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U.S. Data Center Cooling Market By Component (Solution, Services); By Cooling Type (Room-Based, Row-Based, Rack-Based); By Data Center Type (Large, Medium, Small); By End-User (IT & Telecom, BFSI, Healthcare, Government & Defense, Others); By Region – Growth, Share, Opportunities & Competitive Analysis, 2025 – 2035

Summary
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Executive summary:

The U.S. Data Center Cooling Market size was valued at USD 3,794.90 million in 2020 to USD 7,823.81 million in 2025 and is anticipated to reach USD 33,524.92 million by 2035, at a CAGR of 15.61% during the forecast period.

REPORT ATTRIBUTE	DETAILS
Historical Period	2020-2023
Base Year	2024
Forecast Period	2025-2035
U.S. Data Center Cooling Market Size 2025	USD 7,823.81 Million
U.S. Data Center Cooling Market, CAGR	15.61%
U.S. Data Center Cooling Market Size 2035	USD 33,524.92 Million

Growing reliance on high-density racks encourages operators to adopt liquid cooling, hybrid designs, and AI-enabled thermal automation. Innovation in energy-efficient chillers, precision systems, and modular cooling reshapes infrastructure strategies as workloads shift toward AI and HPC clusters. Businesses upgrade facilities to improve uptime and reduce operational risk, while investors prioritize cooling technologies that support long-term digital expansion and energy optimization.

Regional growth varies across the country, with the West leading due to major hyperscale developments and strong cloud deployment. The Northeast remains influential because of dense enterprise and BFSI demand. Southern and Midwestern regions emerge as attractive locations for large campuses supported by land availability and improving connectivity. Growth strengthens nationwide as operators expand new and existing data center clusters.

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Market Drivers

Rising Integration of High-Density Computing and Cooling Innovation

The U.S. Data Center Cooling Market benefits from rapid deployment of high-density racks that demand stronger thermal control. Hyperscale operators increase investment in advanced cooling to stabilize expanding AI and cloud workloads. Liquid cooling gains wider use because traditional air systems reach performance limits. AI-driven optimization platforms support dynamic cooling control across complex environments. Operators upgrade legacy infrastructure to maintain uptime under higher thermal loads. Investors view these upgrades as essential for long-term reliability. Businesses adopt new systems to reduce energy waste. The market strengthens strategic planning for large-scale digital expansion.

For example, Google confirmed that its machine-learning–based cooling system achieved up to a 40% reduction in cooling energy use and delivered about a 15% reduction in PUE overhead at one of its data centers. These results were documented in Google and DeepMind’s published case studies.

Accelerated Shift Toward Liquid Cooling and Thermal Efficiency Improvement

Liquid cooling adoption grows quickly in the U.S. Data Center Cooling Market because operators push for higher compute output in limited space. Direct-to-chip and immersion cooling improve thermal transfer and reduce stress on facility HVAC. Hyperscale builders integrate liquid-ready designs to future-proof new facilities. Enterprises adopt hybrid cooling to manage mixed workloads. Innovation in coolant distribution units increases system reliability. Vendors introduce modular systems that scale with rack density. Investors support these technologies due to strong long-term efficiency gains. The market positions energy reduction as a competitive advantage.

Expansion of Edge Sites and Distributed Digital Infrastructure

The U.S. Data Center Cooling Market grows with rapid expansion of edge facilities that support real-time applications. These compact sites require cooling solutions that fit constrained footprints. Operators adopt prefabricated cooling modules to speed deployment timelines. Telecom networks strengthen local computing nodes to support low-latency services. Vendors introduce quiet and efficient cooling units tailored for urban and remote sites. Investors view distributed networks as a pathway to nationwide digital growth. Businesses rely on stable cooling to protect equipment. Edge adoption reshapes infrastructure planning in multiple industries.

For example, Dell’s PowerCool Enclosed Rear Door Heat Exchanger (eRDHx) can reduce cooling energy costs by up to 60% when used with IR7000 racks and warm-water operation. Dell confirms that the solution enables organizations to deploy up to 16% more racks of dense compute without increasing total power consumption.

Adoption of AI-Enabled Facility Automation and Smart Cooling Control

AI-enabled systems create major shifts in the U.S. Data Center Cooling Market through predictive thermal management. Automation tools forecast load behavior and adjust equipment settings in real time. Operators reduce energy consumption while improving thermal stability. Smart sensors increase visibility into airflow and temperature patterns. Vendors integrate machine-learning features into cooling hardware. Enterprises adopt automated control to reduce manual oversight. Investors support AI-based platforms due to strong operational savings. Smart cooling strengthens long-term reliability for expanding digital operations.

Market Trends

Wider Commercial Deployment of Immersion Cooling and Liquid-Based Architectures

Immersion cooling moves into broader commercial use across the U.S. Data Center Cooling Market as AI workloads grow. Operators adopt single-phase and two-phase designs to support higher heat loads. Vendors refine dielectric fluids to improve thermal conductivity. Enterprises test immersion systems for GPU-intensive environments. Hyperscale builders evaluate full-facility immersion layouts for future installations. Edge operators explore compact immersion units for constrained locations. Investors track this trend due to strong efficiency potential. The market shifts toward deeper adoption of liquid-based designs across multiple workloads.

Growth of Modular Cooling Platforms for Faster Infrastructure Expansion

Modular cooling becomes a central trend in the U.S. Data Center Cooling Market as builders push for faster deployment cycles. Prefabricated modules shorten construction time and reduce integration complexity. Vendors design containerized cooling blocks for rapid placement. Hyperscale developers use modular units to synchronize cooling capacity with compute buildouts. Enterprises adopt scalable designs to support flexible IT expansion. Telecom operators deploy modular cooling at distributed sites. Investors favor modular systems due to lower risk and faster ROI. The trend strengthens capacity planning for new digital infrastructure.

Rising Use of AI and Digital Twin Models for Thermal Optimization

AI-driven thermal intelligence grows rapidly across the U.S. Data Center Cooling Market as operators seek stronger operational insight. Digital twins simulate airflow behavior and predict hotspots. Automated tools optimize fan speeds and chiller load distribution. Enterprises adopt AI analytics to improve cooling stability under variable workloads. Vendors integrate real-time monitoring into system design. Hyperscale operators build predictive maintenance strategies around AI models. Investors view AI as a critical driver of operational excellence. The trend reshapes long-term cooling strategies for high-density environments.

Shift Toward Sustainable Cooling Through Heat Reuse and Water Reduction

Heat reuse and water-saving solutions gain strong momentum in the U.S. Data Center Cooling Market because environmental priorities intensify. Operators explore heat export to commercial and residential networks. Vendors design cooling systems that limit water dependency through closed-loop technology. Enterprises track sustainability metrics to meet corporate goals. Hyperscale builders adopt free cooling where climate allows. Edge facilities use low-impact cooling to meet local regulations. Investors support sustainable technologies for long-term cost stability. The trend increases environmental alignment across digital infrastructure.

Market Challenges

Rising Energy Consumption and Pressure to Maintain Thermal Stability at Scale

The U.S. Data Center Cooling Market faces rising energy use as AI workloads increase heat output. Operators work to balance efficiency with uptime targets across complex sites. Legacy facilities struggle to support advanced cooling systems without costly upgrades. Vendors must design solutions that fit diverse infrastructure conditions. Enterprises push for lower PUE while managing unpredictable compute loads. Investors track efficiency risks that influence long-term operating costs. Regulatory pressure increases demand for greener cooling methods. The challenge shapes strategic decisions for hyperscale and enterprise expansion.

High Capital Requirements, Integration Complexity, and Limited Skilled Workforce

The U.S. Data Center Cooling Market experiences high upfront costs that restrict modernization speed for many operators. Integrating liquid cooling demands structural adjustments and precision engineering. Enterprises face delays due to limited expertise in advanced thermal systems. Vendors navigate long deployment cycles that extend project timelines. Investors evaluate integration risk before approving large-scale spending. Operators must maintain uptime while upgrading essential cooling equipment. Workload shifts create uncertainty in long-term planning. The challenge reinforces gaps between early adopters and slower-moving facilities.

Market Opportunities

Expansion of Liquid Cooling Ecosystems and Advanced Thermal Management Platforms

Significant opportunity emerges in the U.S. Data Center Cooling Market as demand rises for high-density cooling across AI and cloud environments. Liquid cooling adoption expands because operators need stronger thermal performance. Vendors can introduce modular liquid systems that support scalable workloads. Enterprises explore hybrid cooling models to optimize energy use. Investors seek technologies that lower lifetime operating costs. Hyperscale operators test next-generation coolant distribution solutions. Edge sites evaluate compact liquid units for constrained locations. The opportunity strengthens long-term growth for advanced thermal ecosystems.

Growth Potential in Edge Deployments, Sustainable Cooling, and AI-Driven Optimization

Strong opportunity develops in the U.S. Data Center Cooling Market as edge infrastructure accelerates nationwide. Compact cooling units support low-latency applications across distributed networks. Vendors expand portfolios with energy-efficient designs that reduce environmental impact. Enterprises adopt AI-based optimization tools to improve reliability and lower energy waste. Investors support sustainable cooling because regulatory pressure continues to rise. Hyperscale builders explore new heat-reuse concepts that deliver broader community value. The opportunity expands with interest in long-term digital transformation and sustainable facility planning.

Market Segmentation

By Component

The U.S. Data Center Cooling Market shows strong dominance of solution-based offerings, driven by rising demand for chillers, precision air conditioners, liquid cooling, and hybrid systems that support higher rack densities. Services such as installation, consulting, and maintenance grow steadily as operators require expert support for complex deployments. Solutions lead due to rapid modernization across hyperscale and enterprise facilities. Services expand in parallel because advanced systems require skilled integration and ongoing optimization across large IT environments.

By Data Center Cooling Solution

The U.S. Data Center Cooling Market sees strong adoption across chillers, precision air conditioners, liquid cooling, air handling units, and air conditioners, with liquid cooling emerging as the fastest-growing due to AI-intensive workloads. Chillers and precision units remain dominant in large facilities because they offer stable thermal performance. Air cooling continues to serve small and mid-size sites due to lower integration complexity. Liquid cooling accelerates quickly as operators seek stronger heat management for GPUs and dense racks.

By Service

Service demand grows steadily in the U.S. Data Center Cooling Market, with installation, deployment, maintenance, and support services driving long-term value for operators. Maintenance services dominate due to the need for uninterrupted cooling performance. Consulting gains relevance as businesses seek efficiency audits and airflow modeling. Installation services rise with rapid expansion of hyperscale and edge sites. The segment benefits from continuous modernization and the shift toward liquid-ready infrastructure.

By Enterprise Size

Large enterprises lead the U.S. Data Center Cooling Market because they deploy high-density workloads and require advanced cooling systems to ensure uptime. SMEs adopt cooling solutions at a steady pace, driven by rising digital transformation and colocation usage. Large organizations invest heavily in liquid cooling, chillers, and advanced airflow systems. SMEs focus on cost-efficient air cooling and modular solutions. Both groups rely on reliable cooling to secure mission-critical operations.

By Floor Type

Raised floor environments hold wider adoption in the U.S. Data Center Cooling Market because they support structured airflow distribution for large computing halls. Non-raised floors grow across modern hyperscale and edge deployments where liquid cooling and overhead airflow systems offer stronger flexibility. Raised floors remain preferred in legacy and enterprise sites due to established HVAC integration. Non-raised layouts expand as new facilities adopt open and modular designs optimized for high-density cooling.

By Containment

Hot aisle containment leads the U.S. Data Center Cooling Market because it improves cooling efficiency and reduces energy loss in dense server environments. Cold aisle containment maintains strong adoption across enterprise data centers due to easier installation. Some facilities operate without containment, but this share declines as operators shift toward structured airflow management. Containment systems grow with increased focus on energy optimization across hyperscale and colocation sites.

By Structure

Rack-based cooling grows rapidly in the U.S. Data Center Cooling Market because operators deploy liquid-ready racks to support AI and HPC workloads. Row-based cooling maintains strong adoption due to precise airflow control and modular scalability. Room-based cooling stays relevant in older facilities but declines as high-density computing expands. Adoption patterns shift toward rack and row systems as thermal loads increase across modern IT environments.

By Application

Hyperscale data centers dominate the U.S. Data Center Cooling Market due to rapid expansion of cloud, AI, and large-scale compute environments. Colocation facilities follow with steady growth supported by enterprise outsourcing. Enterprise data centers maintain relevance but invest heavily in modernization. Edge data centers grow quickly due to low-latency service demand. Other small facilities rely on cost-efficient cooling to manage diverse workloads across sectors.

By End-user

IT and telecom lead the U.S. Data Center Cooling Market because they operate dense digital infrastructure and require robust thermal systems. BFSI, healthcare, and retail adopt advanced cooling to protect mission-critical applications. Energy companies use cooling to support operational control systems and analytics platforms. Demand spreads across all sectors as digital transformation accelerates. Each end-user group prioritizes reliability and energy efficiency to protect core operations.

Regional Insights:

Northeast Region

The U.S. Data Center Cooling Market sees strong adoption in the Northeast, driven by mature financial hubs and dense cloud demand. The region holds an estimated 34% share, supported by high investment from enterprise, BFSI, and colocation operators. Cooling innovation expands as facilities upgrade to support AI and high-density racks. Operators adopt advanced air and liquid systems to meet strict sustainability targets in urban areas. Vendors grow partnerships with large data center clusters in New York, New Jersey, and Pennsylvania. The region strengthens its position due to stable digital demand and strong regulatory alignment.

For example, Digital Realty confirmed that it uses Vertiv’s Liebert DSE pumped-refrigerant economization systems in several of its U.S. facilities, including New York, to support water-free data center cooling. Vertiv reports that the Liebert DSE design eliminates the need for water used in traditional chilled-water systems, contributing to significant annual water savings across deployments.

South & Midwest Region

The U.S. Data Center Cooling Market records steady growth across the South and Midwest, together accounting for about 31% share driven by lower land costs and strong hyperscale expansion. Operators build large campuses in states like Texas, Ohio, and Iowa to support national cloud networks. Cooling systems scale quickly due to rising high-density loads and broader AI deployment. Enterprises adopt modular and hybrid cooling to manage diverse facility designs. Vendors expand installations across fast-growing colocation hubs. The region gains momentum through strong energy availability and accelerating digital infrastructure projects.

For example, CyrusOne reports using modular data center designs across its Austin, Texas campus with high-efficiency cooling systems from established vendors such as STULZ and Trane. These deployments support hyperscale workloads with strong reliability and scalable thermal performance documented across the company’s operational updates.

West Region

The U.S. Data Center Cooling Market shows rapid expansion in the West, representing nearly 35% share due to significant investment in hyperscale and cloud operations. Cooling adoption rises with growing compute density in major hubs like California, Oregon, and Arizona. Operators deploy liquid cooling and advanced air systems to optimize performance under higher thermal stress. Enterprises upgrade older facilities to meet energy and environmental standards. Vendors integrate smart cooling platforms across large campuses. The West strengthens long-term growth due to strong tech demand and continuous AI-driven expansion.

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Competitive Insights:

Vertiv Group Corp.
Schneider Electric
Johnson Controls International plc
Mitsubishi Electric Corporation
Danfoss
Modine Manufacturing Company
Munters
Rittal GmbH & Co. KG
STULZ GmbH
Dell Inc.

U.S. Data Center Cooling Market features a consolidated yet innovative competitive landscape. Vertiv, Schneider Electric, and Johnson Controls lead large projects, influence specifications, and shape architecture standards. Mitsubishi Electric, Danfoss, Modine, and Munters focus on efficient components and climate adapted designs. Rittal and STULZ strengthen positions in precision and modular cooling platforms across key regions. Dell collaborates with infrastructure vendors to align IT hardware with rack level cooling. Immersion and liquid specialists pressure incumbents to accelerate product roadmaps and service models. Vendors compete on lifecycle cost, reliability, and integration with AI based control software. Partnerships with hyperscalers, colocation providers, and telecom operators define scale and visibility. The market rewards suppliers that deliver flexible, efficient, sustainable solutions for legacy and new facilities.

Recent Developments:

In November 2025, Danfoss strengthened its position in the U.S. data center cooling market by hosting a significant event at its Turbocor facility in Tallahassee, Florida, attended by 20 EU ambassadors. The company highlighted its oil-free, magnetic-bearing compressor technology, which is helping data centers reduce energy consumption and greenhouse gas emissions.
In October 2025, Dell Inc. introduced its PowerCool eRDHx (Rear-Door Heat Exchanger) at the OCP Summit, offering a new category of integrated cooling for high-density AI and HPC workloads. The solution enables operation at room-neutral temperatures and can reduce cooling energy costs by up to 60% when combined with Dell’s IR7000 racks and hybrid Direct Liquid Cooling (DLC). This innovation supports the growing demand for efficient, scalable cooling in modern data centers.
In September 2025, Johnson Controls International plc launched its new Silent-Aire Coolant Distribution Unit (CDU) platform, providing scalable cooling capacities from 500kW to over 10MW for high-density data centers. The CDU platform is designed to help facilities transition to liquid cooling and reduce non-IT energy consumption by more than 50%.
In May 2025, Asetek, Inc. launched its new Ingrid liquid cooling platform, designed for B2B applications and tailored to high-performance computing (HPC) and artificial intelligence (AI) workloads. The platform features customizable inlet/outlet orientations, smart thermal sensing, and acoustic efficiency, positioning Asetek as a leader in scalable and energy-efficient data center cooling solutions.

1. Introduction

1.1. Market Definition & Scope

1.2. Research Methodology

1.2.1. Primary Research

1.2.2. Secondary Research

1.2.3. Data Validation & Assumptions

1.3. Market Segmentation Framework

2. Executive Summary

2.1. Market Snapshot

2.2. Key Findings

2.3. Analyst Recommendations

2.4. Market Outlook (2025–2035)

3. Market Dynamics

3.1. Market Drivers

3.2. Market Restraints

3.3. Market Opportunities

3.4. Challenges & Risks

3.5. Value Chain Analysis

3.6. Porter’s Five Forces Analysis

4. U.S. Data Center Cooling Market – Market Sizing & Forecast

4.1. Historical Market Size (2020–2025)

4.2. Forecast Market Size (2026–2035)

4.3. Market Growth Rate Analysis

4.4. Market Outlook by Country

5. Capital Expenditure (CapEx) Analysis

5.1. CapEx Trends by Cooling Solution

5.1.1. Investment patterns across air-based, liquid-based, hybrid, and immersion cooling

5.1.2. CapEx share by cooling equipment type (CRAC/CRAH, chillers, cooling towers, economizers, etc.)

5.1.3. Country-wise CapEx trends

5.1.4. OEM vs. retrofit investment analysis

5.2. Return on Investment (ROI) & Payback Period Analysis

5.2.1. ROI by cooling technology type

5.2.2. Cost-benefit comparison: air cooling vs. liquid cooling vs. immersion cooling

5.2.3. Payback period across Tier I–IV data centers

5.2.4. Case examples of cost savings through energy-efficient cooling adoption

6. Data Center Cooling Capacity & Utilization

6.1. Installed Capacity (MW & Sq. Ft.) by Cooling Solution

6.1.1. Installed cooling capacity by solution type and Country

6.1.2. Cooling system density (kW/rack and per sq. ft.)

6.1.3. Capacity expansion trends by hyperscale vs. colocation vs. enterprise

6.2. Utilization Rates & Efficiency Metrics

6.2.1. Cooling system utilization vs. design capacity

6.2.2. Average and peak load management practices

6.2.3. Equipment lifecycle and performance benchmarks

6.3. Power Usage Effectiveness (PUE) & Energy Efficiency

6.3.1. Average PUE by data center size and cooling technology

6.3.2. Comparison of traditional vs. green cooling systems

6.3.3. Cooling system contribution to total facility energy consumption

6.4. Rack Density & Cooling Efficiency

6.4.1. Average rack density (kW/rack) trends

6.4.2. Cooling adequacy vs. rack load

6.4.3. Relationship between high-density workloads (AI, HPC) and cooling requirements

7. Data Center Cooling Market, Energy & Resource Consumption Analysis

7.1. Energy Consumption Analysis

7.1.1. Total energy consumption by cooling solution type (air-based, liquid, hybrid, immersion)

7.1.2. Energy intensity per MW of IT load

7.1.3. Energy share of cooling in total facility power (cooling load ratio)

7.1.4. Annualized Energy Efficiency Ratio (EER / SEER) by cooling system type

7.1.5. Trend in energy consumption reduction through automation, AI, and free cooling technologies

7.2. Water Consumption Analysis

7.2.1. Water Usage Effectiveness (WUE) – liters per kWh of IT load

7.2.2. Water consumption by cooling technology (evaporative cooling, adiabatic cooling, etc.)

7.2.3. Water recycling and reuse systems in data centers

7.2.4. Impact of Country-wise water scarcity regulations on cooling system choice

7.2.5. Shift from water-intensive to air-based or hybrid systems

7.3. Combined Energy–Water Efficiency Metrics

7.3.1. Energy-Water Nexus in cooling optimization

7.3.2. Correlation between PUE, WUE, and total operational cost (OpEx)

7.3.3. Case studies of zero-water or waterless cooling deployments

7.4. Benchmarking & Comparative Analysis

7.4.1. Benchmarking against ASHRAE, Uptime Institute, and DOE standards

7.4.2. Comparison of U.S. WUE/PUE averages by Country

7.4.3. Best practices adopted by hyperscalers (AWS, Google, Microsoft, Meta, etc.)

8. U.S. Data Center Cooling Market – By Component

8.1. Solution

8.2. Services

9. U.S. Data Center Cooling Market – By Data Center Cooling Solution

9.1. Air Conditioners

9.2. Precision Air Conditioners

9.3. Chillers

9.4. Air Handling Units

9.5. Liquid Cooling

9.6. Others

10. U.S. Data Center Cooling Market – By Service

10.1. Installation & Deployment

10.2. Support & Consulting

10.3. Maintenance Services

11. U.S. Data Center Cooling Market – By Enterprise Size

11.1. Large Enterprises

11.2. Small & Medium Enterprises (SMEs)

12. U.S. Data Center Cooling Market – By Floor Type

12.1. Raised Floors

12.2. Non-Raised Floors

13. U.S. Data Center Cooling Market – By Containment

13.1. Raised Floor with Hot Aisle Containment (HAC)

13.2. Raised Floor with Cold Aisle Containment (CAC)

13.3. Raised Floor without Containment

14. U.S. Data Center Cooling Market – By Structure

14.1. Rack-Based Cooling

14.2. Row-Based Cooling

14.3. Room-Based Cooling

15. U.S. Data Center Cooling Market – By Application

15.1. Hyperscale Data Center

15.2. Colocation Data Center

15.3. Enterprise Data Center

15.4. Edge Data Center

15.5. Other Data Centers

16. U.S. Data Center Cooling Market – By End-user

16.1. Telecom

16.2. IT

16.3. Retail

16.4. Healthcare

16.5. BFSI

16.6. Energy

16.7. Others

17. Sustainability & Green Data Center Cooling

17.1. Energy Efficiency Initiatives

17.1.1. Deployment of free cooling, adiabatic cooling, and economizers

17.1.2. Smart control systems for temperature and airflow optimization

17.1.3. Case studies of efficiency improvement programs

17.2. Renewable Energy Integration

17.2.1. Integration of solar, wind, or geothermal sources in cooling operations

17.2.2. Hybrid systems combining renewable energy with mechanical cooling

17.3. Carbon Footprint & Emission Analysis

17.4. GHG reduction initiatives

17.5. LEED & Green Certifications

17.5.1. Share of cooling systems installed in LEED, BREEAM, or Energy Star certified facilities

17.5.2. Compliance with ASHRAE and ISO energy efficiency standards

18. Emerging Technologies & Innovations

18.1.1. Emerging Technologies & Innovations

18.1.2. Liquid Cooling & Immersion Cooling

18.1.3. Adoption rate and technology maturity

18.1.4. Key vendors and installations by Country

18.1.5. Comparative analysis: performance, cost, and energy savings

18.2. AI & HPC Infrastructure Integration

18.2.1. Cooling demand driven by AI training clusters and HPC systems

18.2.2. Adaptation of cooling design to high heat density workloads

18.3. Quantum Computing Readiness

18.3.1. Cooling requirements for quantum processors

18.3.2. Potential cooling technologies suitable for quantum environments

18.4. Modular & Edge Data Center Cooling

18.4.1. Cooling strategies for prefabricated and modular facilities

18.4.2. Compact and adaptive cooling for edge sites

18.5. Automation, Orchestration & AIOps

18.5.1. Integration of AI-driven thermal management

18.5.2. Predictive maintenance and automated cooling optimization

19. Competitive Landscape

19.1. Market Share Analysis

19.2. Key Player Strategies

19.3. Mergers, Acquisitions & Partnerships

19.4. Product & Service Launches

20. Company Profiles

20.1. Asetek, Inc.

20.2. Danfoss

20.3. Dell Inc.

20.4. Johnson Controls International plc

20.5. Midas Immersion Cooling

20.6. Mitsubishi Electric Corporation

20.7. Modine Manufacturing Company

20.8. Munters

20.9. Nortek Air Solutions, LLC

20.10. NTT Ltd.

20.11. nVent

20.12. Rittal GmbH & Co. KG

20.13. Schneider Electric

20.14. STULZ GmbH

20.15. Vertiv Group Corp.

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Frequently Asked Questions:

What is the current market size for the U.S. Data Center Cooling Market, and what is its projected size in 2035?

The U.S. Data Center Cooling Market is valued at USD 7,823.81 million in 2025 and is projected to reach USD 33,524.92 million by 2035. The strong rise reflects rapid expansion of high-density computing and liquid cooling adoption.

At what Compound Annual Growth Rate is the U.S. Data Center Cooling Market projected to grow between 2025 and 2035?

The U.S. Data Center Cooling Market is expected to grow at a CAGR of 15.61% from 2025 to 2035. Growth aligns with rising AI workloads and modernization across hyperscale and colocation facilities.

Which segment held the largest share in 2025 in the U.S. Data Center Cooling Market?

The solution segment held the largest share in the U.S. Data Center Cooling Market in 2025. Strong adoption of chillers, precision air systems, and liquid cooling reinforced its leadership across large-scale deployments.

What are the primary factors fueling the growth of the U.S. Data Center Cooling Market?

Growth in the U.S. Data Center Cooling Market is driven by rising high-density compute loads, wider AI adoption, modernization of legacy cooling, and stronger interest in energy-efficient and liquid-based technologies. Edge expansion and smart automation also support market momentum.

Who are the leading companies in the U.S. Data Center Cooling Market?

Key leaders in the U.S. Data Center Cooling Market include Vertiv, Schneider Electric, Johnson Controls, Mitsubishi Electric, Danfoss, Modine, Munters, Rittal, STULZ, and Dell. These companies dominate through broad portfolios and strong deployment capabilities.

Which region commanded the largest share of the U.S. Data Center Cooling Market in 2025?

The West region held the largest share of the U.S. Data Center Cooling Market with about 35%. Strong hyperscale growth in California, Oregon, and Arizona drove higher adoption of advanced cooling systems.

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