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Piping Design Engineering
Overview
Curriculum
FAQs
Instructor
Reviews
About Piping Design Engineering
Piping Design Engineering is a specialized discipline that focuses on designing safe, efficient, and reliable piping systems used to transport fluids across industrial plants. It combines engineering principles, 3D modeling, material science, safety standards, and practical field knowledge to create layouts that ensure smooth plant operations. In the oil & gas sector, piping design plays a critical role because even the smallest design error can impact production, safety, and project cost.
A well‑designed piping system ensures optimal flow, reduces maintenance issues, prevents failures, and supports long-term plant reliability. This course is designed to give learners a strong foundation in modern piping design tools, industry codes, and real‑world project workflows used across EPC companies and refineries.
Importance of Piping Design in the Oil & Gas Sector
Piping systems form the backbone of oil & gas plants—connecting equipment, transporting hydrocarbons, and ensuring safe processing. Accurate piping design helps prevent leaks, pressure failures, corrosion issues, and operational downtime. It ensures compliance with international standards like ASME, API, and ISO, which are mandatory for global projects. Effective piping design also reduces project cost, improves constructability, enhances plant safety, and supports smooth commissioning. In short, without proper piping design, no refinery, petrochemical plant, or gas processing facility can operate efficiently.
What you'll learn
- Fundamentals of piping design, terminology, and industry workflow
- Understanding P&ID, equipment layout, and process flow diagrams
- Pipe routing techniques for refineries, petrochemical, and chemical plants
- Selection of piping materials, fittings, valves, and insulation
- Introduction to ASME, API, ASTM, and other essential piping codes
- 3D modeling and drafting concepts used in modern design software
- Isometric drawing creation, bill of materials (BOM), and spool preparation
- Stress analysis basics and understanding of critical lines
- Layout development for pumps, compressors, heat exchangers, and vessels
- Practical project documentation, coordination, and construction support
If you want to keep Schedule
Monday to Friday – 7 pm to 9 pm
Saturday and Sunday – 10 AM to 2 PM
Training Mode: Online Live
Training Platform: Microsoft Teams
Who is this course for
- Chemical Engineer
- Mechanical Engineer
- Piping engineer
- Material engineer
- Any Graduate
- Diploma: Mechanical or chemical
- ITI Draughtsman
- 2 Sections
- 0 Lessons
- 120 Hours
Expand all sectionsCollapse all sections
- Piping Design Engineering
Overview
Process plant industry overview and basic concepts
Introduction of EPC Industry
Coordination with other disciplines
Plant Layout and Plot Plans
Plant layout specifications
Codes and safety considerations
Development of plot plans
Plot plan use by disciplines
Sample plot plans and Equipment arrangement drawings
Layout case studies
Dyke Wall Calculations
Codes and Standards
Introduction to B31.3 process piping codes
ASME standards for Common Piping Elements
Piping specifications
Material selection
Piping System Components
Basics of flanges
Flange ratings and Flange types
Flange data tables and their use
Piping restraints
Supports, anchors and guides
Pipe and Pipe Fittings
Pipe dimensions and pipe representation
Use of pipe data tables
Pipe joining methods
Pipe fittings
Elbows, Tees
Reducers
End caps
Fitting dimensions and tables
Miter Bend Calculations
Valve
Different types of valves and their applications
Valve data tables
Pipe Supports
Classification of Supports
Anchors, Pipe Guides, Limit Stops, Pipe Shoe
Dummy Leg / Trunion
Field Support / Base Support
Rigid Hangers Rod & Clevis, Trapeze
Flexible Hangers Variable & Constant
Pipe Rack Design Types, Height & Width Calculations
Pipes Arrangements
Rack Piping
Expansion Loop Calculations
Piping Material Specifications
Material properties
Classification of materials
Material specifications (ASTM)
Common piping materials
Piping specifications
Material selection
Material testing, inspection and QA
Piping Layout of Equipment
Pipe Rack Piping
Equipment foundations and supports
Equipment data sheets
Equipment sketches
Equipment nozzle specifications
Equipment foundation drawings
Drum, Pump & Compressor Piping
Heat Exchanger Piping
Column Piping, Tank Farm Piping
Underground Piping
Line Sizing & Hydraulic Calculations
Flow rate, velocity, pipe sizing calculations
Reynolds number – laminar/turbulent flow
Darcy Weisbach & Hazen William equations
Pressure drop calculations, NPSH calculations
Piping GAD and Isometric
Equipment lists
Piping line lists
Piping Plan Development
Preparing Piping Layout Drawings by placing instruments, valves etc
Rack Piping
Pipe Rack Spacing, drawing pipe in the rack
Piping Isometrics & Definition
Piping Isometrics Drawings
Isometric Dimensions, Notes & Callouts
Isometric Offsets
Print Reading Exercises
Exercises on creation of Isometrics from Piping plans and sections
0 - Piping 3D Modelling
Equipment Modelling
Introduction about 3D Tools
Creating Equipment by using primitives
Creating Equipment by using cut-out primitives
Creating different shapes using extrusion primitives
Creating Equipment by using Tool’s Standards Catalogue
Position of equipment, creation & modification
How to create nozzles & modification
Nozzle orientation
Nozzles placement & manipulation
Understanding parameters & attributes
Copy of primitive and offset, mirror and rotate
Working with 2D & 3D view
Using explicit and relative positioning, basic equipment creation, position control tools
Usage of the Model Editor Tool, edit settings, selection, etc.
General settings, display settings, members, view settings and command window
General query setting
DB Utility
Pipe Design
Basics of piping fundamentals
Pipe & branch creations
Pipe work hierarchy, pipe orientation, connect method of pipe
Pipe routing & slope piping
Pipe creation using explicit method
Split piping
Create insulation of pipe, create tracing of piping
Modification of specification, component bore/specification
Positioning of branch piping components, maintaining bottom of pipe (BOP)
Manipulating piping components & assemblies
Checking data consistency
Specific item MTO on and off
Creation of RVM file for Naviswork Review
Structure Modelling
Create a structural hierarchy
Create grid
Create a section using straight, curved and ring methods
About modification of section elements, positioning of section, creating bracing, mitre ends
Creation of panel, panel specification selection, negative extrusion, splitting of panel
Creation of wall & floor, modification of wall & floor, applying fittings for walls & floors
ALS module
Creation & modification of stair flight, stair tower, ladder and platform
ISO Draft
Extracting isometrics
Preparing isometrics for fabrication & erection
ISO drawings conversion to DXF & DWG
Draft
Generating 2D view from 3D view
Preparing layouts using Draft modules
Creating different views
Creation of department, sheet, user-defined view, limits-defined view
Modification of sheet & view
Creation of predefined frame
Intelligent text
Annotation & dimensioning
Supports
Using MDS Module
Creation of hangers & supports
Modification of hangers
Pipe rack configuration
Positioning of supports
Report Generation (MTO)
Report generation using templates
Creation of template and modification of reports
Filtering reports
Pipe & steel MTO
Nozzle & valve schedule preparation
Column report
Report summary and report format
0
Robotics/IoT Engineering is a field that combines robotics, embedded systems, sensor technology, and the Internet of Things to create smart, automated, and connected machines or devices.
Engineering students (ECE, EEE, CSE, Mechanical, Mechatronics), diploma holders, and working professionals interested in automation and smart technologies can join.
No. Basic coding knowledge helps, but all required programming skills (Arduino, Python, C/C++) are taught from scratch.
Yes. The program includes hands-on projects with sensors, microcontrollers, robotics kits, IoT modules, and real-time cloud connectivity.
You will learn Arduino, Raspberry Pi, ESP32, sensors, actuators, MQTT, Wi-Fi/BLE, cloud platforms (AWS, Azure, Google Cloud), and robotics control systems.
Amol Sir (Piping Design) – 22 Years of Experience
0 Students1 Course
Our Piping Design Engineering course is led by a highly experienced professional with over 23 years of industry and teaching experience. He has worked as a Lead Piping Engineer on major projects across the Oil & Gas, FMCG, and Dairy sectors, handling everything from design to site execution. His deep knowledge and practical approach make him an ideal mentor for aspiring piping engineers.
Industry Experience Highlights
Designed and managed complex piping systems for refineries, chemical plants, and industrial facilities Expert in AutoCAD Plant 3D, MicroStation, E3D, and AutoCAD for piping design and modeling Skilled in preparing Piping Isometric Drawings, Material Take-Off (MTO), and Bill of Quantity (BOQ) Strong command over Line List preparation, Pipe Routing, and Equipment Layouts Hands-on experience in site supervision, erection, pre-commissioning, and commissioning activities Deep understanding of international codes and standards like ASME B31.3, ASTM, API, BS, ISO, and OISD Knowledge of utility systems, pressure vessels, and process equipment Familiar with equipment and packages like Separators, FW KOD, Heater Treaters, Scrubbers, Pumps, Heat Exchangers, Pig Launcher & Receiver, Closed Drain Systems, and Well Manifolds
Teaching Experience
Over 12 years of teaching and mentoring engineering students and working professionals Known for simplifying complex topics and delivering practical, project-based training Trained hundreds of engineers who now work in top companies across India and abroad Excellent communication skills and a passion for sharing real-world knowledge
Why Learn from Him?
With his strong technical background and field experience, our trainer brings unmatched value to this course. He not only teaches software and theory but also shares practical insights from live projects, helping learners become job-ready and confident in piping design.
Piping Design Engineering
Description
About Piping Design Engineering
Piping Design Engineering is a specialized discipline that focuses on designing safe, efficient, and reliable piping systems used to transport fluids across industrial plants. It combines engineering principles, 3D modeling, material science, safety standards, and practical field knowledge to create layouts that ensure smooth plant operations. In the oil & gas sector, piping design plays a critical role because even the smallest design error can impact production, safety, and project cost.
A well‑designed piping system ensures optimal flow, reduces maintenance issues, prevents failures, and supports long-term plant reliability. This course is designed to give learners a strong foundation in modern piping design tools, industry codes, and real‑world project workflows used across EPC companies and refineries.
Importance of Piping Design in the Oil & Gas Sector
Piping systems form the backbone of oil & gas plants—connecting equipment, transporting hydrocarbons, and ensuring safe processing. Accurate piping design helps prevent leaks, pressure failures, corrosion issues, and operational downtime. It ensures compliance with international standards like ASME, API, and ISO, which are mandatory for global projects. Effective piping design also reduces project cost, improves constructability, enhances plant safety, and supports smooth commissioning. In short, without proper piping design, no refinery, petrochemical plant, or gas processing facility can operate efficiently.
What you'll learn
- Fundamentals of piping design, terminology, and industry workflow
- Understanding P&ID, equipment layout, and process flow diagrams
- Pipe routing techniques for refineries, petrochemical, and chemical plants
- Selection of piping materials, fittings, valves, and insulation
- Introduction to ASME, API, ASTM, and other essential piping codes
- 3D modeling and drafting concepts used in modern design software
- Isometric drawing creation, bill of materials (BOM), and spool preparation
- Stress analysis basics and understanding of critical lines
- Layout development for pumps, compressors, heat exchangers, and vessels
- Practical project documentation, coordination, and construction support
If you want to keep Schedule
Monday to Friday – 7 pm to 9 pm
Saturday and Sunday – 10 AM to 2 PM
Training Mode: Online Live
Training Platform: Microsoft Teams
Who is this course for
- Chemical Engineer
- Mechanical Engineer
- Piping engineer
- Material engineer
- Any Graduate
- Diploma: Mechanical or chemical
- ITI Draughtsman
Curriculum
- 2 Sections
- 0 Lessons
- 120 Hours
Expand all sectionsCollapse all sections
- Piping Design Engineering
Overview
Process plant industry overview and basic concepts
Introduction of EPC Industry
Coordination with other disciplines
Plant Layout and Plot Plans
Plant layout specifications
Codes and safety considerations
Development of plot plans
Plot plan use by disciplines
Sample plot plans and Equipment arrangement drawings
Layout case studies
Dyke Wall Calculations
Codes and Standards
Introduction to B31.3 process piping codes
ASME standards for Common Piping Elements
Piping specifications
Material selection
Piping System Components
Basics of flanges
Flange ratings and Flange types
Flange data tables and their use
Piping restraints
Supports, anchors and guides
Pipe and Pipe Fittings
Pipe dimensions and pipe representation
Use of pipe data tables
Pipe joining methods
Pipe fittings
Elbows, Tees
Reducers
End caps
Fitting dimensions and tables
Miter Bend Calculations
Valve
Different types of valves and their applications
Valve data tables
Pipe Supports
Classification of Supports
Anchors, Pipe Guides, Limit Stops, Pipe Shoe
Dummy Leg / Trunion
Field Support / Base Support
Rigid Hangers Rod & Clevis, Trapeze
Flexible Hangers Variable & Constant
Pipe Rack Design Types, Height & Width Calculations
Pipes Arrangements
Rack Piping
Expansion Loop Calculations
Piping Material Specifications
Material properties
Classification of materials
Material specifications (ASTM)
Common piping materials
Piping specifications
Material selection
Material testing, inspection and QA
Piping Layout of Equipment
Pipe Rack Piping
Equipment foundations and supports
Equipment data sheets
Equipment sketches
Equipment nozzle specifications
Equipment foundation drawings
Drum, Pump & Compressor Piping
Heat Exchanger Piping
Column Piping, Tank Farm Piping
Underground Piping
Line Sizing & Hydraulic Calculations
Flow rate, velocity, pipe sizing calculations
Reynolds number – laminar/turbulent flow
Darcy Weisbach & Hazen William equations
Pressure drop calculations, NPSH calculations
Piping GAD and Isometric
Equipment lists
Piping line lists
Piping Plan Development
Preparing Piping Layout Drawings by placing instruments, valves etc
Rack Piping
Pipe Rack Spacing, drawing pipe in the rack
Piping Isometrics & Definition
Piping Isometrics Drawings
Isometric Dimensions, Notes & Callouts
Isometric Offsets
Print Reading Exercises
Exercises on creation of Isometrics from Piping plans and sections
0 - Piping 3D Modelling
Equipment Modelling
Introduction about 3D Tools
Creating Equipment by using primitives
Creating Equipment by using cut-out primitives
Creating different shapes using extrusion primitives
Creating Equipment by using Tool’s Standards Catalogue
Position of equipment, creation & modification
How to create nozzles & modification
Nozzle orientation
Nozzles placement & manipulation
Understanding parameters & attributes
Copy of primitive and offset, mirror and rotate
Working with 2D & 3D view
Using explicit and relative positioning, basic equipment creation, position control tools
Usage of the Model Editor Tool, edit settings, selection, etc.
General settings, display settings, members, view settings and command window
General query setting
DB Utility
Pipe Design
Basics of piping fundamentals
Pipe & branch creations
Pipe work hierarchy, pipe orientation, connect method of pipe
Pipe routing & slope piping
Pipe creation using explicit method
Split piping
Create insulation of pipe, create tracing of piping
Modification of specification, component bore/specification
Positioning of branch piping components, maintaining bottom of pipe (BOP)
Manipulating piping components & assemblies
Checking data consistency
Specific item MTO on and off
Creation of RVM file for Naviswork Review
Structure Modelling
Create a structural hierarchy
Create grid
Create a section using straight, curved and ring methods
About modification of section elements, positioning of section, creating bracing, mitre ends
Creation of panel, panel specification selection, negative extrusion, splitting of panel
Creation of wall & floor, modification of wall & floor, applying fittings for walls & floors
ALS module
Creation & modification of stair flight, stair tower, ladder and platform
ISO Draft
Extracting isometrics
Preparing isometrics for fabrication & erection
ISO drawings conversion to DXF & DWG
Draft
Generating 2D view from 3D view
Preparing layouts using Draft modules
Creating different views
Creation of department, sheet, user-defined view, limits-defined view
Modification of sheet & view
Creation of predefined frame
Intelligent text
Annotation & dimensioning
Supports
Using MDS Module
Creation of hangers & supports
Modification of hangers
Pipe rack configuration
Positioning of supports
Report Generation (MTO)
Report generation using templates
Creation of template and modification of reports
Filtering reports
Pipe & steel MTO
Nozzle & valve schedule preparation
Column report
Report summary and report format
0
FAQs
Robotics/IoT Engineering is a field that combines robotics, embedded systems, sensor technology, and the Internet of Things to create smart, automated, and connected machines or devices.
Engineering students (ECE, EEE, CSE, Mechanical, Mechatronics), diploma holders, and working professionals interested in automation and smart technologies can join.
No. Basic coding knowledge helps, but all required programming skills (Arduino, Python, C/C++) are taught from scratch.
Yes. The program includes hands-on projects with sensors, microcontrollers, robotics kits, IoT modules, and real-time cloud connectivity.
You will learn Arduino, Raspberry Pi, ESP32, sensors, actuators, MQTT, Wi-Fi/BLE, cloud platforms (AWS, Azure, Google Cloud), and robotics control systems.
Instructor
Amol Sir (Piping Design) – 22 Years of Experience
0 Students1 Course
Our Piping Design Engineering course is led by a highly experienced professional with over 23 years of industry and teaching experience. He has worked as a Lead Piping Engineer on major projects across the Oil & Gas, FMCG, and Dairy sectors, handling everything from design to site execution. His deep knowledge and practical approach make him an ideal mentor for aspiring piping engineers.
Industry Experience Highlights
Designed and managed complex piping systems for refineries, chemical plants, and industrial facilities Expert in AutoCAD Plant 3D, MicroStation, E3D, and AutoCAD for piping design and modeling Skilled in preparing Piping Isometric Drawings, Material Take-Off (MTO), and Bill of Quantity (BOQ) Strong command over Line List preparation, Pipe Routing, and Equipment Layouts Hands-on experience in site supervision, erection, pre-commissioning, and commissioning activities Deep understanding of international codes and standards like ASME B31.3, ASTM, API, BS, ISO, and OISD Knowledge of utility systems, pressure vessels, and process equipment Familiar with equipment and packages like Separators, FW KOD, Heater Treaters, Scrubbers, Pumps, Heat Exchangers, Pig Launcher & Receiver, Closed Drain Systems, and Well Manifolds
Teaching Experience
Over 12 years of teaching and mentoring engineering students and working professionals Known for simplifying complex topics and delivering practical, project-based training Trained hundreds of engineers who now work in top companies across India and abroad Excellent communication skills and a passion for sharing real-world knowledge
Why Learn from Him?
With his strong technical background and field experience, our trainer brings unmatched value to this course. He not only teaches software and theory but also shares practical insights from live projects, helping learners become job-ready and confident in piping design.
Reviews
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