Home » Chile Data Center Cooling Market

Chile Data Center Cooling Market By Component (Solutions, Services); By Cooling Technique (Room-Based Cooling, Row-Based Cooling, Rack-Based Cooling); By End User (IT & Telecom, BFSI, Healthcare, Government & Defense, Others); By Data Center Type (Large, Mid-Size, Enterprise); By Region – Growth, Share, Opportunities & Competitive Analysis, 2025 – 2035

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Executive summary:

The Chile Data Center Cooling Market size was valued at USD 36.09 million in 2020 to USD 72.83 million in 2025 and is anticipated to reach USD 254.88 million by 2035, at a CAGR of 13.31% during the forecast period.

REPORT ATTRIBUTE	DETAILS
Historical Period	2020-2023
Base Year	2024
Forecast Period	2025-2035
Chile Data Center Cooling Market Size 2025	USD 72.83 Million
Chile Data Center Cooling Market, CAGR	13.31%
Chile Data Center Cooling Market Size 2035	USD 254.88 Million

Growing demand for high-density compute drives faster adoption of advanced cooling technologies across Chile. Operators test liquid cooling, precision air systems, and hybrid designs to maintain stable performance for AI and cloud workloads. Innovation improves efficiency, reduces operational strain, and supports long-term scalability for data center operators. These shifts create strategic value for businesses and investors because cooling plays a central role in performance, uptime, and competitive differentiation across the infrastructure landscape.

Central Chile leads the market with strong concentration of hyperscale and colocation activity supported by robust connectivity and power availability. Northern regions gain momentum due to renewable energy access and industrial workloads that require reliable digital infrastructure. Southern regions show early growth due to rising enterprise needs and improved network coverage. Each region advances at a different pace driven by climate conditions, energy profiles, and investment depth across the Chile Data Center Cooling Market.

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Market Drivers

Surge In Hyperscale, Cloud, and Colocation Capacity Across Key Chilean Hubs

Strong growth in hyperscale and colocation builds drives the Chile Data Center Cooling Market. Cloud providers expand capacity around Santiago and key regional hubs. Higher rack densities push operators toward efficient and scalable thermal designs. Investors back campuses with modular cooling blocks and quick deployment cycles. Operators prioritize uptime to meet strict SLAs from global cloud tenants. Efficiency targets push upgrades from legacy CRAC units to modern precision systems. Local enterprises also migrate workloads to third-party facilities with advanced cooling. This shift keeps demand strong across new and retrofit projects.

For instance, Scala Data Centers reports that several of its Latin American campuses, including Tamboré, operate with PUE values below 1.4 using advanced chiller and modular cooling designs. The company also confirms that new facilities are engineered to support high-density AI workloads with liquid-ready cooling architectures, as outlined in its public sustainability and infrastructure disclosures.

Shift Toward High-Efficiency and Sustainable Cooling To Cut Energy and Water Use

Energy prices and carbon targets drive strong focus on efficient cooling technologies. Operators seek systems that cut power use without hurting reliability. New builds often adopt free cooling, economizers, and advanced controls. Chile’s renewable energy profile strengthens the case for green data center designs. Policymakers highlight efficiency standards that support sustainable infrastructure growth. Investors view efficient cooling as a hedge against stricter environmental rules. The Chile Data Center Cooling Market benefits when operators replace outdated equipment. The focus on sustainability aligns technical goals with long-term financial returns.

Rising AI, Edge, and High-Density Compute Adoption Reshapes Cooling Architectures

High-density AI and analytics workloads create new thermal management needs. GPU clusters and accelerated compute generate concentrated heat loads. Operators test liquid and hybrid cooling to support very dense racks. Edge nodes near industrial and content sites also require reliable thermal control. Vendors promote modular cooling designs that scale with power density. Telecom and content firms weigh cooling choices during 5G and edge rollouts. The Chile Data Center Cooling Market gains relevance in these design decisions. This link between cooling and performance attracts attention from technology investors.

Growing Need For Resilient, Tier-Aligned Infrastructure To Support Mission-Critical Workloads

Enterprises shift core applications into facilities built to Tier III or higher standards. Strong redundancy in cooling becomes critical for uptime guarantees. Financial institutions demand stable thermal performance for latency-sensitive platforms. Healthcare and public sector workloads also rely on continuous availability. Colocation providers use robust cooling designs to differentiate service quality. Resilient cooling helps secure long contracts with international cloud and content players. The Chile Data Center Cooling Market supports this push toward premium infrastructure. Strategic investors view reliable cooling as a key value driver in asset portfolios.

For instance, SONDA confirms that its Quilicura Data Center in Chile is built to Tier III design standards and uses redundant cooling infrastructure with N+1 CRAC configurations, as outlined in its official capability documentation. EdgeConneX also specifies that its Santiago facilities operate with N+1 cooling systems and real-time environmental monitoring across critical rooms.

Market Trends

Adoption Of Liquid, Hybrid, and Direct-To-Chip Cooling For High-Density Racks

Operators explore liquid and hybrid architectures to support dense AI and HPC racks. Direct-to-chip loops help remove heat at the source. Rear-door heat exchangers support higher rack densities in existing halls. Colocation providers test liquid options in select high-density suites. Vendors promote reference designs tailored for local power and climate profiles. Early adopters share performance data that proves thermal and energy gains. The Chile Data Center Cooling Market reflects this gradual yet clear technology shift. Trend momentum grows as more AI and GPU deployments reach production scale.

Expansion Of Modular, Prefabricated, and Scalable Cooling Blocks For Faster Deployment

Modular cooling blocks shorten build times for new data halls. Prefabricated chiller plants arrive on-site with tested components. Containerized cooling units support temporary or phased capacity growth. Operators value repeatable designs that simplify maintenance and spare parts. Standard blocks help align global design templates with local conditions. Investors prefer projects that deliver capacity in predictable stages. The Chile Data Center Cooling Market tracks this move toward industrialized delivery. Modular practices reduce project risk and support flexible capital planning.

Integration Of Smart Controls, AI-Based Optimization, and Real-Time Monitoring

Cooling control systems now use granular sensors across white spaces. AI engines analyze thermal patterns and adjust setpoints quickly. Predictive analytics help detect anomalies before failures occur. Operators tune fan speeds and valve positions to match live loads. Dashboards show power, temperature, and humidity at a detailed level. Remote operations teams manage multiple sites from centralized control rooms. The Chile Data Center Cooling Market gains value from these intelligent layers. Smart control adoption supports both efficiency and risk reduction goals.

Rising Focus On Water Conservation and Alternative Cooling Media Across Facilities

Operators examine water usage alongside energy metrics in project plans. New designs favor closed-loop systems that reduce water draw. Air-based and refrigerant-based options gain attention where water scarcity exists. Some campuses leverage coastal or high-altitude climates to ease cooling loads. Reports and disclosures highlight water metrics for ESG-minded stakeholders. Tenants increasingly ask about both PUE and WUE during selection. The Chile Data Center Cooling Market reflects these changing procurement criteria. Water-efficient solutions gain traction where climate and regulation tighten resource use.

Market Challenges

High Capital Intensity, Retrofit Complexity, and Constraints Around Legacy Infrastructure

Cooling upgrades often demand large up-front investment in plants and distribution. Legacy buildings may limit space for new chillers and pipework. Structural limits complicate installation of heavy roof or yard equipment. Power availability sometimes restricts step-changes in cooling capacity. Operators face pressure to maintain uptime during retrofit work. Staged upgrades require precise planning, phasing, and risk controls. The Chile Data Center Cooling Market faces these practical constraints at many brownfield sites. Smaller operators can struggle to fund advanced cooling versus short-term fixes.

Skills Gaps, Regulatory Pressures, and Supply Chain Volatility For Advanced Technologies

Advanced cooling systems require specialized design and maintenance skills. Local talent pools may not yet match fast technology change. Training and vendor support become critical for long-term performance. Environmental rules impact refrigerant choices and system architectures. Certification demands add complexity to project schedules and budgets. Global supply chain issues can delay delivery of key components. The Chile Data Center Cooling Market must manage these risks across project portfolios. Stakeholders need careful planning to align technology ambition with execution capacity.

Market Opportunities

Leveraging Renewable Energy, Green Standards, and ESG Capital Flows For New Builds

Chile’s strong renewable base supports low-carbon data center concepts. Cooling designs aligned with green power attract ESG-focused investors. Operators can position campuses as regional sustainability leaders. Green certifications strengthen commercial pitches to multinational tenants. The Chile Data Center Cooling Market benefits when cooling and power strategies align. Vendors can package efficient cooling with renewables and storage solutions. This integrated proposition opens new partnership and financing models.

Developing Local Innovation, Services, and Regional Hub Roles Within Latin America

Local engineering firms can specialize in advanced cooling design and services. Knowledge clusters may form around major data center corridors. Regional and edge projects across Latin America can rely on Chilean expertise. Service providers can export design, commissioning, and optimization skills. The Chile Data Center Cooling Market supports this broader hub positioning. Technology partners can co-develop solutions tailored to regional climates. These roles create long-term revenue beyond single construction cycles.

Market Segmentation

By Component: Shift Toward Solution-Led Deals With Strong Service Attach Rates

By component, solution offerings command the leading share in the Chile Data Center Cooling Market, driven by demand for integrated systems that bundle chillers, air handlers, and controls into unified architectures. Services still record fast growth as operators seek lifecycle support, performance audits, and optimization programs. Strong service attach rates follow complex deployments, where operators rely on vendor expertise to fine-tune systems. This mix strengthens recurring revenue streams and reinforces long-term customer relationships.

By Data Center Cooling Solution: Strong Role Of Precision Air and Chiller-Based Architectures

By cooling solution, precision air conditioners and chiller systems remain dominant in the Chile Data Center Cooling Market because they balance reliability, efficiency, and familiarity for operators. Free-cooling chillers and high-efficiency precision units often form the backbone of new halls. Liquid cooling grows from a smaller base where AI and HPC appear. Air handling units and other technologies support specific layouts and climate needs. Vendors differentiate through part-load performance, redundancy options, and control sophistication.

By Service: Rising Demand For Installation, Consulting, and Long-Term Maintenance Contracts

By service type, installation and deployment activities lead early revenue capture in the Chile Data Center Cooling Market, reflecting ongoing greenfield and expansion projects. Support and consulting services gain relevance during design, technology selection, and compliance reviews. Maintenance services create stable, recurring revenue that stretches across asset lifecycles. Operators often combine OEM support with local partners for rapid response. Service quality influences performance, uptime, and energy outcomes over many years.

By Enterprise Size: Large Enterprises and Hyperscale Tenants Drive High-Value Projects

By enterprise size, large enterprises and hyperscale operators hold the largest share in the Chile Data Center Cooling Market, due to their expansive footprints and complex performance requirements. These customers favor high-availability designs and advanced controls. SMEs contribute smaller but rising demand through colocation usage. Cooling vendors tailor offers to match varied budgets, risk appetites, and technical needs. This segmentation shapes product positioning, financing models, and support structures.

By Floor Type: Continued Preference For Raised Floors With Growing Use Of Non-Raised Designs

By floor type, raised floor layouts still dominate the Chile Data Center Cooling Market where legacy and many current halls rely on underfloor air distribution and flexible cabling. Non-raised floors grow in newer high-density and hyperscale designs that favor overhead distribution and contained aisles. Each approach carries distinct cooling implications for airflow paths and containment strategies. Vendors align product portfolios to support both configurations effectively.

By Containment: Strong Momentum For Hot and Cold Aisle Containment Architectures

By containment, hot aisle and cold aisle configurations together account for a major share of the Chile Data Center Cooling Market, reflecting strong focus on airflow discipline and energy efficiency. Raised floor with HAC or CAC reduces bypass air and improves return temperatures. Sites without containment often plan upgrades during refresh cycles. Effective containment helps operators push higher densities while controlling fan energy. Vendors support this trend through modular panels and tailored designs.

By Structure: Rack-, Row-, and Room-Based Cooling Configurations Serving Diverse Needs

By structure, room-based cooling still underpins many existing facilities in the Chile Data Center Cooling Market, especially older halls that use perimeter units. Row-based and rack-based cooling grow faster in high-density and modular environments. These structures place capacity closer to heat sources and improve control. Hybrid estates often run several structures in parallel, depending on hall age and purpose. Structural choice influences both capex intensity and operational flexibility over time.

By Application: Hyperscale and Colocation Data Centers Lead Demand Across Use Cases

By application, hyperscale and colocation deployments lead in the Chile Data Center Cooling Market, driven by cloud, content, and platform workloads. Enterprise data centers and edge facilities contribute important niche demand. Other data centers, including government and vertical-specific sites, add diverse requirements. Cooling designs adapt to power density, redundancy, and growth expectations in each category. Application mix guides location strategy and technology selection.

By End-User: Telecom, IT, and BFSI Anchor Demand With Growing Sector Diversity
By end-user, telecom, IT, and BFSI represent key adopters in the Chile Data Center Cooling Market, reflecting high digital intensity and strict uptime needs. Retail, healthcare, and energy sectors increase use of data-driven operations. These industries often rely on colocation capacity tailored to their regulatory and performance needs. Cooling solutions must support compliance, security, and workload diversity. Broader sector coverage spreads risk for operators and investors.

Regional Insights

Central Chile: Santiago Metropolitan Cluster As Core Demand and Investment Engine

Central Chile, anchored by the Santiago metropolitan region, holds the largest share of the Chile Data Center Cooling Market because it concentrates major hyperscale, colocation, and enterprise sites. Strong power infrastructure and fiber routes attract global and regional tenants. Cooling projects here often adopt advanced architectures to support dense, multi-tenant environments. Investors favor this corridor for its proven demand base and ecosystem depth. Central Chile sets design and performance benchmarks for other regions.

For instance, Ascenty confirms that its Santiago data center campus operates with chilled-water cooling systems and N+1 redundancy across critical infrastructure. The company also states that all its facilities, including those in Chile, run on 100% renewable energy under its certified procurement program. These details are documented in Ascenty’s official campus brochures and sustainability disclosures.

Northern Chile: Emerging Hubs Aligned With Renewable Energy and Industrial Digitalization

Northern Chile emerges as a growing subregion in the Chile Data Center Cooling Market due to access to large renewable energy resources and industrial activity, especially in mining. Data centers near these zones support analytics, automation, and remote operations. Cooler high-altitude locations sometimes ease thermal loads and support efficient designs. Projects often highlight green power and sustainable cooling as key differentiators. This combination draws interest from both industrial and cloud-linked investors.

For instance, Google’s Quilicura data center in Chile reported a consistent PUE of 1.09 in 2024 across its campus and is powered by significant solar energy supplied through its Acciona Solar agreement. These metrics and renewable sourcing are fully documented in Google’s 2025 Environmental Report and official Chile region updates.

Southern and Secondary Regions: Gradual Expansion Around Edge, Enterprise, and Sector-Specific Needs

Southern Chile and secondary urban areas represent smaller but rising shares of the Chile Data Center Cooling Market because local enterprises seek improved latency and regulatory control. Edge nodes near population centers support content delivery and critical services. Climate conditions in some southern locations support efficient air-side strategies. Infrastructure gaps still limit rapid expansion in certain zones. Targeted investments focus on scalable, modular cooling that can grow with regional demand.

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Competitive Insights:

Vertiv Group Corp.
Schneider Electric
Johnson Controls International plc
Carrier
Mitsubishi Electric Corporation
Stulz GmbH
Rittal GmbH & Co. KG
Modine Manufacturing Company
Munters
CoolIT Systems

The Chile Data Center Cooling Market features a mix of global OEMs and specialized thermal solution providers that compete on efficiency, reliability, and lifecycle value. Large vendors such as Vertiv, Schneider Electric, and Johnson Controls focus on integrated cooling ecosystems that combine hardware, controls, and services. Their portfolios cover precision air systems, chillers, and modular plants tailored to hyperscale and colocation growth. Mid-sized specialists like Stulz, Rittal, Modine, Munters, and CoolIT target high-density, edge, and liquid cooling needs. It creates a landscape where innovation in free cooling, advanced controls, and liquid-based architectures determines competitive edge. Service capability, local partnerships, and ESG-linked performance also influence long-term customer preference.

Recent Developments:

In October 2025, Vertiv Group Corp. announced a strategic partnership with Grupo Datco spanning Argentina and Chile, focusing on bolstering data center cooling infrastructure in these markets.
In May 2025, Amazon Web Services (AWS) confirmed the start of a USD 4 billion multi-site buildout in Santiago, optimizing each facility specifically for AI-ready cooling infrastructure, reinforcing Chile’s leadership in the Latin American data center ecosystem and accelerating hyperscale growth.
In February 2025, Schneider Electric expanded its portfolio through acquiring a controlling interest in Motivair, further enhancing its global and Latin American liquid cooling solution offerings for high-performance and AI-powered data centers.
In February 2025, Carrier launched its QuantumLeap™ thermal suite and invested in ZutaCore’s direct-to-chip cooling technology, aiming to deliver highly efficient and scalable solutions for mission-critical and hyperscale data centers, reflecting growing demand across Latin America.

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. Chile 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 Chile WUE/PUE averages by Country

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

8. Chile Data Center Cooling Market – By Component

8.1. Solution

8.2. Services

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

10.1. Installation & Deployment

10.2. Support & Consulting

10.3. Maintenance Services

11. Chile Data Center Cooling Market – By Enterprise Size

11.1. Large Enterprises

11.2. Small & Medium Enterprises (SMEs)

12. Chile Data Center Cooling Market – By Floor Type

12.1. Raised Floors

12.2. Non-Raised Floors

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

14.1. Rack-Based Cooling

14.2. Row-Based Cooling

14.3. Room-Based Cooling

15. Chile 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. Chile 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. Schneider Electric

20.3. Johnson Controls International plc

20.4. Carrier

20.5. Mitsubishi Electric Corporation

20.6. Stulz GmbH

20.7. Rittal GmbH & Co. KG

20.8. CoolIT Systems

20.9. Modine Manufacturing Company

20.10. Munters

20.11. ODATA

20.12. Danfoss

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Frequently Asked Questions:

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

The Chile Data Center Cooling Market reached USD 72.83 million in 2025 and is projected to hit USD 254.88 million by 2035. Strong demand from hyperscale and colocation operators supports this growth trajectory across the country.

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

The Chile Data Center Cooling Market is expected to expand at a 13.31% CAGR during 2025–2035. The expansion aligns with rising high-density workloads and new infrastructure investments across core data center hubs.

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

The Solution segment held the largest share of the Chile Data Center Cooling Market in 2025, supported by strong demand for precision air systems, chillers, and integrated cooling platforms across hyperscale and colocation builds.

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

The Chile Data Center Cooling Market grows due to rising hyperscale expansion, high-density compute adoption, strong migration to colocation, and increased focus on efficient and sustainable cooling designs that support long-term operational stability.

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

The Chile Data Center Cooling Market is led by Vertiv, Schneider Electric, Johnson Controls, Carrier, Mitsubishi Electric, Stulz, Rittal, Modine, Munters, and CoolIT Systems, each offering advanced cooling solutions tailored to diverse workloads.

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

Central Chile, particularly the Santiago metropolitan region, held the largest share of the Chile Data Center Cooling Market in 2025 because it hosts the majority of hyperscale, enterprise, and colocation facilities requiring advanced cooling infrastructure.

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