Datacenter Liquid Cooling Market
By Datacenter Type (Hyperscale Centers, Enterprise, Colocation Data Centers, Others),
By Solution (Indirect Cooling [In-Row Based, In-Rack Based], Direct Cooling [Single-Phase {Direct-Chip Single-Phase Cooling System, Single-Phase Immersion Cooling System}, Two-Phase {Direct-Chip two-phase Cooling System, Two-Phase Immersion Cooling System}]),
By End Use (IT and Telecom, Banking, Financial Services, and Insurance (BFSI), Government or Public Sector, Healthcare, Manufacturing, Retail, Others),
By Region (North America, Europe, Asia-Pacific, Latin America, Middle East & Africa):
Datacenter Liquid Cooling Market - Global Analysis and Forecast 2022-2032.
The global data center liquid cooling market showcased a revenue of USD 2.3 billion as of 2021 and is projected to witness a compounded annual growth rate (CAGR) of more than 27.22% over the forecast period of 2022-2032.
Russia-Ukraine War Impact
Market Scope
About the Market
Impact of COVID-19
Global Economic Slowdown
Market Dynamics
Driver
Restrain
Opportunity
Recent Developments
Synopsis
How is this report helpful
FAQ's
Report Coverage
Related Reports
A data center is a structure or property that houses storage servers, networking equipment, and other useful connectivity hardware. These buildings are hired to replicate what an on-premise computer system can do, lowering consumers' operational costs. The demand for data centers has increased in tandem with the growing demand for data processing and the increased use of smart devices and internet applications. This directly impacts the operation intensity and standard operating procedures these massive data center buildings use. The PUE, or power usage effectiveness, is a measure of efficiency in any data center and is one of the core operational factors of efficiency for these data centers. Storage servers and cooling consume the majority of the power in data center operations out of all the components mentioned above. Data centers are designed to run continuously, causing the components to heat up. Overheating can cause outages, preventing a data center from operating continuously. Aside from that, the servers are designed in such a way that they operate at an optimal temperature, and any change in that temperature can cause malfunction. As a result, cooling has become an essential component of data center operations. The market is also expected to benefit from digitization and Industry 4.0 initiatives. As digital technologies and digital assets have data-intensive applications, the industry's reliance on networks and data transmission and storage will grow. Such applications have increased rack power density, necessitating better cooling solutions to maintain efficiency.
With ongoing policy changes and a greater emphasis on energy efficiency, data centers must seek technologies that can assist them in achieving a PUE of less than 1.2, which is considered the gold standard (this is an ideal case scenario, as the average PUE globally is close to 1.7 and in some parts of the world it is every greater than 2). The reliance on cooling or chilling systems is an important consideration because these systems are required for data center cooling. Servers and other data center devices generate a lot of heat, which can cause serious problems and failures if not controlled. Despite this, the demand for data centers continues to rise. To meet the increasing requirement for data centers while maintaining lower PUE and power consumption, many data centers have begun to use an immersion or liquid cooling techniques, which provide efficient cooling and perform better than legacy systems, reducing the power consumed in cooling operations.
The market for data center liquid cooling has some immediate concerns that are limiting its growth. These difficulties are mostly due to technical and financial constraints, but they are expected to be eliminated as the market evolves. Government initiatives and policies are expected to significantly boost the market for data center liquid cooling. The Kigali agreement, for example, which dedicates mandates for reducing the consumption of HFCs as refrigerants and industrial gas, is critical in the adoption of liquid cooling technologies in data centers. This agreement alone has the potential to propel the market for efficient, low-carbon-emitting cooling systems for data centers.
Impact of Russia-Ukraine War on Datacenter Liquid Cooling Market
There was a major influence of the Russia-Ukraine war on the Datacenter Liquid Cooling market. Civil unrest, unfavorable business operating conditions, lack of infrastructure, and government support towards trade and transport are some of the primary impacting factors. Unstable economies across the European region and less production and export of crude oil from Russia to the rest of the world have generated a global shortage of basic materials. Apart from that, continuous battlefield operations and firepower from both nations have generated environmental pollution to a large extent. Approximately more than 30 million tons of carbon dioxide (CO2) was generated in 7 months of the war.
Datacenter Liquid Cooling: Market Scope
The data center liquid cooling market is divided into three segments: type, solution, and end-use. Furthermore, these segments are subdivided into respective categories and cross-referenced to North America, Europe, Asia-Pacific, Latin America, and Middle East & Africa for regional analysis. Hyper-scale centers, enterprise, colocation data centers, and others further classify the data center type segment. The solution segment includes indirect cooling and direct cooling. Indirect cooling is further divided into row-based and rack-based, whereas direct cooling is divided into single-phase and two-phase. A direct-chip single-phase cooling system and a single-phase immersion cooling system further segregates the single phase. Similarly, the two-phase segment is also divided by a direct-chip two-phase cooling system and a two-phase immersion cooling system. By end use, the market is divided into IT and telecom, banking, financial services, and insurance (BFSI), government or public sector, healthcare, manufacturing, retail, and others. The historical dataset of value (USD Billion) for 2017-2021 is provided in the report, whereas the forecast period of 2022-2032 is offered.
The hyperscale data center segment will witness the highest market share.
A hyperscale data center is a facility that cloud service providers own and operate. Amazon AWS, Microsoft, Google LLC, Facebook, and Apple are among the world's largest hyperscale operators. Alibaba, Oracle, and Adobe are some of the segment's emerging market players. These data centers offer individuals and businesses scalable cloud applications and storage services. Cloud and big data storage necessitate hyper-scale data centers. These data centers are large enough to accommodate multiple cloud consumers at the same time. A typical hyperscale facility may have 500 cabinets, including server and storage racks, and be at least 10,000 square feet in size. A hyperscale facility typically has at least 5,000 servers connected by an ultra-high-speed high fiber count network. Google and Microsoft, for example, have already committed to becoming carbon neutral or negative within the next decade. Alibaba is one of the largest data center operators to have successfully implemented liquid cooling technology into their data centers among the leading hyperscalers. Microsoft has recently begun a 2-phase immersion cooling pilot program. These trends and developments indicate that the adoption of liquid cooling technologies in hyperscale data centers will increase significantly during the forecast period.
Direct Liquid Cooling segment to witness highest market share between 2022-2032
The direct cooling segment will witness the highest growth rate within the forecast period.
Direct cooling methods involve the cooling fluid coming into direct contact with the components. No other material is placed between the cooling medium/fluid and the heating component to keep the loop closed for efficient electrical transmission. This enclosure prevents leakage and allows for continuous heat transfer inside the enclosure. Pure natural convection, mixed convection, laminar forced convection, and turbulent forced convection are some of the techniques used in the process, and they can all be used to direct cooling. During the forecast period, the direct liquid cooling segment will hold the largest market share. This is because direct cooling technologies are still in the early stages of development and are being tested. Many data center operators and service providers have launched pilot programs to quantify expected returns from the technology, which is expected to boost adoption. Another factor driving this expansion is the increased efficiency of direct cooling technologies. Direct cooling technologies, particularly immersion cooling, have the potential to cut cooling energy costs by up to 90%. This is expected to boost the market even more.
IT and Telecom segment will capture the highest market share within the end-user segment.
The IT and telecom industries are the largest contributors to overall data center demand, let alone the market for data center liquid cooling. Data transmission and data processing drive the industry, with the IT industry producing the most data from data-intensive applications. Because communication is a key factor in the growth of a modern economy, the IT and telecom industries are regarded as the backbone for all other industries. Similarly, the banking, financial services, and insurance (BFSI) industry play a significant role in the economy, and due to ongoing dematerialization efforts, the BFSI industry is expected to drive further demand for data centers. Both of these industries play an important role in driving demand for data centers, which in turn drives demand for data center liquid cooling technologies.
North America captured the highest share in the Datacenter Liquid Cooling market between 2022-2032.
North America will capture the highest market share over the coming years, backed by the presence of a majority of market players within the region and high bandwidth internet-based operations within the region. The majority of the businesses have numerous partnerships with various solution providers and data center operators. In April 2021, for example, Microsoft announced a collaboration with Wiwynn to test two-phase immersion cooling for its data centers. In April 2021, the company will also successfully install its first liquid cooling system for high-performance computing (HPC) at a data center in Washington, D.C. Iceotope, Avnet, and Schneider Electric announced a strategic partnership in November 2020 to jointly develop chassis-level immersion-cooled data center solutions. Iceotope has also collaborated with Lenovo to deploy its ThinkSystem SR670 servers in Lenovo's highly scalable, GPU-rich, liquid-cooled Micro Data Center solution.
Impact of COVID-19 on the Datacenter Liquid Cooling Industry
COVID-19 has a moderate impact on the Datacenter Liquid Cooling industry. This industry is independent of the global supply chain and does not demand complex international trade and transport infrastructure, making it immune to sudden lockdowns. However, the elongated absence of human resources to perform daily operations, lack of funds for research and development, and closure of universities and related research projects have impacted the business from a lateral angle. Several research projects which were expected to be commercialized by 2022 have been delayed, impacting the businesses within the segment.
Datacenter Liquid Cooling: Market Dynamics
The market dynamics section of the report covers a depth analysis of drivers and restraints opportunities impacting the data center liquid cooling market. The report also encompasses major market strategies practiced by the industry, followed by patent analysis, product analysis, competitive benchmarking of companies, PORTER and PESTLE analysis of the data center liquid cooling industry, pricing analysis, and geographic competitiveness to provide a detailed understanding. The major players operating the market are Aquila Group, Asetek, Inc., Aspen Systems Inc., Asperitas, Chilldyne, Inc., Cooler Master Co., Ltd., CoolIt Systems, DCX The Liquid Cooling Company, ExaScaler Inc., and Fujitsu. These companies cumulatively hold a majority of the Datacenter Liquid Cooling market share and actively undergo strategic development, such as new product launches, mergers, collaborations, business expansions, acquisitions, and long-term contracts to ensure market penetration. These companies also largely focus on research and development to gain technological competitiveness in the market. A detailed analysis of these companies is offered in the report.
Driver: Increasing Demand for more efficient data center liquid cooling system market
The Kigali Agreement, one of the key international climate change initiatives, calls for the phase-out of HFCs and HCFCs, the primary refrigerants and coolants used in industrial and commercial cooling systems. As a result of the decline in legacy cooling systems, organizations are turning to a more energy-efficient spectrum of cooling, which has increased the development of efficient and OPEX-friendly solutions such as liquid cooling. This includes not only environmentally friendly refrigerants and coolants like HFOs, water, and ammonia but also cooling systems like liquid and immersion cooling. HFOs, or hydrofluoric-olefins, developed by Honeywell and Chemours, are among the most environmentally friendly refrigerants, with GWP levels of one and ODP levels ranging from 1-4. Immersion cooling fluids have also been developed by 3M and Shell. These high-efficiency materials are expected to play a significant role in accelerating the transition away from inefficient and polluting systems. Immersion cooling is also one of the most efficient methods of cooling IT components in data centers. Thus, the development of alternative efficient cooling practices is propelling the growth of the liquid cooling market, as these cooling techniques will become essential components of any data center.
Restraint: High cost of installation and Maintenance
Cooling a particular component consumes a notable amount of power in data centers. These operations can consume up to 43% of the total power consumed in the facility. As a result, cooling design and implementation become critical components of data center design and construction. New technologies are easier to implement in greenfield projects but more complex and difficult in existing data centers. The cost of liquid coolants or dielectric fluids is another factor that contributes to higher implementation costs. When compared to existing coolants used in traditional cooling systems, dielectric fluids and fluorocarbons such as HFOs are very expensive. Because there are fewer product alternatives available and because very few companies are currently manufacturing immersion cooling fluids, the cost of these fluids remains high. This could increase data center OPEX in the future.
Existing infrastructure may even necessitate more capital expenditure to convert older data centers to liquid cooling due to existing cooling systems, such as the replacement of the entire system, including ventilation, piping, and refrigerant tank, with a completely new system, which would be complex and costly. Because of the differences in operation, immersion cooling may cause compatibility issues with the existing system. As a result, replacing the entire chiller or refrigeration unit is required. The market is facing a significant challenge.
Opportunity: Increasing demand for data centers
Data centers have evolved into an essential component of modern IT infrastructure. The demand for data centers has increased as a result of the massive growth in Internet-based applications and the increasing number of data processing devices or mobile devices. According to Seagate, a global leader in data storage products, global data creation could reach 160 zettabytes within the next decade. Because the majority of consumers prefer cloud storage to physical storage, this exponential growth has a direct impact on the demand for data centers. Moore's Law also supports this; Gordon Moore predicted in 1965 that the number of transistors per silicon chip or IC would double every year and that the density of transistors per IC would continue to rise. The upcoming data center facilities represent a potential opportunity for the liquid cooling market in data centers. According to an industry expert, liquid cooling is very effective with green field projects, and many companies are currently focusing on increasing data center workloads.
Internet services have grown at an exponential rate in recent years. The number of mobile phone users is forecasted to increase from 3.9 billion in 2019 to 5 billion in 2025. Due to the global pandemic, almost the entire world was quarantined at home in 2020. According to the IEA, the number of Internet users will have increased by 40% by the middle of 2020. One of the most important factors contributing to this was the rise of over-the-top (OTT) platforms. Netflix, a global leader in the OTT industry, saw a 20% increase in subscriptions, and video stream traffic on mobile internet is increasing by 55% per year, according to Cisco. This indicates an increase in overall Internet traffic, which will eventually have a significant impact on the entire data center market.
Datacenter Liquid Cooling Market: Recent Developments
- In October 2022, the municipal corporation of Ludhiana, India, allocated a budget of more than USD 3 million to dispose of over 5 Lakh Metric tons of waste in the first phase of Datacenter Liquid Cooling.
- In July 2022, Texas A&M AgriLife researchers developed a novel Datacenter Liquid Cooling technology for cleaning up per- and poly-fluoroalkyl substances, or PFAS, chemical pollutants that endanger human health and ecosystem sustainability. The material has commercial potential for disposing of PFAS, also known as "forever chemicals."
Datacenter Liquid Cooling Market: Synopsis
The study of the Datacenter Liquid Cooling market offers revenue and growth data sets in terms of value (USD Billion) for segments that are provided at the global level, regional level, and country level. The historical data set of 2017-2021 is offered in the report, along with the forecast period of 2022-2032. For the purpose of analysis, Quadrant Market Insights (QMI) has segregated the Datacenter Liquid Cooling market into four major segments as follows:
By Datacenter Type
- Hyperscale Centers
- Enterprise
- Colocation Data Centers
- Others
By Solution
- Indirect Cooling
- In-Row Based
- In-Rack Based - Direct Cooling
- Single-Phase
>Direct-Chip Single-Phase Cooling System
>Single-Phase Immersion Cooling System
- Two-Phase
>Direct-Chip two-phase Cooling System
>Two-Phase Immersion Cooling System
By End Use
- IT and Telecom
- Banking, Financial Services, and Insurance (BFSI)
- Government or Public Sector
- Healthcare
- Manufacturing
- Retail
- Others
The regional analysis of Datacenter Liquid Cooling Market is as follows:
North America
- U.S.
- Canada
- Mexico
Europe
- UK
- Germany
- France
- Russia
- Italy
- Spain
- Rest of Europe
Asia-Pacific
- China
- India
- Japan
- Australia
- Rest of Asia-Pacific
Latin America
- Brazil
- Mexico
- Argentina
- Chille
Middle East & Africa
- South Africa
- UAE
- Saudi Arabia
- Israel
Key players operating in Datacenter Liquid Cooling industry are:
- Aquila Group
- Asetek, Inc.
- Aspen Systems Inc.
- Asperitas
- Chilldyne, Inc.
- Cooler Master Co., Ltd.
- CoolIt Systems
- DCX Liquid Cooling Company
- ExaScaler Inc.
- Fujitsu
Datacenter Liquid Cooling Market: Who Should Purchase, and How It Will Help Readers
- The report best suits top-level decision-makers, individuals who should take a leadership role or require market research to start a business, independent researchers, research institutes, and anyone who wishes to gain detailed strategic insights about the datacenter liquid cooling market.
- The report best suits top-level decision-makers, individuals who should take a leadership role or require market research to start a business, independent researchers, research institutes, and anyone who wishes to gain detailed strategic insights about the datacenter liquid cooling market.
- This report provides a qualitative and quantitative analysis of the data center liquid cooling market segments, current trends, estimations, and dynamics from 2017 to 2032 to identify the current market opportunities.
- Market research and data on key drivers, restraints, and opportunities are provided.
- Porter's five forces and the PESTLE analysis highlight the ability of buyers and suppliers to enable stakeholders to make market-profitable business decisions and strengthen their supplier-buyer network.
- A thorough examination of data center liquid cooling market segmentation aids in identifying current business opportunities.
- The major countries in each region are considered based on their revenue contribution to the global market.
- Market player positioning makes benchmarking easier and provides a clear picture of the player's current position.
- The report examines regional and global datacenter liquid cooling industry trends, key players, market segments, application areas, and market growth strategies.
- The report offers insights from primary interviews and significant industry players' CXOs. It also provides a comprehensive contact and event repository to ensure future collaborations among industry stakeholders.
Datacenter Liquid Cooling Market: Frequently Asked Questions (FAQ)
Q: How big is the Datacenter Liquid Cooling market?
A: The global Datacenter Liquid Cooling market showcased a revenue of USD 42.65 billion as of 2021 and is projected to witness a compounded annual growth rate (CAGR) of more than 13.65% over the forecast period of 2022-2032.
Q: Does the report have a number of Datacenter Liquid Cooling markets bifurcated by segments and regions?
A: Yes, the report offers a total number of Datacenter Liquid Cooling industries, which are further bifurcated into segments and regions. Please refer to the TOC page for more information.
Q: What are the major trends in Datacenter Liquid Cooling market?
A: The adoption of new manufacturing technologies followed by commercial acceptance of circular economy within the plastic industry is among the major trend shaping the future business dynamics within the Datacenter Liquid Cooling market.
Q: How can I get the sample report of the Datacenter Liquid Cooling market?
A: The sample for the data center liquid cooling market report can be obtained on the requirement from the website. Also, 24*7 chat support and direct call services are provided to procure the sample report
Q: Is it possible to purchase a specific or customize the report as per my needs
A: Yes, it is possible to purchase a specific part of the report or edit the scope of the report at your convenience. Feel free to drop us the mail/talk to our customer support or schedule a conversation to procure customized reports.
Report Coverage
- Datacentre Type
- Solution
- End Use
- North America
- Europe
- Asia-Pacific
- Latin America
- Middle East & Africa
- Increasing demand for more efficient datacentre liquid cooling system market
- Increasing demand for datacenters
- High cost of installation and maintenance
- Aquila Group
- Asetek, Inc.
- Aspen Systems Inc.
- Asperitas
- Chilldyne, Inc.
- Cooler Master Co., Ltd.
- CoolIt Systems
- DCX The Liquid Cooling Company
- ExaScaler Inc.
- Fujitsu
1. Introduction
1.1 Report Description
1.1.1 Definition
1.1.2 Abbreviations
1.2 Key Market Segments
1.3 Benefits to Stake holders
1.4 Research Methodology
1.4.1 Market Scoping
1.4.1.1 Problem Identification
1.4.1.2 Defining the Market
1.4.2 Market Estimation
1.4.2.1 Data Mining
1.4.2.2 Product Analysis
1.4.2.3 Application Analysis
1.4.2.4 Market Engineering and Forecasting
1.4.2.4.1 Bottom-up Demand Side
1.4.2.4.2 Bottom-up Supply side
1.4.3 Market Authentication
1.4.3.1 Data Triangulation
1.4.3.1.1 Top-down Supply Side
1.4.3.1.2 Top-down Demand Side
1.4.3.1.3 Data Triangulation
1.4.3.2 Primary Insights and Industry feedback
1.4.4 Report Writing
2. Executive Summary
2.1 Market Snapshot
2.2 Primary Insights
3. Market Overview
3.1 Market Segment and Scope
3.2 Top Investement Pockets
3.3 Key Startegic Initiatives
3.4 Datacenter Liquid Cooling Industry Ecosystem
3.5 Market Evolution
3.6 Patent Analysis
3.7 Technology Landscape
3.8 Regulatory Infrastructure
3.9 Porter’s Analysis
3.9.1 Bargaining Power of Buyer
3.9.2 Bargaining Power of Supplier
3.9.3 Threat of New Entrants
3.9.4 Threat of Substitutes
3.9.5 Industry Rivalry
3.10 PESTLE Analysis
3.11 Market Dynamics
3.11.1 Drivers
3.11.2 Restrains
3.11.3 Opportunities
3.12 Impact of COVID-19 on Datacenter Liquid Cooling Market
3.13 Russia-Ukraine War Impact on Datacenter Liquid Cooling Market
3.14 Growth Share Matrix
3.15 Datacenter Liquid Cooling Market Quadrant
4. Datacenter Liquid Cooling Market, By Datacenter Type
4.1 Major Impacting Factors, By Datacenter Type
4.1.1 Key Market Trends and Growth Factors
4.1.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
4.1.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
4.2 Hyperscale Centers
4.2.1 Key Market Trends and Growth Factors
4.2.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
4.2.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
4.3 Enterprise
4.3.1 Key Market Trends and Growth Factors
4.3.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
4.3.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
4.4 Enterprise
4.4.1 Key Market Trends and Growth Factors
4.4.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
4.4.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
4.5 Colocation Data Centers
4.5.1 Key Market Trends and Growth Factors
4.5.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
4.5.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
4.6 Others
4.6.1 Key Market Trends and Growth Factors
4.6.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
4.6.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
5. Datacenter Liquid Cooling Market, By Solution
5.1 Major Impacting Factors, By Solution
5.1.1 Key Market Trends and Growth Factors
5.1.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
5.1.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
5.2 Indirect Cooling
5.2.1 Key Market Trends and Growth Factors
5.2.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
5.2.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
5.2.4 In-Row Based
5.2.5 In-Rack Based
5.3 Direct Cooling
5.3.1 Key Market Trends and Growth Factors
5.3.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
5.3.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
5.3.4 Single-Phase
5.3.4.1 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
5.3.4.2 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
5.3.4.3 Direct-Chip Single-Phase Cooling System
5.3.4.3.1 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
5.3.4.3.2 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
5.3.4.4 Single-Phase Immersion Cooling System
5.3.4.4.1 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
5.3.4.4.2 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
5.3.5 Two-Phase
5.3.5.1 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
5.3.5.2 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
5.3.5.3 Direct-Chip Single-Phase Cooling System
5.3.5.3.1 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
5.3.5.3.2 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
5.3.5.4 Single-Phase Immersion Cooling System
5.3.5.4.1 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
5.3.5.4.2 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
6. Datacenter Liquid Cooling Market, By End Use
6.1 Major Impacting Factors, By End Use
6.1.1 Key Market Trends and Growth Factors
6.1.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
6.1.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
6.2 IT and Telecom
6.2.1 Key Market Trends and Growth Factors
6.2.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
6.2.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
6.3 Banking, Financial Services, and Insurance (BFSI)
6.3.1 Key Market Trends and Growth Factors
6.3.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
6.3.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
6.4 Government or Public Sector
6.4.1 Key Market Trends and Growth Factors
6.4.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
6.4.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
6.5 Healthcare
6.5.1 Key Market Trends and Growth Factors
6.5.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
6.5.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
6.6 Manufacturing
6.6.1 Key Market Trends and Growth Factors
6.6.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
6.6.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
6.7 Retail
6.7.1 Key Market Trends and Growth Factors
6.7.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
6.7.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
6.8 Others
6.8.1 Key Market Trends and Growth Factors
6.8.2 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
6.8.3 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
7. Datacenter Liquid Cooling Market, By Region
7.1 Global Market Trends and Growth Factors
7.2 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.3 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.3.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.3.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.4 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.5 Market Size and Forecast, by Region, 2017-2032, (USD Billion)
7.6 North America
7.6.1 Key Market Trends and Growth Factors
7.6.2 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.6.3 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.6.3.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.6.3.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.6.4 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.6.5 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
7.6.6 U.S.
7.6.6.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.6.6.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.6.6.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.6.6.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.6.6.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.6.7 Canada
7.6.7.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.6.7.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.6.7.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.6.7.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.6.7.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.6.8 Mexico
7.6.8.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.6.8.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.6.8.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.6.8.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.6.8.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.7 Europe
7.7.1 Key Market Trends and Growth Factors
7.7.2 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.7.3 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.7.3.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.7.3.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.7.4 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.7.5 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
7.7.6 UK
7.7.6.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.7.6.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.7.6.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.7.6.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.7.6.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.7.7 Germany
7.7.7.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.7.7.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.7.7.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.7.7.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.7.7.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.7.8 France
7.7.8.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.7.8.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.7.8.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.7.8.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.7.8.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.7.9 Russia
7.7.9.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.7.9.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.7.9.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.7.9.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.7.9.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.7.10 Italy
7.7.10.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.7.10.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.7.10.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.7.10.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.7.10.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.7.11 Rest of Europe
7.7.11.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.7.11.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.7.11.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.7.11.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.7.11.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.8 Asia-Pacific
7.8.1 Key Market Trends and Growth Factors
7.8.2 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.8.3 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.8.3.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.8.3.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.8.4 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.8.5 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
7.8.6 China
7.8.6.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.8.6.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.8.6.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.8.6.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.8.6.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.8.7 India
7.8.7.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.8.7.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.8.7.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.8.7.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.8.7.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.8.8 Japan
7.8.8.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.8.8.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.8.8.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.8.8.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.8.8.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.8.9 Australia
7.8.9.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.8.9.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.8.9.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.8.9.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.8.9.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.8.10 Rest of Asia-Pacific
7.8.10.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.8.10.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.8.10.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.8.10.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.8.10.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.9 Latin America
7.9.1 Key Market Trends and Growth Factors
7.9.2 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.9.3 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.9.3.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.9.3.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.9.4 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.9.5 Market Size and Forecast, by Country, 2017-2032, (USD Billion)
7.9.6 Brazil
7.9.6.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.9.6.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.9.6.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.9.6.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.9.6.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.9.7 Argentina
7.9.7.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.9.7.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.9.7.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.9.7.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.9.7.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.9.8 Mexico
7.9.8.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.9.8.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.9.8.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.9.8.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.9.8.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.9.9 Chile
7.9.9.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.9.9.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.9.9.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.9.9.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.9.9.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.10 Middle East and Africa
7.10.1 Key Market Trends and Growth Factors
7.10.2 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.10.3 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.10.3.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.10.3.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.10.4 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.10.5 South Africa
7.10.5.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.10.5.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.10.5.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.10.5.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.10.5.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.10.6 UAE
7.10.6.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.10.6.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.10.6.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.10.6.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.10.6.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.10.7 Saudi Arabia
7.10.7.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.10.7.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.10.7.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.10.7.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.10.7.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
7.10.8 Israel
7.10.8.1 Market Size and Forecast, by Datacenter Type, 2017-2032, (USD Billion)
7.10.8.2 Market Size and Forecast, by Solution, 2017-2032, (USD Billion)
7.10.8.2.1 Market Size and Forecast, by Indirect Cooling, 2017-2032, (USD Billion)
7.10.8.2.2 Market Size and Forecast, by Direct Cooling, 2017-2032, (USD Billion)
7.10.8.3 Market Size and Forecast, by End Use, 2017-2032, (USD Billion)
8. Markets-Competitive Benchmarking & Company Profiles
8.1 Competitive Benchmarking
8.1.1 Company Market Share
8.1.2 Product Mapping
8.1.3 Competitive Heat map
8.2 Aquila Group
8.2.1 Company Overview
8.2.2 Financial Analysis
8.2.3 Product Offering
8.2.4 Strategic Initiatives
8.2.5 SWOT
8.2.6 Ansoff Matrix
8.3 Asetek, Inc.
8.3.1 Company Overview
8.3.2 Financial Analysis
8.3.3 Product Offering
8.3.4 Strategic Initiatives
8.3.5 SWOT
8.3.6 Ansoff Matrix
8.4 Aspen Systems Inc.
8.4.1 Company Overview
8.4.2 Financial Analysis
8.4.3 Product Offering
8.4.4 Strategic Initiatives
8.4.5 SWOT
8.4.6 Ansoff Matrix
8.5 Asperitas
8.5.1 Company Overview
8.5.2 Financial Analysis
8.5.3 Product Offering
8.5.4 Strategic Initiatives
8.5.5 SWOT
8.5.6 Ansoff Matrix
8.6 Chilldyne, Inc.
8.6.1 Company Overview
8.6.2 Financial Analysis
8.6.3 Product Offering
8.6.4 Strategic Initiatives
8.6.5 SWOT
8.6.6 Ansoff Matrix
8.7 Cooler Master Co., Ltd.
8.7.1 Company Overview
8.7.2 Financial Analysis
8.7.3 Product Offering
8.7.4 Strategic Initiatives
8.7.5 SWOT
8.7.6 Ansoff Matrix
8.8 CoolIt Systems
8.8.1 Company Overview
8.8.2 Financial Analysis
8.8.3 Product Offering
8.8.4 Strategic Initiatives
8.8.5 SWOT
8.8.6 Ansoff Matrix
8.9 DCX The Liquid Cooling Company
8.9.1 Company Overview
8.9.2 Financial Analysis
8.9.3 Product Offering
8.9.4 Strategic Initiatives
8.9.5 SWOT
8.9.6 Ansoff Matrix
8.10 ExaScaler Inc.
8.10.1 Company Overview
8.10.2 Financial Analysis
8.10.3 Product Offering
8.10.4 Strategic Initiatives
8.10.5 SWOT
8.10.6 Ansoff Matrix
8.11 Fujitsu
8.11.1 Company Overview
8.11.2 Financial Analysis
8.11.3 Product Offering
8.11.4 Strategic Initiatives
8.11.5 SWOT
8.11.6 Ansoff Matrix
9. Industry Connects and Upcoming Seminars