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Skills

  • 3D Modeling
  • AutoCAD
  • Civil Engineering
  • Drawing
  • Engineering
  • Management
  • Mechanical Engineering
  • Naviswork
  • Office 365
  • Pipeline Engineering

Services

  • 3D Modeling & CAD | Autodesk AutoCAD

    $10/hr Starting at $25 Ongoing

    Dedicated Resource

    Experienced engineer specializing in accuracy and high-quality outcomes. With a robust background in point cloud processing, digital twin creation, and CAD design, I excel in managing large fleet scanning...

    3D ModelingAutoCADCivil EngineeringDrawingEngineering

About

As built 3D Modelling

Experienced engineer specializing in accuracy and high-quality outcomes. With a robust background in point cloud processing, digital twin creation, and CAD design, I excel in managing large fleet scanning projects. My skills extend to quality control and piping, particularly honed through years of experience in oil and gas projects. Whether it's ensuring precision in 3D models or producing detailed isometric drawings, I bring a comprehensive skill set to the table. Let's collaborate now!
And this is a summary of my skills :
1. Point Cloud Processing
2. Digital Twin Creation
3. CAD Design
4. 3D Modeling
5. Isometric Drawing
6. PDF Drawing
7. Large Fleet Scanning
8. Accuracy and Precision
9. Quality Control
10. Piping Design
11. Oil and Gas Projects
12. Project Management
13. Scanned File Processing
14. Technical Problem Solving
15. Team Collaboration

Work Terms

1. Piping Design: This involves creating detailed plans and specifications for piping systems, including selecting the appropriate materials, determining pipe routing, sizing, and ensuring compliance with relevant codes and standards.

2. Stress Analysis: Piping systems are subject to various forces and stresses, such as pressure, temperature, and vibration. Conducting stress analysis helps ensure that the piping systems can withstand these forces without failure or excessive deformation.

3. Equipment Layout: Collaborating with other engineers and designers to develop efficient and safe equipment layouts, considering factors such as space constraints, accessibility, and maintenance requirements.

4. Material Selection: Choosing appropriate materials for piping components based on factors such as fluid properties, temperature, pressure, and corrosion resistance.

5. Codes and Standards: Familiarizing yourself with industry codes and standards, such as ASME B31.3 for process piping, and ensuring that your designs comply with these requirements.

6. Collaboration and Communication: Working closely with other engineering disciplines, project managers, and construction teams to coordinate efforts, exchange information, and resolve any issues that may arise during the project.

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