Piping Design Course & Training in Toronto

Course Title Duration Details Register
Piping Design and Engineering I 36 h (4 weeks) Details
Piping Design and Engineering II 36 h (4 weeks) Details
Pipeline Hydraulic Design 36 h (6 weeks) Details
Piping Stress Analysis 30 h (4 weeks) Details
Pump Design and Operation 18 h (3 weeks) Details
Piping Materials 18 h (3 weeks) Details
Fittings and Flanges and Valves 12 h (1 week) Details
Piping Diagrams 18 h (3 weeks) Details
Process Plant Layout Design 18 h (3 weeks) Details
Introduction to ASME B31.3 18 h (3 weeks) Details

Details

Piping Design and Engineering I

Course Content Who will benefit Schedule
  • Basics of Fluid Mechanics
  • Pipe Hydraulics and Sizing
  • Pipeline Design (Liquid and Gas Pipelines)
  • Piping Sizes and Schedules
  • Piping Components: Fittings, Flanges, Valves, Gaskets and Bolts
  • Methods of Piping Components Connections
  • Roles and Responsibilities of Piping Engineers and Drafters
  • Piping Components Material of Construction
  • Piping Charts and Tables
  • Piping Manufacturing and Construction
  • Process Plant Project Phases
  • Piping Codes and Standards
The course provides substantial technical details and it is designed for technical personnel, all engineering disciplines, piping engineers and technologists, manufacturing engineers and technologies, and graduate students. Each course offers:
1) Theory/common practice
2) plant tour (if applicable)
3) Software
3) hands-on industrial project
4) prevalent codes/standards (if applicable)
5) final project evaluation by a panel of experts
6) providing reference letter
Date Feb. 15 Mar. 15 Apr. 12 May 10
Days Wed. (5:30 pm – 8:30 pm)
Sat. (10:00 am – 4:00 pm)
36 Hours (4 weeks)

Piping Design and Engineering II

Course Content Who will benefit Schedule
  • Piping Arrangement and Nozzle Orientation
  • Process Plant Equipment Piping
  • Plot Plant, Elevation Drawings, Equipment Drawings
  • Process Plant Layout Design
  • Piping Stress Analysis
  • Piping Flexibility Analysis
  • Thermal Expansion Loop Design and Calculation
  • Thermal Expansion Joint Design and Calculation
  • Piping Supports
  • Piping Pressure Design
  • Piping Wall Thickness
  • Piping Insulation
The course provides substantial technical details and it is designed for technical personnel, all engineering disciplines, piping engineers and technologists, manufacturing engineers and technologies, and graduate students. Each course offers:
1) Theory/common practice
2) plant tour (if applicable)
3) Software
3) hands-on industrial project
4) prevalent codes/standards (if applicable)
5) final project evaluation by a panel of experts
6) providing reference letter
Date Feb. 14 Mar. 14 Apr. 11 May 9
Days Tue. (5:30 pm – 8:30 pm)
Sun. (10:00 am – 4:00 pm)
36 Hours (4 weeks)

Piping Stress Analysis

Course Content Who will benefit Schedule
  • Strength of Materials
  • Introduction to Stress Analysis
  • Stress and Strain Calculations
  • Stress Analysis in Pipelines
  • Codes and Standards
  • Flexibility Analysis in Pipelines
  • Thermal Loop Expansion Design
  • Expansion Joint Design
  • Pipe Span Calculation
  • Pipe Supports
  • Support Selection and Design
The course provides substantial technical details and it is designed for technical personnel, all engineering disciplines, consulting and engineering staff, piping engineers and technicians, and graduate students. Each course offers:
1) Theory/common practice
2) plant tour (if applicable)
3) Software
3) hands-on industrial project
4) prevalent codes/standards (if applicable)
5) final project evaluation by a panel of experts
6) providing reference letter
Date Feb. 27 Apr. 10 May 22 Jul. 3
Days Mon. (5:30 pm – 8:30 pm)
Thurs. (5:30 am – 9:00 pm)
30 Hours (4 weeks)

Pump Design and Operation

Course Content Who will benefit Schedule
  • Principles of Hydraulics
  • Centrifugal Pumps
  • Rotary Pumps
  • Reciprocating Pumps
  • Special service Pumps
  • Elements of Pump Design
  • Specific Speed and Modeling Laws
  • Impeller Design
  • Volute Design
  • NPSH Calculation
  • Mechanical Design

The course provides substantial technical details and it is designed for technical personnel, all engineering disciplines, consulting and engineering staff, manufacturing engineers and technicians, and graduate students. Each course offers:
1) Theory/common practice
2) plant tour (if applicable)
3) Software
3) hands-on industrial project
4) prevalent codes/standards (if applicable)
5) final project evaluation by a panel of experts
6) providing reference letter

Date Feb. 27 Apr. 10 May 22 Jul. 3
Days Mon. (5:30 pm – 8:30 pm)
Wed. (5:30 pm – 8:30 pm)
18 Hours (3 weeks)

Piping Materials

Course Content Who will benefit Schedule
  • Piping material duties and responsibilities
  • Introduction to piping components
  • Material of construction
  • Piping classes
  • Pipe material selection
  • Pipe sizes
  • Pipe schedules
  • Piping standards
  • Pipe manufacturing
  • Pipe ends
  • Pipe connections

The course provides substantial technical details and it is designed for technical personnel, all engineering disciplines, consulting and engineering staff, manufacturing engineers and technologists, and graduate students. Each course offers:
1) Theory/common practice
2) plant tour (if applicable)
3) Software
3) hands-on industrial project
4) prevalent codes/standards (if applicable)
5) final project evaluation by a panel of experts
6) providing reference letter

Date Feb. 14 Mar. 14 Apr. 11 May 9
Days Tue. (5:30 pm – 8:30 pm)
Thu. (5:30 pm – 8:30 pm)
18 Hours (3 weeks)

Fittings, Flanges and Valves

Course Content Who will benefit Schedule
  • Introduction to fittings
  • Classifications of fittings
  • Fittings selection
  • Fittings applications
  • Introduction to flanges
  • Flanges Applications
  • Flanges Ratings
  • Flanges Facing
  • Material of Construction
  • Bolts
  • Gaskets
  • Introduction to Valves
  • Valve components
  • Principal functions
  • Valve types
  • Valves applications
  • Valve selection

The course provides substantial technical details and it is designed for technical personnel, all engineering disciplines, piping engineers and technologists, manufacturing engineers and technologies, and graduate students. Each course offers:
1) Theory/common practice
2) plant tour (if applicable)
3) Software
3) hands-on industrial project
4) prevalent codes/standards (if applicable)
5) final project evaluation by a panel of experts
6) providing reference letter

Date Feb. 18 Apr. 15 May 20 Jul. 1
Days Sat. (10:00 am – 4:00 pm)
Sun. (10:00 am – 4:00 pm)
12 Hours (1 week)

Piping Diagrams

Course Content Who will benefit Schedule
  • Block Flow Diagram
  • Process Flow Diagram
  • Process Symbols
  • Piping and Instrumentation Diagram
  • Plot Plans
  • Elevation Drawings
  • Equipment Drawings
  • Plant Layouts
  • Nozzle Arrangements
  • Piping Isometrics

The course provides substantial technical details on piping drawings and it is designed for technical personnel, all engineering disciplines, piping engineers and technologists, manufacturing engineers and technicians, process engineers and technicians, and graduate students. Course offers:
1) Theory/common practice
2) plant tour (if applicable)
3) Software
3) hands-on industrial project
4) prevalent codes/standards (if applicable)
5) final project evaluation by a panel of experts
6) providing reference letter

Date Feb. 21 Mar. 21 Apr. 18 May 16
Days Tue. (5:30 pm – 8:30 pm)
Thu. (5:30 pm – 8:30 pm)
18 Hours (3 weeks)

Process Plant Layout Design

Course Content Who will benefit Schedule
  • Plant Layout Designer role
  • Plant layout specification
  • Plot plans
  • Tanks Piping
  • Pumps Piping
  • Compressors Piping
  • Drums Piping
  • Exchangers Piping
  • Furnaces Piping
  • Reactors Piping
  • Towers Piping
  • Pipe Racks
  • Underground Piping
  • Instrumentation

This course provides substantial technical details and it is designed for technical personnel, all engineering disciplines, consulting and engineering staff, and graduate students. Course offers:
1) Theory/common practice
2) plant tour (if applicable)
3) Software
3) hands-on industrial project
4) prevalent codes/standards (if applicable)
5) final project evaluation by a panel of experts
6) providing reference letter

Date Feb. 27 Apr. 10 May 22 Jul. 3
Days Mon. (5:30 pm – 8:30 pm)
Wed. (5:30 pm – 8:30 pm)
18 Hours (3 weeks)

Introduction to ASME B31.3

Course Content Who will benefit Schedule
  • History of Piping Codes
  • ASME B31 Operations and Scope
  • Piping Failure Modes
  • Piping Design Conditions
  • Piping Design Criteria
  • Pressure Design of Straight Pipe
  • Pressure Design of Piping Components
  • Guarding Against Piping Collapse
  • Providing Adequate Piping Flexibility
  • Cold Spring
  • Stress Intensification Factors
  • Piping Analysis and Layout
  • Pipe Support Design

This course provides substantial technical details and it is designed for technical personnel, all engineering disciplines, consulting and engineering staff, manufacturing engineers and technologists, and graduate students. Course offers:
1) Theory/common practice
2) plant tour (if applicable)
3) Software
3) hands-on industrial project
4) prevalent codes/standards (if applicable)
5) final project evaluation by a panel of experts
6) providing reference letter

Date Feb. 18 Apr. 15 May 27 Jul. 8
Days Sat. (10:00 am – 4:00 pm)
18 Hours (3 weeks)

Pipeline Hydraulic Design

Course Content Who will benefit Schedule
  • Units and Conversions
  • Fluid Flow and Classifications
  • Flow Regimes and Reynolds Number
  • Velocity, Head Loss Calculations
  • Fluid Flow Equations
  • Gas and Liquid Pipeline Hydraulic Design
  • Injections and Delivery in Pipelines
  • Pipe Loops Design
  • Parallel and Series Pipelines

The course provides substantial technical details and it is designed for technical personnel, all engineering disciplines, consulting and engineering staff, and graduate students. Course offers:
1) Theory/common practice
2) plant tour (if applicable)
3) Software
3) hands-on industrial project
4) prevalent codes/standards (if applicable)
5) final project evaluation by a panel of experts
6) providing reference letter

Date Feb. 27 Apr. 10 May 22 Jul. 3
Days Mon. (5:00 pm – 8:00 pm)
Thu. (5:00 pm – 8:00 pm)
36 Hours (6 weeks)