+447946739882, +2348151453146 
INFO@CHESSSUBSEAENGINEERING.ORG 
Description
Onshore, offshore, and subsea systems are critical to the oil and gas industry. They include various equipment and infrastructure such as pipelines, platforms, vessels, and machinery, among others. These systems require accurate and efficient design and engineering to ensure safe and reliable operation in challenging environments.
2D drafting and 3D CAD modeling with SOLIDWORKS is a popular software solution for designing onshore, offshore, and subsea systems. SOLIDWORKS provides powerful tools for creating detailed 2D drawings and 3D models of complex systems. With SOLIDWORKS, designers can quickly create detailed 3D models that can be used for simulation, analysis, and visualization.
One of the key benefits of using SOLIDWORKS is that it provides a streamlined workflow for designing complex systems. Designers can quickly create detailed 3D models and then use these models to generate detailed 2D drawings. This process saves time and ensures that the 2D drawings accurately reflect the 3D model.
SOLIDWORKS also provides a range of tools for simulating and analyzing onshore, offshore, and subsea systems. These tools allow designers to test the performance and safety of the system under various conditions, such as extreme temperatures, pressures, and loads. This information is critical for ensuring the safety and reliability of the system.
Overall, 2D drafting and 3D CAD modeling with SOLIDWORKS is a powerful tool for designing onshore, offshore, and subsea systems. It provides a streamlined workflow, powerful simulation and analysis tools, and the ability to create accurate and detailed 2D drawings. These features help ensure the safety, reliability, and efficiency of these critical systems.
Course Outline
Subsea Production Systems
Subsea Field Architecture
Subsea Distribution Systems
Offshore & Subsea Surveys
Subsea Structures Installation and Vessels
Subsea Cost Estimation
Subsea Control Systems
Subsea Power Supply
Subsea Project Execution and Interfaces
Mechanical Drafting / Drawings
Engineering or Technical Drawings
Pictorial Drawings
Types of Pictorial Drawings
Orthographic Projection
Orthographic Projection Hands-on Practice (Missing Views: Beginners)
Orthographic Projection Hands-on Practice (Sketching front and side views Using third angle projection)
Orthographic Projection Hands-on Practice Complete missing engineering design sketch – Intermediate)
Working Drawings
Line Types
Line Hands-on Practice (Intermediate)
Circular Features
Circular Hands-on Practice (Intermediate)
Sectional Views & Line Types
Dimensioning Lines
Two (2) Types of Placement of Dimensions
Basic Rules for Dimensioning
Dimensioning Hole Features
Rounds, Fillets, and Chamfers
What are 3D Models?
The Benefits of 3D Modeling
Good Modeling Practices
Design Intents – Top Down vs. Bottom Up
Top Down Modeling
Bottom Up Modeling
Module 1: Introduction to Solidworks
Concepts & Terminology
User Interface
Design Process
Design Intent
Design Method
Sketches
Features
Assemblies
Drawings
Model Editing
Module 2: Parts
Overview
Countertop
Faucet
Faucet Handle
Cabinet Door
Moldings
Hinge
Module 3: Assemblies
Assembly Design Methods
Assembly Preparation
Mates
In Context Design
Load an Assembly
Examine the Assembly
Module 4: Drawings
Drawing Documents
Vanity Cabinet Drawing Sheet
Faucet Assembly Drawing Sheet
Vanity Assembly Drawing Sheet
Module 5: Engineering Tasks
Building Multiple Configurations of Parts
Updating Models Automatically
Importing & Exporting Files
Performing Stress Analysis
Customizing SolidWorks
Sharing Models
Creating Photo Realistic Images of Models
Animating Assemblies
Managing Solidworks Files
Accessing Library of Standard Parts
Examining and Editing Model Geometry
Module 6: Step by Step Lesson
Getting Ready for Lessons
Creating a Box
Creating a Lid for the Box
Putting the Box in the Lid
Putting the Box and LID together
Creating a Drawing
Exercise 1: Bolt, Washer and Nut 2D & 3D Engineering Design
Exercise 2: Subsea Bend Restrictor 2D & 3D Engineering Design
Exercise 3: Subsea Bend Stiffiness 2D & 3D Engineering Design
Exercise 4: Subsea Flex Joint 2D & 3D Engineering Design
Assessment
Participant underpinning knowledge of Onshore Offshore & Subsea Systems 2D Drafting & 3D CAD Modeling with SOLIDWORKS at Level 1 & Level 2 shall be accessed with real time design and case studies at the conclusion of the course.
Professional Certificate
Issued directly by Chess Subsea Engineering Europe.
Participant may be presented for Offshore Petroleum Training Organization (OPITO) Certification.
How to Register
Click here to download registeration booklet on msword and email completed booklet to info@chesssubseaengineering.org directly.
