Description

Responsibilities

 

  • Lead the design and analysis of high-temperature equipment, such as furnaces, kilns, ovens, heat exchangers, pressure vessels, scrubber systems, and related components.
  • Utilize engineering principles, computational tools, and simulation software to model, analyze, and optimize equipment performance, heat transfer, fluid dynamics, and structural integrity.
  • Conduct feasibility studies and provide input during the conceptual and detailed design phases of projects.
  • Collaborate with customers, sales teams, and project managers to understand project requirements and develop innovative equipment solutions.
  • Prepare detailed engineering drawings, specifications, and technical documentation to ensure accurate manufacturing and construction.
  • Perform risk assessments, failure mode and effects analyses (FMEA), and safety evaluations to ensure compliance with industry standards and regulations.
  • Support manufacturing, installation, and commissioning activities, providing technical guidance and troubleshooting as needed.
  • Lead and mentor a team of engineers, providing technical guidance, reviewing designs, and ensuring adherence to project schedules and budgets.
  • Stay updated with emerging technologies, materials, and industry best practices related to high-temperature equipment design and analysis.
  • Collaborate with suppliers, contractors, and internal teams to source components, conduct vendor evaluations, and ensure timely delivery of equipment.
  • Participate in continuous improvement initiatives to enhance product quality, performance, and customer satisfaction.

     

Requirements

 

  • Bachelor's degree in Mechanical Engineering or a related field. A Master's degree is preferred.
  • Extensive experience in the design, analysis, and optimization of high-temperature equipment, including furnaces, kilns, ovens, heat exchangers, pressure vessels, scrubber systems, etc.
  • Strong knowledge of heat transfer, fluid dynamics, thermodynamics, and structural analysis.
  • Proficiency in engineering design software and simulation tools, such as CAD, FEA, CFD, and heat transfer modeling.
  • Familiarity with industry codes and standards, including ASME, API, NFPA, and other relevant regulations.
  • Proven experience in leading and managing complex engineering projects.
  • Excellent problem-solving and analytical skills, with the ability to apply engineering principles to resolve technical challenges.
  • Strong communication and interpersonal skills, with the ability to effectively collaborate with cross-functional teams, clients, and suppliers.
  • Detail-oriented with a strong commitment to quality and customer satisfaction.
  • Demonstrated leadership abilities, with the capability to mentor and guide a team of engineers.
  • Ability to manage multiple projects simultaneously, prioritize tasks, and meet deadlines.

Education

Any Graduate