Immersion Cooling for Data Center : Advantages and deployment

Publish By: tomas | Date: 2025-12-19 | Posted in: Micro Modular Data Center
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For more than a decade, air cooling has been the “default answer” for data centers. It is mature, reliable, well understood, and has supported large-scale growth from traditional enterprise IT to early cloud computing. However, as computing paradigms evolve—higher-power chips, more centralized workloads, and denser deployment models—cooling has gradually shifted from a supporting system to a design constraint.

Against this backdrop, immersion liquid cooling is no longer just a laboratory concept. It is now being seriously evaluated—and in some cases formally deployed—by an increasing number of data centers as a viable cooling approach.

What Is Immersion Cooling?

Immersion cooling, as the name suggests, involves operating servers or IT components while fully submerged in a non-conductive cooling liquid. Heat is efficiently removed through direct contact between the liquid and heat-generating components. The most significant difference from traditional cooling methods is that heat no longer relies on air as the transfer medium. As a result, elements such as fans, airflow paths, and hot/cold aisle designs are greatly simplified or eliminated altogether.

In simple terms, if air cooling is like “blowing air to remove heat,” immersion cooling is more like “soaking the heat directly in liquid” (though, of course, not water).

How Does Immersion Cooling Work?

In a typical immersion cooling system, servers are installed in dedicated tanks or enclosures and operate fully submerged in dielectric fluid. Key heat-generating components—such as chips, memory, and power supplies—transfer heat directly to the surrounding liquid during operation.

Heat is then removed through one of the following approaches:

Single-phase systems:
The heated coolant is pumped to a heat exchanger, where the heat is transferred to a secondary cooling loop (such as chilled water or dry coolers), before flowing back into the tank.

Two-phase systems:
The coolant absorbs heat at the chip surface and undergoes a phase change (boiling). The vapor then condenses in a condenser and returns as liquid, enabling highly efficient heat circulation.

Throughout this process, no internal server fans are required, and the system does not depend on data hall airflow management.

Main Types of Immersion Cooling

Immersion liquid cooling has become a critical technology for modern data centers as computing power density continues to rise. Among the available approaches, single-phase and two-phase immersion liquid cooling are the two primary system architectures. The comparison below highlights their differences in efficiency, complexity, and ideal use cases.

Category Single-Phase Immersion Liquid Cooling Two-Phase Immersion Liquid Cooling
Overview Uses a dielectric fluid that remains in a liquid state at all times, with heat removed through continuous fluid circulation. Utilizes the latent heat of fluid phase change to remove heat, allowing more heat dissipation per unit volume.
Key Characteristics • Relatively simple system architecture • Intuitive operation with strong controllability • Lower barriers for coolant management and maintenance • Higher cooling efficiency • Stricter requirements for materials, sealing, and fluid control • Significantly increased engineering complexity
Best-Fit Scenarios • Data centers seeking gradual adoption of liquid cooling • Production environments prioritizing stability and predictability • Extremely high power-density computing workloads • Applications with stringent space and cooling constraints
There is no absolute “better” option. The optimal choice depends on project objectives, risk tolerance, and operational capabilities.

4 Core Advantages of Immersion Cooling in Data Centers

Immersion liquid cooling has become a critical technology for modern data centers facing increasing power density. The table below compares single-phase and two-phase immersion cooling systems to help operators select the right solution.

1. More Direct and Efficient Heat Transfer Path
Liquids have significantly higher thermal conductivity than air. Through immersion, heat is transferred directly from the chip surface into the coolant, avoiding the efficiency losses associated with multi-stage heat exchange and airflow management in air-cooled systems. This fundamental physical advantage gives immersion cooling greater thermal headroom under high-power loads and transient heat spikes.

2. High Degree of Decoupling from Air Cooling Systems
Because immersion cooling does not rely on data hall airflow, it provides greater overall design flexibility, including:

  • No dependence on hot/cold aisle or containment structures
  • Reduced reliance on room height and supply/return air paths
  • Simplified requirements for environmental controls such as temperature and humidity

3. Potential for Overall Energy Efficiency Optimization
In immersion cooling architectures, server fan counts can be significantly reduced or even eliminated, fundamentally changing the power consumption profile of IT equipment. At the same time, liquid cooling systems are easier to integrate with high-temperature return water, free cooling, and waste heat recovery solutions, creating additional opportunities to optimize overall data center energy efficiency (PUE).

4. A More Stable Hardware Operating Environment
In sealed or semi-sealed immersion environments, server components are no longer directly exposed to dust, humidity fluctuations, or airborne contaminants. In specific use cases, this more stable and controlled operating environment can help improve long-term hardware reliability and operational consistency.

Four Key Considerations Before Implementing Immersion Cooling

1. Hardware Compatibility and Supply Chain Support
Servers designed for immersion cooling are not simply “dropped into liquid and powered on.” It is essential to verify long-term compatibility between the coolant and server assemblies, motherboards, power supplies, connectors, and critical materials. In addition, confirmation of vendor certification or warranty support for immersion operation is required. In practice, hardware vendors differ significantly in their immersion strategies—some offer mature product lines, while others provide only limited support. These differences directly affect procurement timelines, replacement strategies, and future scalability.

2. Changes to Operational and Maintenance Models
Immersion cooling fundamentally alters day-to-day operations and maintenance workflows. Routine tasks are no longer a simple process of pulling out a server, replacing a component, and reinserting it. Instead, equipment must be removed from liquid, allowed to drain, and serviced in more constrained working conditions. This introduces new requirements for staff training, safety procedures, and tools. Maintenance cadence and fault isolation methods also change, requiring operations teams to adapt to managing equipment in a liquid environment rather than relying on traditional rack-based practices.

3. Long-Term Coolant Management
The coolant itself is a core asset of an immersion cooling system and cannot be treated as a one-time investment. Over time, operators must monitor fluid aging, contamination, evaporation losses, and purity changes, and establish mechanisms for testing, replenishment, and recovery. Different types of coolant vary in cost, environmental compliance, and handling requirements—all of which directly impact long-term operating costs and compliance risk, not just initial purchase price.

4. Facility-Level System Integration
Immersion cooling is not a standalone deployment. It must be integrated with existing or planned data center cooling, water systems, power infrastructure, and monitoring platforms. Decisions around secondary cooling loop integration, heat exchanger selection, and redundancy design all influence overall reliability and scalability. Without system-level planning, introducing immersion tanks alone can lead to interface mismatches or limited expansion capability later on.

Immersion Cooling Is Not the End Point

The key is not simply choosing sides between technologies, but understanding more fundamental questions:

  • How are workload power density and operating characteristics evolving?
  • Has the cooling system already become—or is it about to become—a performance or efficiency bottleneck?
  • What is the data center’s expansion path and technology roadmap over the next three to five years?

Only when these questions are clearly answered does immersion cooling become a technology option with long-term value, rather than a short-lived technical trend.

ATTOM Immersion Cooling–Related Solutions

C Series Immersion Liquid Cooling 2 400x403 1

ATTOM provides infrastructure support solutions for liquid-cooled data centers, covering power distribution, rack-level power management, and coordinated deployment with immersion cooling systems. Through stable and scalable power and infrastructure design, ATTOM helps data centers introduce immersion cooling technology while maintaining system reliability, operational continuity, and long-term maintainability—providing a solid foundation for high-density computing environments.

FAQ

Is immersion cooling always more energy-efficient than air cooling?
Not necessarily. Immersion cooling provides higher heat removal capability and greater design flexibility, but actual energy efficiency gains depend on overall system design rather than the cooling technology alone.

Is immersion cooling safe?
When properly designed and operated, immersion cooling is safe—provided suitable dielectric fluids are used and well-defined operational procedures are in place.

Can immersion cooling be deployed in existing data centers?
Yes, but it typically requires assessment and modification of power infrastructure, cooling loops, and physical space. It is most suitable for localized or phased deployment.

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    Data Center Solution Sales Manager

    About Attom Technology

    We are a global leader in critical data center infrastructure, specializing in high-density AI data center thermal management and liquid cooling solutions. As AI workloads drive unprecedented demand for advanced cooling, we are rapidly expanding our footprint in North America. We are looking for visionary, driven, and highly technical professionals to join our newly established Silicon Valley team to drive the future of sustainable, high-performance data centers.
    Backed by the industrial giant Han’s Laser — a globally recognized leader in smart manufacturing and automation equipment — Attom Technology leverages a world-class industrial platform and robust financial strength to deliver critical data center infrastructure.

    Location: Silicon Valley, CA (Hybrid/On-site)

    Position Summary:

    We are looking for a highly motivated Sales Manager to drive revenue growth in the North American market. You will be on the front lines, targeting enterprise data centers, AI startups, and regional colocation facilities, selling our cutting-edge liquid cooling infrastructure portfolio.

    Key Responsibilities:

    • Achieve and exceed regional sales targets for our liquid cooling and thermal management products.

    • Manage the full sales cycle from prospecting and lead generation to contract negotiation and closing.

    • Develop and maintain strong, long-lasting direct relationships with data center facility managers, IT directors, and procurement teams.

    • Collaborate with the Product Technical Manager to deliver tailored presentations and proof-of-concept (PoC) proposals.

    • Maintain accurate sales forecasting and pipeline management using CRM tools (e.g., Zoho CRM).

    Qualifications:

    • 3+ years of direct B2B sales experience in data center power, cooling, or IT infrastructure.

    • Product Knowledge: Familiarity with selling cooling solutions such as CDU, CRAC, CRAH, RDHx, Cold-plate, and Chillers.

    • Industry Experience: Prior sales experience at companies like Vertiv, Schneider/APC, Eaton, Stulz, Airsys, or sales roles within the IT hardware sector (Cisco, Lenovo, Broadcom) with a focus on infrastructure.

    • Hunter mentality with a proven track record of breaking into new accounts and growing market share in the Silicon Valley tech ecosystem.

    • Strong presentation and closing skills.

    Application email: support@attom.tech

    Data Center Solution Technical Manager

    About Attom Technology

    We are a global leader in critical data center infrastructure, specializing in high-density AI data center thermal management and liquid cooling solutions. As AI workloads drive unprecedented demand for advanced cooling, we are rapidly expanding our footprint in North America. We are looking for visionary, driven, and highly technical professionals to join our newly established Silicon Valley team to drive the future of sustainable, high-performance data centers.
    Backed by the industrial giant Han’s Laser — a globally recognized leader in smart manufacturing and automation equipment — Attom Technology leverages a world-class industrial platform and robust financial strength to deliver critical data center infrastructure.

    Location: Silicon Valley, CA (Hybrid/On-site)

    Position Summary:

    The Product Technical Manager will act as the technical bridge between our North American clients and our global R&D team. You will be the resident expert on our liquid cooling portfolio, guiding customers through complex thermal system designs, and ensuring our products perfectly align with local compliance and technical requirements.

    Key Responsibilities:

    • Lead technical pre-sales engagements, providing expert consultation on liquid cooling architectures for high-density AI workloads.

    • Develop comprehensive technical proposals, system designs, and ROI analyses for clients involving CDU, RDHx, and direct-to-chip (Cold-plate) deployments.

    • Act as the Voice of the Customer (VoC) in North America, gathering detailed technical requirements and feeding them back to the R&D center to drive product localization and innovation.

    • Ensure products meet North American standards (e.g., UL, ASHRAE guidelines).

    • Provide training and technical support to the regional sales team and channel partners.

    Qualifications:

    • Bachelor’s or Master’s degree in Mechanical Engineering, Thermodynamics, Electrical Engineering, or a related technical field.

    • 2+ years of experience in product management, technical pre-sales, or thermal engineering within the data center or IT hardware industry.

    • Technical Proficiency: Mastery in the design and application of CDU, CRAC, CRAH, RDHx, Cold-plate, and Chiller systems. (Familiarity with piping diagrams, valve configurations, and redundancy classifications is highly preferred).

    • Target Background: Previous roles at infrastructure leaders (Vertiv, nVent, Motivair, Schneider, Boyd, Stulz, etc.) or thermal engineering roles at major IT/Semiconductor companies (NVIDIA, AMD, Intel, Lenovo, etc.).

    • Ability to translate complex technical concepts into clear business value propositions.

    Application email: support@attom.tech

    Data Center Solution Business Development Director

    About Attom Technology

    We are a global leader in critical data center infrastructure, specializing in high-density AI data center thermal management and liquid cooling solutions. As AI workloads drive unprecedented demand for advanced cooling, we are rapidly expanding our footprint in North America. We are looking for visionary, driven, and highly technical professionals to join our newly established Silicon Valley team to drive the future of sustainable, high-performance data centers.
    Backed by the industrial giant Han’s Laser — a globally recognized leader in smart manufacturing and automation equipment — Attom Technology leverages a world-class industrial platform and robust financial strength to deliver critical data center infrastructure.

    Location: Silicon Valley, CA (Hybrid/On-site)

    Position Summary:
    We are seeking an experienced Business Development Director to spearhead our Go-To-Market (GTM) strategy for data center thermal management liquid cooling solutions in North America. You will be instrumental in building strategic partnerships with Hyperscalers, Colocation providers, and top-tier IT hardware manufacturers, establishing our brand presence, and identifying new market opportunities in the fast-growing AI data center ecosystem.

    Key Responsibilities:

    • Develop and execute a comprehensive North American business development strategy focused on high-density liquid cooling solutions.
    • Identify, negotiate, and close strategic partnerships with key players in the AI and data center ecosystem (e.g., server OEMs, AI chip developers).
    • Collaborate closely with the global HQ to align product roadmaps with North American market trends and client demands.
    • Represent the company at industry events (e.g., Data Center World, OCP, DCD) to build brand awareness and thought leadership.
    • Build and manage a robust pipeline of high-level strategic opportunities.

    Qualifications:

    • 5+ years of business development or strategic sales experience in the data center infrastructure or IT thermal management sector.
    • Industry Background: Proven track record at leading thermal management companies (e.g., Vertiv, nVent, Motivair, Schneider/APC, Boyd, Eaton, Stulz, Airsys) OR IT hardware giants with a focus on thermal ecosystems (NVIDIA, AMD, Broadcom, Intel, Lenovo, Oracle, Cisco).
    • Technical Expertise: Deep commercial understanding of advanced cooling technologies including CDU, CRAC, CRAH, RDHx, Cold-plate, and Chillers.
    • Strong existing network with decision-makers at hyperscale cloud providers and colocation data centers in the Silicon Valley area.
    • Excellent communication, negotiation, and cross-cultural collaboration skills.

    Application email: support@attom.tech

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