

Reading list

We've selected two books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in PG Diploma in Piping Design Engineering.

Piping Databook

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This handbook comprehensive resource for piping design engineers. It covers a wide range of topics, including pipe materials, design calculations, fabrication, and installation. It serves as a valuable reference for understanding industry best practices and standards, adding significant depth to the course material. It is commonly used by industry professionals.

Piping Databook

Hardcover

$$$

Piping Materials Guide

Save

Provides a comprehensive overview of process piping design and construction. It covers topics such as materials selection, fabrication, installation, and testing. It valuable resource for understanding the practical aspects of piping design and construction, adding breadth to the course material. It is useful as additional reading.

Piping Materials Guide

Paperback

Check price

Piping Materials Guide

Kindle Edition

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PG Diploma in Piping Design Engineering

What's inside

Learning objectives

Syllabus

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Reviews summary

Entry-level piping design overview

Activities

Career center

Reading list

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