Unity 3D Engineer

Roles and responsibilities

• Manage and maintain E3Ddatabases and projects
• Ensure data integrity,consistency, and accuracy
• Implement andmaintain E3D standards and bestpractices
• Manage and modify 3D models forPiping, equipment, E&I and Civil modules using E3Dsoftware
• Collaborate with engineering teams toensure design accuracy
• Manage and track projectdocumentation and revisions
• Ensure compliancewith project data management procedure
• Maintainaccurate records of design changes andupdates
• Provide technical support toengineering teams
• Collaborate with designers,engineers, and project managers
• Participate indesign reviews and meetings

Qualifications

• Bachelor's degree inengineering,
• Minimum 12+ years of experiencewith E3D software
• Proven expertise in 3Dmodelling, piping design, and datamanagement
• Strong analytical, problem-solving,and communication skills
• Ability to work in afast-paced, dynamic environment
• Goodcommunication & interpersonalskills

• An E3D Engineer (often referredto as an "E3D Designer" or "E3D PipingDesigner") specializes in using the E3D (Enterprise 3D)software, commonly used for the design and modeling of piping andequipment in various industrial sectors, particularly oil and gas,petrochemicals, and power generation. Here are the key skills andcompetencies typically associated with thisrole:

• Proficiencyin E3D Software: Expertise in using E3D software for3D modeling, design, and visualization of piping systems andequipmentlayouts.

• PipingDesign Knowledge: Strong understanding of pipingdesign principles, including materials, fittings, and constructionmethods, as well as relevant industry codes (e.g., ASME,API).

• 3DModeling Skills: Ability to create detailed 3Dmodels, including piping layouts, isometrics, and supportstructures, ensuring design accuracy and compliance withspecifications.

• Collaborationand Communication: Experience working inmultidisciplinary teams, effectively communicating designintentions and coordinating with mechanical, electrical, andstructuralengineers.

• StressAnalysis Awareness: Familiarity with stress analysisprinciples and the ability to collaborate with stress engineers toensure designintegrity.

• ProjectManagement: Skills in planning and managing designtasks, including scheduling and resource allocation to meet projectdeadlines.

• Problem-SolvingAbilities: Strong analytical skills to identifydesign challenges and develop practical solutions during the designand constructionphases.

• Documentationand Reporting: Proficiency in preparing technicaldocumentation, including design reports, specifications, and changeorders.

• QualityControl: Understanding of quality assuranceprocesses to ensure designs meet industry standards andspecifications.

• Mentorshipand Training: Ability to mentor junior designers andengineers, sharing knowledge of best practices in E3D design andmodeling.

Desired candidate profile

An E3D Engineer (often referred to as an "E3DDesigner" or "E3D Piping Designer")specializes in using the E3D (Enterprise 3D) software, commonlyused for the design and modeling of piping and equipment in variousindustrial sectors, particularly oil and gas, petrochemicals, andpower generation. Here are the key skills and competenciestypically associated with thisrole:

1. Proficiencyin E3D Software: Expertise in using E3D software for3D modeling, design, and visualization of piping systems andequipmentlayouts.

2. PipingDesign Knowledge: Strong understanding of pipingdesign principles, including materials, fittings, and constructionmethods, as well as relevant industry codes (e.g., ASME,API).

3. 3DModeling Skills: Ability to create detailed 3Dmodels, including piping layouts, isometrics, and supportstructures, ensuring design accuracy and compliance withspecifications.

4. Collaborationand Communication: Experience working inmultidisciplinary teams, effectively communicating designintentions and coordinating with mechanical, electrical, andstructuralengineers.

5. StressAnalysis Awareness: Familiarity with stress analysisprinciples and the ability to collaborate with stress engineers toensure designintegrity.

6. ProjectManagement: Skills in planning and managing designtasks, including scheduling and resource allocation to meet projectdeadlines.

7. Problem-SolvingAbilities: Strong analytical skills to identifydesign challenges and develop practical solutions during the designand constructionphases.

8. Documentationand Reporting: Proficiency in preparing technicaldocumentation, including design reports, specifications, and changeorders.

9. QualityControl: Understanding of quality assuranceprocesses to ensure designs meet industry standards andspecifications.

10. Mentorshipand Training: Ability to mentor junior designers andengineers, sharing knowledge of best practices in E3D design andmodeling.