Home » Mexico Data Center Cooling Market

Mexico 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 Mexico Data Center Cooling Market size was valued at USD 332.99 million in 2020 to USD 685.35 million in 2025 and is anticipated to reach USD 2,581.55 million by 2035, at a CAGR of 14.14% during the forecast period.

REPORT ATTRIBUTE	DETAILS
Historical Period	2020-2023
Base Year	2024
Forecast Period	2025-2035
Mexico Data Center Cooling Market Size 2025	USD 685.35 Million
Mexico Data Center Cooling Market, CAGR	14.14%
Mexico Data Center Cooling Market Size 2035	USD 2,581.55 Million

Rising cloud expansion, AI-driven workloads, and digital transformation push operators toward advanced cooling technologies. Adoption increases for liquid cooling, modular chillers, and smart airflow systems to support high-density racks. Innovation focuses on sustainability, automation, and reduced energy use. Strategic importance grows as enterprises aim for stable uptime and better thermal performance to protect critical IT assets. Investors view this market as a strong long-term play due to clear modernization cycles and rising operational demands.

Central Mexico remains the leading region due to strong fiber connectivity, enterprise activity, and concentrated hyperscale development. Northern areas gain momentum through industrial growth and nearshoring demand that supports new digital infrastructure. Western and southern regions emerge steadily as operators expand coverage to improve latency and support regional workloads. Geographic diversity increases resilience and positions the country as a rising hub within the broader Latin American data center ecosystem.

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Market Drivers

Rapid Digital Infrastructure Growth And Cloud Migration Fuel Cooling Demand

The Mexico Data Center Cooling Market benefits from strong cloud and colocation growth. Hyperscale players expand capacity to serve regional and cross-border workloads. Enterprise IT shifts from on-premises rooms to professional facilities with higher density. Cooling demand grows with denser racks and AI-ready server clusters. Operators upgrade plants to maintain reliability under higher thermal loads. Uptime expectations from banks, telecom, and retail stay very high. Investors view cooling as a core enabler of digital transformation. This perspective supports long-term capital allocation into advanced thermal systems.

Rising Focus On Energy Efficiency, Sustainability, And Cost Optimization

The Mexico Data Center Cooling Market gains momentum from energy efficiency mandates. Operators face rising power tariffs and pressure to limit operating costs. Efficient cooling helps protect margins and frees capacity for IT loads. New builds favor free-cooling, variable speed drives, and optimized airflow paths. Green building standards push designs toward efficient envelopes and better insulation. Corporate ESG targets increase interest in low-water and low-carbon cooling. Investors track power usage metrics when comparing facilities. These preferences reward sites that deploy efficient thermal architectures.

For instance, Kio Networks, at its Queretaro data center campus, has achieved TIER IV certification and is explicitly designed for energy efficiency, featuring 2,500 kW capacity, N+1 redundancy, and seven-day autonomy, as well as structural and operational approaches that deliver low Power Usage Effectiveness (PUE) according to corporate disclosures.

Technology Adoption In Liquid, Modular, And Smart Cooling Architectures

The Mexico Data Center Cooling Market advances through new cooling technologies. Operators test liquid cooling for high-density AI and analytics racks. Modular cooling blocks help phase capacity with demand and limit overbuild. Smart controls connect to building management systems and DCIM platforms. Real-time monitoring supports better setpoints and preventive maintenance. Vendors bundle hardware, controls, and analytics in integrated solutions. This mix improves resilience and fine-tunes cooling performance across zones. The approach creates a clear upgrade path for legacy facilities.

Strategic Role Of Mexico In Regional Connectivity And Nearshoring

The Mexico Data Center Cooling Market holds strategic value for regional networks. Mexico links Latin American users with North American content hubs. Nearshoring trends attract manufacturing and services that need local data hosting. New campuses cluster near major metros and industrial corridors. Cooling acts as a critical backbone for these digital infrastructures. Reliable systems support service level agreements with global clients. Investors view Mexico as a scalable platform for regional expansion. This positioning strengthens demand for robust, future-ready cooling projects.

For instance, ODATA, in May 2025, inaugurated its $3B Queretaro campus the largest in Mexico deploying Aligned’s patented Delta Cube (Delta³) cooling solution specifically designed for adaptive, high-density data centers, making Mexico an essential link in regional infrastructure and connectivity for global customers.

Market Trends

Shift Toward Sustainable Designs And Alternative Cooling Resources

The Mexico Data Center Cooling Market shows a clear tilt toward sustainability. Developers assess locations with favorable climate conditions for free-cooling hours. Designs reserve space for future liquid loops and heat reuse systems. Operators study options to capture and redirect waste heat. Low-water cooling concepts gain attention in regions with supply risk. Materials and refrigerants follow tighter environmental standards and global norms. Certification frameworks influence design and vendor selection. These patterns shape long-term infrastructure choices across the country.

Integration Of Cooling With Digital Monitoring, AI, And Automation

The Mexico Data Center Cooling Market tracks a trend toward smarter operations. Cooling equipment increasingly connects to centralized monitoring platforms. AI tools analyze temperature, pressure, and humidity data in near real time. Algorithms recommend minor setpoint changes to lower energy use. Predictive maintenance models help avoid unplanned downtime events. Remote dashboards let teams supervise multiple sites from one center. Automation supports more stable thermal conditions under fluctuating IT loads. This digital overlay becomes a core part of competitive positioning.

Growing Preference For Modular, Scalable, And Edge-Ready Cooling Designs

The Mexico Data Center Cooling Market records rising use of modular solutions. Prefabricated cooling pods shorten deployment times for new capacity. Edge data centers near users adopt compact systems with integrated controls. Modular chillers and air handlers allow stepwise growth by demand. Designs support quick relocation or expansion within the same campus. Standardized architectures simplify maintenance and spare parts planning. This flexibility appeals to colocation providers with diverse tenants. The trend supports faster response to shifting digital demand patterns.

Evolving Vendor Ecosystem And Service-Centric Business Models

The Mexico Data Center Cooling Market experiences change in the vendor landscape. Global OEMs deepen partnerships with local integrators and contractors. Service models shift toward long-term performance-based agreements. Vendors provide remote diagnostics and lifecycle upgrades for installed fleets. Operators request bundled offerings that cover design, deployment, and maintenance. Multi-year support contracts reduce operational risk for new entrants. Consulting services around airflow and containment gain prominence. This mix favors vendors that combine equipment strength with strong service depth.

Market Challenges

High Energy Use, Infrastructure Constraints, And Cost Pressure On Operators

The Mexico Data Center Cooling Market faces serious energy and cost challenges. Cooling accounts for a large share of total facility power use. Rising tariffs squeeze margins for colocation and enterprise operators. Grid constraints in some corridors complicate capacity planning. Legacy facilities struggle to meet modern efficiency targets. Upgrading old plants demands capital and careful phasing. Smaller operators may delay investments and risk performance gaps. It can slow adoption of advanced systems in price-sensitive segments. These factors create a complex operating environment.

Skills Gaps, Regulatory Complexity, And Technology Integration Risks

The Mexico Data Center Cooling Market also contends with talent and compliance issues. Specialized cooling design and control skills remain in short supply. Operators sometimes rely heavily on a few engineering partners. Regulatory frameworks around energy and environment keep evolving. Projects must align with building codes and utility requirements. Integrating new cooling technologies with old infrastructure carries risk. Poor integration can hurt reliability and negate efficiency gains. It forces operators to invest in planning and training. These hurdles can slow project execution timelines.

Market Opportunities

Expansion Of Hyperscale, Edge, And Industry-Specific Data Facilities

The Mexico Data Center Cooling Market offers strong growth potential in new builds. Hyperscale projects need advanced thermal designs for dense workloads. Edge deployments for content, gaming, and IoT need compact solutions. Sector-specific data centers for telecom, healthcare, and retail create niche demand. Vendors can tailor cooling packages for each vertical and load profile. Emerging industrial corridors need local hosting for nearshoring clients. It opens doors for integrated cooling and power solutions. These developments support a healthy long-term opportunity pipeline.

Innovation In Green Cooling, Services, And Financing Models

The Mexico Data Center Cooling Market also presents room for solution innovation. Vendors can launch low-water systems and high-efficiency liquids. Service providers can offer performance contracts linked to energy savings. New financing models can spread upfront costs for smaller players. Training programs can strengthen local skill pools for complex systems. Digital twins and simulation tools can optimize designs before build. Partnerships with utilities can support demand response programs. This ecosystem development encourages wider adoption of advanced cooling.

Market Segmentation

By Component Solution

In the Mexico Data Center Cooling Market, solutions hold the major revenue share. Chillers, precision units, and liquid systems capture most capital spending. Services gain ground as operators seek lifecycle support and optimization. Large campuses rely on tailored solution stacks with advanced controls. Smaller sites value packaged systems with integrated maintenance contracts. Growing demand for design audits and retrofits boosts service revenue. Vendors that combine strong hardware portfolios with service expertise gain advantage. It strengthens long-term client relationships across diverse facility sizes.

By Data Center Cooling Solution

Within the Mexico Data Center Cooling Market, precision air conditioners lead the solution mix. They support stable conditions for high-density racks and critical loads. Traditional air conditioners still serve low-density or auxiliary spaces. Chillers form the backbone of large campus plants with central loops. Liquid cooling, while smaller today, grows quickly with AI workloads. Air handling units and other systems complement main lines in complex sites. Adoption patterns depend on rack density, climate, and energy goals. This segmentation gives vendors room to position differentiated portfolios.

By Service Deployment,

Services in the Mexico Data Center Cooling Market span installation, consulting, and maintenance. Installation and deployment services dominate early project phases. Support and consulting guide airflow design, containment choice, and efficiency tuning. Maintenance services secure uptime and protect critical assets against failures. Long-term contracts with performance clauses gain traction among large operators. SMEs often favor bundled packages that combine all three service types. Remote monitoring becomes standard in higher tier facilities. This structure helps align service revenue with evolving facility needs.

By Enterprise Size

Enterprise size shapes purchasing patterns in the Mexico Data Center Cooling Market. Large enterprises and cloud providers command the largest share. They invest in custom plants, liquid adoption, and advanced controls. SMEs lean toward modular, cost-controlled packages with simple integration. Large enterprises prioritize redundancy and long-term energy savings. SMEs focus on reliability and straightforward maintenance models. Colocation providers serve both groups with flexible configurations. This mix pushes vendors to design scalable, tiered solution lines.

By Floor Type

Floor type segmentation in the Mexico Data Center Cooling Market influences design choices. Raised floors dominate in older and many current enterprise sites. They support underfloor air distribution and clear cable routing. Non-raised floors gain share in new hyperscale and modular builds. These facilities use overhead or side cooling with hot or cold aisle layouts. Floor strategy affects containment design, airflow modeling, and equipment selection. Vendors tailor solutions and services to each layout. This flexibility helps align cooling with modern construction preferences.

By Containment

Containment plays a key role in the Mexico Data Center Cooling Market. Raised floor with cold aisle containment remains widely used in existing sites. Hot aisle containment gains share where operators target higher densities. Raised floors without containment decline as energy costs increase. Effective containment improves temperature stability and reduces fan power. Operators upgrade containment in phased programs to limit downtime. Choice depends on legacy design, load profile, and budget. These strategies collectively push facilities toward better thermal management.

By Structure

Structural configuration shapes procurement in the Mexico Data Center Cooling Market. Room-based cooling remains important in legacy and smaller facilities. Rack-based solutions grow in high-density environments and AI clusters. Row-based cooling serves as a bridge for medium density zones. Operators mix structures within one campus to match varied load needs. Rack and row systems allow more granular control and zoning. Room systems remain cost effective for simple layouts. This layered structure strategy supports smooth migration from old designs to new.

By Application

Application segments in the Mexico Data Center Cooling Market show clear patterns. Hyperscale data centers command a rising share on the back of cloud growth. Colocation facilities hold strong share by hosting many enterprise tenants. Enterprise data centers remain relevant where firms retain core workloads. Edge data centers expand to improve latency and regional coverage. Other smaller data centers fill niche sector needs. Each application demands specific redundancy levels and efficiency targets. This diversity drives tailored cooling designs and varied service models.

By End-User

End-user segmentation in the Mexico Data Center Cooling Market spans telecom, IT, retail, healthcare, BFSI, energy, and others. Telecom and IT providers account for the largest share. BFSI facilities demand strict uptime and security, pushing advanced designs. Healthcare data environments need stable thermal control for sensitive records and imaging. Retail and e-commerce rely on digital platforms that require reliable hosting. Energy and industrial players adopt local data centers for operations and analytics. These verticals together sustain broad demand for efficient cooling.

Regional Insights

Central Metropolitan Corridor Dominating Share With Strong Connectivity And Cloud Presence

Central Mexico holds the largest share of the Mexico Data Center Cooling Market, near 45%. Mexico City and nearby metros host major cloud, colocation, and enterprise sites. Strong fiber networks and access to business headquarters support this dominance. Cooling investments focus on efficient chillers and precision systems for dense racks. Land and power constraints drive interest in vertical and compact designs. It encourages careful thermal planning and smart controls in new builds. This corridor remains the primary focus for large international investors.

For example, Equinix announced a global shift to operate its data centers closer to 27°C (80°F) in line with ASHRAE A1A guidelines. This change is expected to improve energy efficiency by up to 10% across its facilities, including sites in Mexico. The initiative supports customers seeking lower operational emissions and more efficient thermal management.

Northern Industrial Belt And Border Regions Expanding Capacity And Demand

Northern Mexico accounts for roughly 35% share of the Mexico Data Center Cooling Market. Border regions support logistics, manufacturing, and nearshoring operations that need reliable hosting. Cities with strong industrial bases attract new data center campuses. Cooling projects favor scalable systems that can grow with industrial demand. Operators seek robust designs that handle temperature extremes and grid variations. These characteristics help position the north as a strategic extension of U.S. networks. Investors view the belt as a key growth frontier.

Western, Southern, And Emerging Hubs Building Niche Digital Ecosystems

Western and Bajio areas together hold around 12% share of the Mexico Data Center Cooling Market. Southern and southeastern regions contribute close to 8% share. These markets grow from a smaller base with new digital projects and cloud adoption. Regional governments support local data infrastructure to improve services. Developers deploy compact, often modular cooling solutions for early facilities. It helps test demand while controlling capital exposure. Over time, these hubs can broaden the national footprint and enhance resilience.

For instance, NTT Data opened a cooling technology verification facility in 2024 to test direct liquid cooling and immersion cooling solutions in partnership with Hibiya Engineering and Kuwana Metals. The site measures real-world performance, including optimal water flow and verified energy savings under live data center operating conditions.

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Competitive Insights:

Vertiv Group Corp.
Johnson Controls International plc
Carrier
Danfoss
Mitsubishi Electric Corporation
Schneider Electric
STULZ GmbH
Rittal GmbH & Co. KG
CoolIT Systems
Nortek Air Solutions

The Mexico Data Center Cooling Market features a mix of global OEMs and specialist vendors that compete on efficiency, reliability, and lifecycle value. Large players such as Vertiv, Schneider Electric, and Johnson Controls leverage broad portfolios and strong service networks to secure major hyperscale and colocation projects. STULZ, Rittal, and Nortek Air Solutions focus on precision cooling and tailored room solutions for high-density environments. CoolIT Systems strengthens the liquid cooling segment for AI and HPC workloads. Danfoss and Carrier provide critical components and turnkey systems that support varied plant designs. Competition centers on energy performance, TCO, and speed of deployment. It encourages partnerships with local integrators, distributors, and construction firms to align with project timelines and regulatory needs.

Recent Developments:

In September 2025, Johnson Controls introduced its Silent-Aire Coolant Distribution Unit (CDU) platform, which offers scalable liquid cooling solutions for data centers, with capacities ranging from 500 kW to over 10 MW. Designed for high-density computing and liquid cooling migration, these new solutions aim to reduce non-IT energy consumption by more than 50%, with a focus on energy efficiency and reliability.
In September 2025, Nortek Data Center Cooling announced the debut of its skidded Coolant Distribution Unit (CDU), engineered to scale beyond 5 MW and reduce on-site labor in large-scale deployments. The product is customized for high-density and AI-driven environments.
In January 2025, Mitsubishi Electric signed a memorandum of understanding with AWS to co-develop advanced energy management systems, including AI-based air conditioning management for data centers. The new approach focuses on predictive load management and carbon footprint reduction.
In February 2025, Vertiv unveiled its global Liquid Cooling Services portfolio, specifically designed to support AI and high-density computing workloads in Mexico, further solidifying the country’s reputation as a regional technology hub.
In February 2025, Carrier invested in ZutaCore, aiming to bring waterless liquid cooling technology into its thermal management portfolio.

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. Mexico 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 Mexico WUE/PUE averages by Country

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

8. Mexico Data Center Cooling Market – By Component

8.1. Solution

8.2. Services

9. Mexico 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. Mexico Data Center Cooling Market – By Service

10.1. Installation & Deployment

10.2. Support & Consulting

10.3. Maintenance Services

11. Mexico Data Center Cooling Market – By Enterprise Size

11.1. Large Enterprises

11.2. Small & Medium Enterprises (SMEs)

12. Mexico Data Center Cooling Market – By Floor Type

12.1. Raised Floors

12.2. Non-Raised Floors

13. Mexico 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. Mexico Data Center Cooling Market – By Structure

14.1. Rack-Based Cooling

14.2. Row-Based Cooling

14.3. Room-Based Cooling

15. Mexico 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. Mexico 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. Vertiv Group Corp.

20.2. Johnson Controls International plc

20.3. Carrier

20.4. Danfoss

20.5. Mitsubishi Electric Corporation

20.6. Schneider Electric

20.7. STULZ GmbH

20.8. Rittal GmbH & Co. KG

20.9. CoolIT Systems

20.10. Nortek Air Solutions

20.11. LiquidStack

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Frequently Asked Questions:

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

The Mexico Data Center Cooling Market reached about USD 685.35 million in 2025. It is projected to grow to nearly USD 2,581.55 million by 2035, supported by strong digital expansion and rising cooling intensity.

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

The Mexico Data Center Cooling Market is expected to expand at a CAGR of around 14.14% from 2025 to 2035, driven by higher rack densities, AI deployments, and efficient cooling adoption.

Which Mexico Data Center Cooling Market segment held the largest share in 2025?

Solutions held the largest share of the Mexico Data Center Cooling Market in 2025, led by chillers, precision air conditioners, and liquid-ready systems adopted across hyperscale and colocation sites.

What are the primary factors fueling the growth of the Mexico Data Center Cooling Market?

The Mexico Data Center Cooling Market grows due to cloud expansion, AI-driven density increases, modular cooling adoption, and strong demand for energy-efficient systems across new and retrofitted data centers.

Who are the leading companies in the Mexico Data Center Cooling Market?

The Mexico Data Center Cooling Market is led by Vertiv, Schneider Electric, Johnson Controls, Carrier, Danfoss, STULZ, Rittal, CoolIT Systems, and Nortek Air Solutions, all active across key deployments.

Which region commanded the largest share of the Mexico Data Center Cooling Market in 2025?

Central Mexico held the largest share of the Mexico Data Center Cooling Market in 2025, supported by strong connectivity, hyperscale activity, and concentrated enterprise demand near major metropolitan hubs.

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