Report

Senior Mechanical Engineer - CFD

Salary

$116k - $142k

Min Experience

6 years

Location

Buffalo or Goodyear or Phoenix

JobType

full-time

About the job

Info This job is sourced from a job board

Overview

About the role

Job Title
Senior Mechanical Engineer | CFD Engineer | Thermal Systems Engineer – BESS & Modular Infrastructure

Location
Phoenix, AZ or Buffalo, NY

Department
Engineering

Employment Type
Full-Time | Exempt

Company Overview
GTI Energy, a division of GTI Fabrication, designs, engineers, and manufactures complex modular systems supporting battery energy storage systems (BESS), modular data center infrastructure, power generation platforms, and industrial energy systems. Our products integrate structural, mechanical, thermal, and electrical systems into highly engineered enclosures operating in demanding real-world environments.

GTI operates in a fast-paced, engineered-to-order manufacturing environment where thermal performance, airflow management, manufacturability, and system reliability are critical to product success. Our engineering teams develop modular infrastructure products that must operate safely and efficiently under high thermal loads, constrained packaging conditions, and extreme ambient environments.

Position Overview
GTI Energy is seeking a Senior Mechanical Engineer with deep Computational Fluid Dynamics (CFD) and thermal systems expertise to lead airflow, cooling, and thermal management design across modular energy and infrastructure products. This role will focus heavily on CFD-driven product development for enclosed systems including BESS platforms, modular data centers, power distribution equipment, and power generation systems.

This is not a traditional HVAC or commercial building engineering role. GTI is specifically seeking engineers who have designed cooling systems for enclosed industrial equipment operating under real-world constraints including space limitations, airflow recirculation, heat rejection challenges, manufacturability, vibration, acoustics, and serviceability.

The ideal candidate has experience modeling and optimizing thermal performance for battery systems, power electronics, generator enclosures, industrial skids, switchgear systems, or modular data center infrastructure where thermal performance directly impacts product reliability and operational uptime.

Key Responsibilities

CFD Modeling & Thermal Analysis

Lead CFD analysis and thermal modeling activities for enclosed industrial systems and modular infrastructure products
Develop airflow simulations for BESS enclosures, modular data centers, power electronics, electrical rooms, and integrated equipment platforms
Analyze airflow distribution, pressure drop, temperature gradients, recirculation zones, hot spots, and thermal rejection performance
Validate system performance under worst-case operating and ambient conditions
Optimize thermal architectures to improve cooling efficiency, reliability, acoustics, and manufacturability

Cooling System Design & Airflow Management

Design and integrate cooling systems based on actual equipment heat loads and operational requirements
Develop enclosure airflow strategies including intake/exhaust placement, ducting, baffles, plenums, circulation paths, and pressure balancing
Select and integrate off-the-shelf cooling equipment including HVAC units, heat exchangers, fans, chillers, and thermal management systems
Design for real-world operating environments including dust, humidity, vibration, solar loading, and extreme ambient conditions
Ensure designs meet thermal performance targets without excessive cost, noise, or packaging complexity

Mechanical System Design & Product Development

Support mechanical packaging and enclosure design activities related to thermal system integration
Coordinate thermal system layouts with structural, electrical, and manufacturing constraints
Develop CAD models, engineering drawings, and BOMs supporting thermal and mechanical integration
Ensure designs support manufacturability, serviceability, maintenance access, and production scalability

Testing, Validation & Product Performance

Support prototype testing, heat runs, thermal validation, and system troubleshooting activities
Correlate CFD models with physical testing data and refine simulations accordingly
Analyze field performance data to identify opportunities for thermal improvement
Participate in Root Cause Analysis for overheating, airflow imbalance, thermal failures, or reliability concerns

Cross-Functional Engineering Collaboration

Partner closely with Electrical Engineering, Structural Engineering, Manufacturing Engineering, NPI, and Operations teams
Support customer technical discussions related to cooling performance and thermal design strategy
Work with manufacturing teams to ensure thermal solutions align with fabrication and assembly capabilities
Support supplier selection and technical evaluation of cooling system components and technologies

Design for Manufacturing (DFM) & Continuous Improvement

Drive DFM initiatives focused on scalable thermal system integration and assembly efficiency
Reduce unnecessary complexity while maintaining thermal performance and reliability targets
Standardize cooling architectures, airflow strategies, and thermal design methodologies where appropriate
Contribute to engineering standards, calculation templates, and best practices for CFD and thermal analysis

Technical Leadership

Serve as a subject matter expert for CFD analysis, airflow management, and thermal systems engineering
Mentor junior engineers and support development of internal thermal engineering capability
Influence system-level product architecture and cooling strategies across multiple programs

Required Qualifications

Bachelor’s degree in Mechanical Engineering or related engineering discipline
6–12+ years of experience in thermal systems engineering, CFD analysis, or mechanical product development
Strong hands-on experience performing CFD analysis for enclosed industrial systems or thermal-critical products
Experience sizing cooling systems based on actual heat loads and thermal performance requirements

Preferred Qualifications

Experience supporting BESS, modular data centers, power systems, or energy infrastructure products
Experience validating CFD models through physical testing and heat-run correlation
Background in enclosure design, sheet metal, weldments, or industrial packaging
Familiarity with UL requirements, environmental testing, and thermal compliance standards
Experience operating in high-growth manufacturing or engineered-to-order environments
Master’s degree with concentration in thermal sciences, heat transfer, or fluid dynamics preferred
Experience designing cooling systems for battery systems, power electronics, industrial skids, generator enclosures, modular data centers, switchgear, or similar equipment
Strong understanding of airflow management within enclosed systems
Experience with CFD tools such as ANSYS Fluent, Icepak, 6SigmaET, SolidWorks Flow Simulation, or similar platforms
Strong understanding of mechanical integration, manufacturability, and enclosure packaging constraints

Why GTI Energy

Opportunity to solve complex real-world thermal engineering challenges tied to AI infrastructure, energy storage, and mission-critical power systems
High-impact role influencing product architecture, reliability, and system performance
Collaborative engineering environment with strong manufacturing integration
Exposure to advanced modular infrastructure products and large-scale industrial systems
Significant career growth opportunity within one of the fastest-growing manufacturers in the United States

About the company

Design and manufacture of custom modular and containerized structures.

Skills

ANSYS Fluent

Icepak

6SigmaET

SolidWorks Flow Simulation