Senior Mechanical Engineer
Location: Dallas, TX
Responsibilities:
- Lead mechanical engineering designs and providing multi-disciplinary design leadership on projects. Design of mechanical systems including complete airside systems, heating and cooling hydronic plant systems, specialty exhaust systems, and steam systems.
- Coordinate with multiple disciplines and working in conjunction with project managers to deliver comprehensive and coordinated design deliverables.
- Assist, supervise, and mentor team members and deliver timely feedback and recognition to others.
- Maintain strong client relations as it pertains to project delivery and repeat business.
- Prepare drawings, specifications, technical reports, and presentation materials and incorporate sustainable design methods in buildings.
- Present technical material in traditional and innovative ways for review by technical and non-technical audiences.
- Participate in local Professional Associations.
- Responsible for quality standards, commercial metrics, and client relations for projects.
Requirements:
- Bachelor's degree in mechanical or architectural engineering required.
- Minimum 8 years of professional experience designing HVAC systems, including airside and hydronic system components, including experience working on hospital projects.
- Revit MEP proficiency.
- Familiarity with codes and standards, specifically IMC, IECC/ASHRAE 90.1, FGI/ASHRAE 170, LEED energy efficiency and indoor quality and NFPA.
- Strong interpersonal and communication skills essential for team-based work.
- Presentation skills with colleagues and clients of all levels and commercial/financial awareness.
- Ability to prioritize effectively, balance assigned work, and exceptional organization skills required for our constantly evolving environment.
Preferred Skills:
- Professional Engineering License in US.
- LEED Accreditation or WELL Certification.
- Engineering analysis and energy modeling experience, including whole building energy analysis, faรงade thermal analysis, and airflow modeling.
