Immersion cooling systems Perform engineering calculations including: * Cooling load calculations * Pump head calculations * Hydraulic analysis of piping systems * Heat exchanger sizing Support ...
Immersion cooling systems Perform engineering calculations including: * Cooling load calculations * Pump head calculations * Hydraulic analysis of piping systems * Heat exchanger sizing Support ...
Immersion cooling systems Perform engineering calculations including: * Cooling load calculations * Pump head calculations * Hydraulic analysis of piping systems * Heat exchanger sizing Support ...
Immersion cooling systems Perform engineering calculations including: * Cooling load calculations * Pump head calculations * Hydraulic analysis of piping systems * Heat exchanger sizing Support ...
Immersion cooling systems Perform engineering calculations including: * Cooling load calculations * Pump head calculations * Hydraulic analysis of piping systems * Heat exchanger sizing Support ...
Immersion cooling systems Perform engineering calculations including: * Cooling load calculations * Pump head calculations * Hydraulic analysis of piping systems * Heat exchanger sizing Support ...
Immersion cooling systems Perform engineering calculations including: * Cooling load calculations * Pump head calculations * Hydraulic analysis of piping systems * Heat exchanger sizing Support ...
Immersion cooling systems Perform engineering calculations including: * Cooling load calculations * Pump head calculations * Hydraulic analysis of piping systems * Heat exchanger sizing Support ...
Technology trends/technology shifts - understand how the industry requirements are changing and translate how it affects the utilization of Gates products (for example: immersion cooling, direct to ...
Technology trends/technology shifts - understand how the industry requirements are changing and translate how it affects the utilization of Gates products (for example: immersion cooling, direct to ...
Immersion Cooling information
What are the key skills and qualifications needed to thrive as an Immersion Cooling Engineer, and why are they important?
To excel as an Immersion Cooling Engineer, strong knowledge of thermal management, fluid dynamics, and electrical systems is essential, often backed by a degree in mechanical or electrical engineering. Familiarity with computational fluid dynamics (CFD) software, heat transfer analysis tools, and relevant safety certifications is typically required. Problem-solving, attention to detail, and effective communication skills help professionals address technical challenges and collaborate with cross-functional teams. These abilities are crucial to ensure the safe, efficient, and reliable design and implementation of immersion cooling systems in data centers and other high-performance environments.
What are some common challenges faced by professionals working in immersion cooling, and how can they be addressed?
Professionals in immersion cooling often encounter challenges related to fluid compatibility, system maintenance, and ensuring reliable thermal performance. Selecting the right dielectric fluid is crucial to prevent component damage and maintain system efficiency. Additionally, maintaining fluid cleanliness and monitoring for leaks are essential to avoid hardware failures. Collaboration with facilities, engineering, and IT teams is common to ensure seamless integration of immersion cooling systems with existing infrastructure. Proactive training and staying updated with industry standards can help address these challenges effectively.
What is immersion cooling?
Immersion cooling is a technique used to cool electronic components, such as computer servers or data center equipment, by submerging them directly in a thermally conductive but electrically non-conductive liquid. This method allows for efficient heat transfer away from the hardware, resulting in lower operational temperatures and improved energy efficiency compared to traditional air cooling. Immersion cooling is increasingly popular in high-performance computing and cryptocurrency mining industries due to its ability to reduce cooling costs and environmental impact.
What is the difference between Immersion Cooling vs Data Center Technician?
| Aspect | Immersion Cooling | Data Center Technician |
|---|---|---|
| Credentials | Knowledge of cooling systems, electrical safety, and basic HVAC | Technical certifications, HVAC or electrical training often preferred |
| Work Environment | Data centers, server farms, or specialized cooling facilities | Data centers, server rooms, or IT infrastructure sites |
| Job Focus | Design, install, and maintain immersion cooling systems for servers | Maintain, troubleshoot, and repair data center hardware and infrastructure |
Immersion Cooling specialists focus on implementing and maintaining cooling systems that submerge hardware in liquids, while Data Center Technicians handle overall hardware maintenance and troubleshooting within data centers. Both roles require technical knowledge, but immersion cooling is more specialized in cooling technology, whereas data center technicians have broader hardware responsibilities.
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Other
Posted 15 days ago
Job description
Barge Design Solutions is seeking a Mechanical Engineer with experience in high-density data center cooling systems to support the rapidly growing mission-critical sector. This role will focus on the design and integration of advanced cooling infrastructure supporting modern data centers and AI/HPC workloads, including both traditional chilled water systems and emerging liquid cooling technologies.
The ideal candidate understands how IT thermal loads translate into mechanical infrastructure, and has experience designing hydronic systems, heat rejection systems, and high-density cooling solutions used in mission-critical environments.
This position offers the opportunity to work on next-generation data center facilities supporting cloud, AI, and high-performance computing infrastructure.
What You Get:
Meaningful Project Work - Contribute to mission-critical infrastructure supporting the global digital economy.
Technical Growth - Work on advanced cooling technologies including liquid cooling and high-density compute environments.
Collaborative Engineering Culture - Work alongside electrical, controls, and structural engineers solving complex infrastructure challenges.
Competitive Compensation - We recognize top talent with competitive pay and benefits.
Growth & Stability - Join a well-established engineering firm with a strong presence in the data center sector.
Flexibility & Work-Life Balance - We support a flexible environment that promotes both professional growth and personal well-being.
Responsibilities:
Support the mechanical design of data center cooling systems in a multidisciplinary engineering environment.
Develop and support design of:
- Chilled water distribution systems
- Pumping systems
- Heat exchangers
- Dry coolers and cooling towers
- Hydronic piping systems
Assist in evaluating and integrating high-density cooling technologies, including:
- Direct-to-chip liquid cooling
- Coolant Distribution Units (CDUs)
- Rear-door heat exchangers
- Secondary coolant loops
- Immersion cooling systems
Perform engineering calculations including:
- Cooling load calculations
- Pump head calculations
- Hydraulic analysis of piping systems
- Heat exchanger sizing
Support development of:
- Mechanical drawings
- P&IDs
- Equipment specifications
- Basis-of-design documents
About Barge Design Solutions
Sourced by ZipRecruiter
Industry
Specialized design services
Company size
201 - 500 Employees
Headquarters location
Nashville, TN, US
Year founded
1954