Director, Engineering Excellence

About The Position

Requirements

• 10+ years of progressive engineering experience, including 5+ years in engineering leadership or process excellence roles in discrete or industrial manufacturing.
• Demonstrated success establishing engineering standards, design governance, and reliability programs.
• Experience supporting rapid-growth, multi-site engineering organizations and new product introduction programs.
• Six Sigma certification (Black Belt or Master Black Belt preferred); strong command of DFSS, DMAIC, FMEA, and statistical engineering methods.
• Deep knowledge of FEA disciplines (structural, thermal, vibration, fatigue) and simulation validation/correlation practices.
• Solid grounding in reliability engineering, accelerated life testing, and verification and validation methodologies.
• Strong project management and change management skills, with the ability to multitask, prioritize, and meet deadlines in a fast-paced environment.
• Builds engineering standards and governance that are rigorous enough to be auditable and practical enough that engineers actually follow them.
• Uses data and statistical evidence to drive decisions, measures what matters, and pursues root-cause fixes rather than workarounds.
• A passion and drive for winning and the desire to help take the company to the next level.
• Must be able to build and sustain excellent relationships at multiple levels in the workplace and with various external constituencies.
• Lead, by example, demonstrating a hands-on approach and a strong commitment to achieving results.
• A respectful and collaborative communicator and natural coach who raises the technical bar without slowing the organization down.

Nice To Haves

• Experience in HVAC/R, thermal management, data center infrastructure, or comparable mission-critical capital equipment is ideal.

Responsibilities

• Develop and maintain engineering standards, procedures, and best practices across all product platforms.
• Establish engineering design governance, including design review methodologies and technical gate reviews embedded in the stage-gate process.
• Promote engineering consistency between product lines and sites.
• Drive engineering maturity assessments and the improvement initiatives that follow from them.
• Develop and implement product reliability strategies, requirements, and reliability growth programs.
• Lead Design and Process FMEA activities and define reliability testing and accelerated life testing methodologies.
• Establish reliability prediction methodologies for critical components and systems.
• Analyze field performance data, drive corrective actions, and support warranty reduction and product robustness initiatives.
• Develop company standards for structural, thermal, vibration, and fatigue analysis.
• Establish FEA validation and correlation methodologies; review and approve simulation methodologies and assumptions.
• Support critical product development programs with advanced engineering analysis and develop engineering guidelines for structural integrity and mechanical robustness.
• Champion simulation-driven design practices that shorten development cycles and reduce prototype iterations.
• Lead Design for Six Sigma (DFSS) initiatives and promote statistical engineering methodologies throughout product development.
• Apply DMAIC methodologies to engineering improvement projects and facilitate root cause investigations using Six Sigma tools.
• Establish process capability and variation reduction programs.
• Train engineering teams in statistical analysis and structured problem-solving methodologies.
• Establish verification and validation standards and define engineering test requirements and methodologies.
• Ensure proper correlation between simulation, laboratory testing, and field performance.
• Support product certification and qualification activities, including AHRI, UL/ETL, and client-specific qualification programs.
• Partner with the test organization on chiller and air handler validation and witness testing.
• Define and monitor engineering KPIs covering design quality, reliability, and engineering efficiency, with dashboards visible to engineering leadership.
• Develop engineering competency frameworks, identify capability gaps, and establish training programs for FEA, Six Sigma, and reliability engineering.
• Mentor engineering teams on advanced engineering practices.
• Establish lessons learned processes, promote design reuse and modular engineering approaches, and capture and share best practices across engineering teams.
• Complete a current-state assessment of engineering processes, design review rigor, reliability practices, and analysis capabilities – and publish a prioritized engineering excellence roadmap within the first 90 days.
• Stand up a consistent design review and technical gate review methodology across both sites and all product platforms.
• Establish the reliability engineering foundation: FMEA discipline on active NPD programs, reliability requirements, and a field data feedback loop driving corrective action.
• Launch the FEA center of excellence with documented standards, validation/correlation practices, and support to at least one major program (e.g., a chiller platform release).
• Establish baseline engineering KPIs (design quality, cycle time, change requests) and demonstrate measurable improvement by month 12.

Benefits

• Medical, dental, and vision insurance
• 401K
• Employee Assistance Program
• Paid time off