Home › Companies › Tract Capital Management, LP › Senior Mechanical Systems Engineer
Senior Mechanical Systems Engineer
Tract Capital Management, LP · Mercer Island, WA, United States · On Site · Active · $120,000–$150,000 / year · Rippling ATS
Job facts
| Field | Value |
|---|---|
| Company | Tract Capital Management, LP |
| Title | Senior Mechanical Systems Engineer |
| Normalized title | - |
| Department / team | DC Design & Engineering |
| Location | Mercer Island, WA, United States |
| Work model | On Site |
| Employment type | Full Time |
| Salary | $120,000–$150,000 / year |
| Status | active |
| ATS provider | Rippling ATS |
| Posted / first seen | 2026-01-16 / 2026-05-29 |
| Changed / last seen | 2026-06-06 / 2026-06-06 |
Related slices
| Page | What it contains | Open |
|---|---|---|
| Company jobs | Active postings from Tract Capital Management, LP. | Open |
| Company breakdowns | Role, location, ATS, and work model facets for this company. | Open |
| ATS provider jobs | Active postings observed through Rippling ATS. | Open |
| Provider filtered search | The same provider as a filtered job collection. | Open |
| City jobs | Active postings in Mercer Island. | Open |
| Department jobs | Active postings in DC Design & Engineering. | Open |
| Work model jobs | Active On Site postings. | Open |
| Lifecycle events | Open, update, close, and reopen events for this posting. | Open |
| Original posting | Canonical source or apply URL captured from the ATS. | Open |
Linked records
| Company | Tract Capital Management, LP |
| Source | 4e0fb9ca-6e07-46ca-b879-76c060ff9caa |
| ATS provider | Rippling ATS |
Description
company
Fleet Data Centers designs, builds and operates mega-scale data center campuses. Fleet provides its customers flexibility and predictability to meet their upside demand forecasts, addressing a key need in the market as traditional leased models are struggling to keep pace with the demand for new Cloud and AI infrastructure. Fleet is led by a team of industry veterans that have already made a lasting imprint on the evolution of global digital infrastructure and are committed and uniquely capable of upleveling data center development scale and operations in the face of rising demand. Fleet is well positioned to bring in-house design, engineering and operational capabilities to collaborate with customers on tailored solutions for campuses of 500MW+. This unique model enables Fleet to provide the world’s largest and most sophisticated customers a seamless extension of their own data center fleets with constant access to design innovation. Fleet is headquartered in Denver, Colorado, with satellite offices in Seattle, WA and Arlington, VA.
role
Position Overview:
We are seeking a Senior Systems Engineer – Mechanical to own the detailed design validation, analysis, and ongoing optimization of Fleet’s data center cooling topology from campus level through the rack. This role requires a deep understanding of Fleet data center cooling topology, including air-side and liquid-side systems (fan walls, CRAHs/CRACs, chillers, dry coolers, pumps, heat exchangers, distribution manifolds, in-rack cooling components), and how these components interact under a variety of operating and failure scenarios.
The ideal candidate will pair strong mechanical engineering fundamentals with practical data center cooling experience, ensuring that the air-to-liquid mix and cooling configuration for each deployment match rack layouts and rack SKUs, that CFD and failure-mode simulations are routinely used to de-risk deployments, and that cooling system behavior is well understood and systematically improved. This role is accountable for end-to-end thermal system integrity, including aisle-level optimization, fan wall octet configuration, failure-mode simulations (e.g., CRAC outage, dry cooler outage), and impact assessment for infrastructure upgrades and expansions, with the goal of optimizing uptime SLAs and minimizing cooling stranding.
We have a hybrid policy, and candidates can sit in Seattle, WA, Denver, CO, Austin, TX, or Alexandria, VA
Responsibilities:
Cooling Topology Ownership & Rack-Level Alignment:
Develop and maintain a deep understanding of Fleet data center cooling topology, including air-side systems such as fan walls, CRAHs/CRACs, air handlers, ducting, containment, and filters Develop and maintain a deep understanding of liquid-side systems including chillers, dry coolers, pumps, CDUs, heat exchangers, headers/manifolds, and valve trains Develop and maintain a deep understanding of rack-level solutions including liquid-cooled cold plates, rear-door heat exchangers, in-rack manifolds, and hybrid air/liquid configurations Determine the air-to-liquid mix needed to support a given rack layout and density, considering rack SKUs, aisle configuration, containment, and site constraints Ensure cooling topology and capacity at room and aisle level support current and forecast rack deployments and density targets Rack SKUs, Cooling Requirements & Data Accuracy:
Understand the air and liquid cooling requirements for each rack SKU, including inlet temperature and humidity ranges Understand liquid flow, pressure, and temperature ranges for cold plates and rear-door heat exchangers Maintain structured mapping from rack SKUs to required airflow per rack and aisle Maintain structured mapping from rack SKUs to required liquid flow per rack, manifold, and loop Maintain structured mapping from rack SKUs to special constraints such as mixed air and liquid aisles and maximum delta T Ensure specifications and counts for cooling components including fan wall modules, CRAHs/CRACs, CDUs, pumps, valves, manifolds, piping sizes, and coils are accurate, documented, and provided to capacity planning and procurement CFD & Thermal Analysis:
Perform CFD analysis at room and aisle level to validate that planned rack placement does not create hot spots Perform CFD analysis to confirm that airflow patterns, pressure profiles, and temperature distributions are within allowable limits Identify and mitigate cooling stranding where cooling capacity exists but cannot be effectively delivered to IT load because of placement or topology Use CFD and thermal modeling tools to evaluate different rack arrangements and containment strategies Use CFD and thermal modeling tools to test sensitivity to changes in IT load, fan speeds, supply temperatures, and air-to-liquid mix Quantify margin to thresholds such as maximum rack inlet temperature and maximum component temperatures Translate CFD results into actionable design rules, placement constraints, and deployment guidelines for capacity planners and operations Aisle-Level Optimization & Fan Wall Configuration:
Optimize cooling for each aisle based on actual and forecasted IT load distribution Optimize cooling based on air-to-liquid split for the racks in that aisle Optimize cooling based on containment strategy including cold aisle, hot aisle, full containment, and partial containment Recommend fan wall octet configurations and other fan wall module configurations per deployment Ensure configurations deliver required airflow and pressure with redundancy Maintain redundancy and margin for failure and maintenance scenarios Minimize energy use while maintaining thermal headroom Work with operations to tune setpoints including supply temperatures, fan speeds, differential pressure, and chilled water temperatures to support uptime SLAs and reduce cooling stranding and over-provisioning Failure Mode Simulations & Uptime Optimization:
Conduct failure mode simulations and analyses for mechanical systems including CRAC/CRAH outage scenarios, dry cooler outage scenarios, and pump or valve failures Evaluate transient and steady-state temperature excursions at the rack and component level Evaluate time-to-threshold for safe temperature limits Evaluate impact on redundancy, load shedding requirements, and achievable uptime Recommend design improvements such as additional redundancy, loop segmentation, and capacity rebalancing Define operational responses and MOPs including load shedding priorities and setpoint changes Optimize uptime SLAs while minimizing cooling stranding, especially in mixed air and liquid deployments and high-density aisles Infrastructure Upgrades & Expansion Impact Analysis:
Lead or support infrastructure upgrades and expansion impact analyses for cooling systems including adding or resizing fan walls, CRAHs/CRACs, dry coolers, chillers, pumps, CDUs, and distribution headers Support increasing liquid cooling fraction as AI-heavy racks grow in share Support changing setpoints or operating modes including supply temperatures and economization strategies Quantify effects on current and future thermal capacity and headroom Quantify changes in aisle-level and room-level airflow and liquid flow distribution Quantify impact on PUE, water usage, and operating costs Provide mechanical engineering input into MOPs and risk assessments for any cooling system change that could impact live IT load Cross-Functional Collaboration & Documentation:
Partner with capacity planners, rack design teams, site operations, facilities engineering, and procurement to ensure alignment between cooling design, deployment plans, and SLAs Ensure air-to-liquid decisions are integrated into forecast models and program timelines Produce and maintain design guides, reference one-lines, piping schematics, and airflow diagrams for baseline data halls and high-density deployments Contribute mechanical content to internal standards and playbooks covering cooling topology design rules, CFD methodologies, and failure simulation procedures Required Qualifications:
Bachelor’s degree in Mechanical Engineering or a closely related engineering discipline 6+ years of experience in data center mechanical engineering, mission-critical HVAC design, or thermal systems engineering Demonstrated deep understanding of data center cooling topologies including air-cooled and liquid-cooled architectures Hands-on experience performing and interpreting CFD analysis for data halls or similar environments Proven ability to determine air-to-liquid mix, optimize thermal performance, and identify hot spots and cooling stranding Experience analyzing failure modes for cooling systems and translating results into design improvements Strong analytical and problem-solving skills tied to uptime, SLA performance, and efficiency metrics Clear written and verbal communication skills Preferred:
Experience in hyperscale or colocation data centers supporting high-density AI/GPU clusters and liquid cooling Proficiency with CFD and thermal analysis tools and integration into DCIM or planning workflows Familiarity with PUE, WUE, and efficiency metrics Experience with DCIM, BMS, and monitoring systems Knowledge of mechanical and building codes for mission-critical facilities Experience with live data center upgrades and MOP development Required Traits and Skills:
Integrity and Ethical Standards: Make safety- and reliability-focused decisions in all cooling design and operations work Effective Communication: Clearly explain complex cooling and CFD concepts to technical and non-technical audiences Operational Paranoia: Anticipate risks and proactively prevent disruptions Strategic & Systems Thinking: Understand how local cooling decisions impact the full system and uptime SLA Critical Thinking & Analytical Ability: Use data, CFD, and testing to drive decisions and evaluate tradeoffs Collaboration & Relationship Management: Build strong partnerships across teams and vendors Leadership & Mentorship: Provide technical leadership and mentor junior engineers Expected Salary Range: $120,000 - $150,000 Salary + Discretionary Bonus Fleet Data Centers Employment Fleet Data Center employees enjoy competitive compensation and comprehensive benefits, including 100% employer-covered medical, dental, and vision insurance, a 401K program, standard paid holidays, and unlimited PTO.
NOTE: This job description is not intended to be all-inclusive. Employees may perform other related duties as assigned to meet the organization’s ongoing needs.
Fleet Data Centers is proud to be an Equal Opportunity Employer. Qualified applicants are considered for employment regardless of age, race, color, religion, sex, national origin, sexual orientation, gender identity, disability, or veteran status.
If you need assistance applying for any of our open positions, please contact us at [email protected].
Full job record
| Job ID | e857c04aa04c1a15bec7da6289c9e9a722ebe6d1 |
| Org ID | ba9be8ec-994a-44d4-80ec-16a3d3af85c3 |
| Source ID | 4e0fb9ca-6e07-46ca-b879-76c060ff9caa |
| Board ID | 4e0fb9ca-6e07-46ca-b879-76c060ff9caa |
| Provider | rippling |
| Provider Job Key | 0b326095-daeb-42f9-853e-5c9689f5f4ee |
| Title | Senior Mechanical Systems Engineer |
| Normalized Title | — |
| Status | active |
| Active | yes |
| Location Text | Mercer Island, WA, United States |
| Department | DC Design & Engineering |
| Team | — |
| Employment Type | full_time |
| Workplace Type | on_site |
| Remote Policy | — |
| Country | United States |
| Region | WA |
| City | Mercer Island |
| Salary Raw | Salary Range: $120,000 - $150,000 Salary + Discretionary Bonus Fleet Data Centers Employment Fleet Data Center em |
| Salary Min | 120,000 |
| Salary Max | 150,000 |
| Salary Currency | USD |
| Salary Period | year |
| Source URL | https://ats.rippling.com/fleet-data-centers/jobs/0b326095-daeb-42f9-853e-5c9689f5f4ee |
| Apply URL | https://ats.rippling.com/fleet-data-centers/jobs/0b326095-daeb-42f9-853e-5c9689f5f4ee |
| First Seen At | 2026-05-29 07:11:51Z |
| Last Seen At | 2026-06-06 20:15:35Z |
| Last Checked At | 2026-06-06 20:15:35Z |
| Last Changed At | 2026-06-06 20:15:35Z |
| Inactive At | — |
| Source Posted At | 2026-01-16 15:41:00Z |
| Source Updated At | — |
| Raw Payload Uri | s3://job-postings-prod-raw-590183727216/raw/provider=rippling/board=fleet-data-centers/date=2026-06-06/2026-06-06T20-15-30-275Z-03a59df6a2ca8e7d20cf21ea819ab346eff61f646135e851ecd5f5c478b1dc64.json |
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"description": {
"role": "<meta><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:12pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><br></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Position Overview:</strong></b></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><span style=\"white-space:pre-wrap;\">We are seeking a Senior Systems Engineer – Mechanical to own the detailed design validation, analysis, and ongoing optimization of Fleet’s data center cooling topology from campus level through the rack. This role requires a deep understanding of Fleet data center cooling topology, including air-side and liquid-side systems (fan walls, CRAHs/CRACs, chillers, dry coolers, pumps, heat exchangers, distribution manifolds, in-rack cooling components), and how these components interact under a variety of operating and failure scenarios.</span></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><br></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><span style=\"white-space:pre-wrap;\">The ideal candidate will pair strong mechanical engineering fundamentals with practical data center cooling experience, ensuring that the air-to-liquid mix and cooling configuration for each deployment match rack layouts and rack SKUs, that CFD and failure-mode simulations are routinely used to de-risk deployments, and that cooling system behavior is well understood and systematically improved. This role is accountable for end-to-end thermal system integrity, including aisle-level optimization, fan wall octet configuration, failure-mode simulations (e.g., CRAC outage, dry cooler outage), and impact assessment for infrastructure upgrades and expansions, with the goal of optimizing uptime SLAs and minimizing cooling stranding.</span></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><br></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><span style=\"white-space:pre-wrap;\">We have a hybrid policy, and candidates can sit in Seattle, WA, Denver, CO, Austin, TX, or Alexandria, VA</span></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><br></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Responsibilities:</strong></b></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Cooling Topology Ownership & Rack-Level Alignment:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Develop and maintain a deep understanding of Fleet data center cooling topology, including air-side systems such as fan walls, CRAHs/CRACs, air handlers, ducting, containment, and filters</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Develop and maintain a deep understanding of liquid-side systems including chillers, dry coolers, pumps, CDUs, heat exchangers, headers/manifolds, and valve trains</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Develop and maintain a deep understanding of rack-level solutions including liquid-cooled cold plates, rear-door heat exchangers, in-rack manifolds, and hybrid air/liquid configurations</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Determine the air-to-liquid mix needed to support a given rack layout and density, considering rack SKUs, aisle configuration, containment, and site constraints</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Ensure cooling topology and capacity at room and aisle level support current and forecast rack deployments and density targets</span></li></ul><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Rack SKUs, Cooling Requirements & Data Accuracy:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Understand the air and liquid cooling requirements for each rack SKU, including inlet temperature and humidity ranges</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Understand liquid flow, pressure, and temperature ranges for cold plates and rear-door heat exchangers</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Maintain structured mapping from rack SKUs to required airflow per rack and aisle</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Maintain structured mapping from rack SKUs to required liquid flow per rack, manifold, and loop</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Maintain structured mapping from rack SKUs to special constraints such as mixed air and liquid aisles and maximum delta T</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Ensure specifications and counts for cooling components including fan wall modules, CRAHs/CRACs, CDUs, pumps, valves, manifolds, piping sizes, and coils are accurate, documented, and provided to capacity planning and procurement</span></li></ul><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">CFD & Thermal Analysis:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Perform CFD analysis at room and aisle level to validate that planned rack placement does not create hot spots</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Perform CFD analysis to confirm that airflow patterns, pressure profiles, and temperature distributions are within allowable limits</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Identify and mitigate cooling stranding where cooling capacity exists but cannot be effectively delivered to IT load because of placement or topology</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Use CFD and thermal modeling tools to evaluate different rack arrangements and containment strategies</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Use CFD and thermal modeling tools to test sensitivity to changes in IT load, fan speeds, supply temperatures, and air-to-liquid mix</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Quantify margin to thresholds such as maximum rack inlet temperature and maximum component temperatures</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Translate CFD results into actionable design rules, placement constraints, and deployment guidelines for capacity planners and operations</span></li></ul><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Aisle-Level Optimization & Fan Wall Configuration:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 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style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Evaluate time-to-threshold for safe temperature limits</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Evaluate impact on redundancy, load shedding requirements, and achievable uptime</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Recommend design improvements such as additional redundancy, loop segmentation, and capacity rebalancing</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Define operational responses and MOPs including load shedding priorities and setpoint changes</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Optimize uptime SLAs 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0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Support increasing liquid cooling fraction as AI-heavy racks grow in share</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Support changing setpoints or operating modes including supply temperatures and economization strategies</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Quantify effects on current and future thermal capacity and headroom</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Quantify changes in aisle-level and room-level airflow and liquid flow distribution</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Quantify impact on PUE, water usage, and operating costs</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Provide mechanical engineering input into MOPs and risk assessments for any cooling system change that could impact live IT load</span></li></ul><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Cross-Functional Collaboration & Documentation:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Partner with capacity planners, rack design teams, site operations, facilities engineering, and procurement to ensure alignment between cooling design, deployment plans, and SLAs</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Ensure air-to-liquid decisions are integrated into forecast models and program timelines</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Produce and maintain design guides, reference one-lines, piping schematics, and airflow diagrams for baseline data halls and high-density deployments</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Contribute mechanical content to internal standards and playbooks covering cooling topology design rules, CFD methodologies, and failure simulation procedures</span></li></ul><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Required Qualifications:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Bachelor’s degree in Mechanical Engineering or a closely related engineering discipline</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">6+ years of experience in data center mechanical engineering, mission-critical HVAC design, or thermal systems engineering</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Demonstrated deep understanding of data center cooling topologies including air-cooled and liquid-cooled architectures</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Hands-on experience performing and interpreting CFD analysis for data halls or similar environments</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Proven ability to determine air-to-liquid mix, optimize thermal performance, and identify hot spots and cooling stranding</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Experience analyzing failure modes for cooling systems and translating results into design improvements</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Strong analytical and problem-solving skills tied to uptime, SLA performance, and efficiency metrics</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Clear written and verbal communication skills</span></li></ul><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Preferred:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Experience in hyperscale or colocation data centers supporting high-density AI/GPU clusters and liquid cooling</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Proficiency with CFD and thermal analysis tools and integration into DCIM or planning workflows</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Familiarity with PUE, WUE, and efficiency metrics</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Experience with DCIM, BMS, and monitoring systems</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Knowledge of mechanical and building codes for mission-critical facilities</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Experience with live data center upgrades and MOP development</span></li></ul><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><b><strong style=\"white-space:pre-wrap;\">Required Traits and Skills:</strong></b></p><ul data-pattern=\"discCircleSquare\" data-depth=\"1\" style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;margin:8px 0px;line-height:1.6;padding:0px 0px 0px 32px;list-style-type:disc;\"><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Integrity and Ethical Standards: Make safety- and reliability-focused decisions in all cooling design and operations work</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Effective Communication: Clearly explain complex cooling and CFD concepts to technical and non-technical audiences</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Operational Paranoia: Anticipate risks and proactively prevent disruptions</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Strategic & Systems Thinking: Understand how local cooling decisions impact the full system and uptime SLA</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Critical Thinking & Analytical Ability: Use data, CFD, and testing to drive decisions and evaluate tradeoffs</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Collaboration & Relationship Management: Build strong partnerships across teams and vendors</span></li><li style=\"font-size:11pt;margin:3px 0px;letter-spacing:0.25px;line-height:1.6;\"><span style=\"white-space:pre-wrap;\">Leadership & Mentorship: Provide technical leadership and mentor junior engineers</span></li></ul><h2 style=\"font-family:"Basel Grotesk",Arial,sans-serif;line-height:1.6;font-size:11pt;font-weight:600;letter-spacing:0.5px;margin-top:18px;margin-bottom:4px;padding-left:0px;\"><span style=\"font-size:11pt;white-space:pre-wrap;\">Expected Salary Range: $120,000 - $150,000 Salary </span><span style=\"white-space:pre-wrap;\">+ Discretionary Bonus </span></h2><h2 style=\"font-family:"Basel Grotesk",Arial,sans-serif;line-height:1.6;font-size:11pt;font-weight:600;letter-spacing:0.5px;margin-top:18px;margin-bottom:4px;padding-left:0px;\"><u><span style=\"font-size:11pt;text-decoration:underline;white-space:pre-wrap;\">Fleet Data Centers Employment</span></u></h2><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><i><em style=\"font-size:11pt;white-space:pre-wrap;\">Fleet Data Center employees enjoy competitive compensation and comprehensive benefits, including 100% employer-covered medical, dental, and vision insurance, a 401K program, standard paid holidays, and unlimited PTO.</em></i></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><br></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><i><em style=\"font-size:11pt;white-space:pre-wrap;\">NOTE: This job description is not intended to be all-inclusive. Employees may perform other related duties as assigned to meet the organization’s ongoing needs.</em></i></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><br></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><i><em style=\"font-size:11pt;white-space:pre-wrap;\">Fleet Data Centers is proud to be an Equal Opportunity Employer. Qualified applicants are considered for employment regardless of age, race, color, religion, sex, national origin, sexual orientation, gender identity, disability, or veteran status.</em></i></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><i><em style=\"font-size:11pt;white-space:pre-wrap;\">If you need assistance applying for any of our open positions, please contact us at [email protected].</em></i></p><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><br></p>",
"company": "<meta><p style=\"font-family:"Basel Grotesk",Arial,sans-serif;font-size:11pt;font-weight:400;line-height:1.6;letter-spacing:0.25px;margin:4px 0px;padding:0px;\"><span style=\"color:black;white-space:pre-wrap;\">Fleet Data Centers designs, builds and operates mega-scale data center campuses. Fleet provides its customers flexibility and predictability to meet their upside demand forecasts, addressing a key need in the market as traditional leased models are struggling to keep pace with the demand for new Cloud and AI infrastructure. Fleet is led by a team of industry veterans that have already made a lasting imprint on the evolution of global digital infrastructure and are committed and uniquely capable of upleveling data center development scale and operations in the face of rising demand. Fleet is well positioned to bring in-house design, engineering and operational capabilities to collaborate with customers on tailored solutions for campuses of 500MW+. This unique model enables Fleet to provide the world’s largest and most sophisticated customers a seamless extension of their own data center fleets with constant access to design innovation. Fleet is headquartered in Denver, Colorado, with satellite offices in Seattle, WA and Arlington, VA.</span></p>"
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