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市场调查报告书
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资料中心液体冷却 -市场占有率分析、产业趋势与统计、成长预测(2024-2029)

Data Center Liquid Cooling - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2024 - 2029)
出版日期: | 出版商: Mordor Intelligence | 英文 120 Pages | 商品交期: 2-3个工作天内

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简介目录

资料中心液体冷却市场规模预计到2024年为47.7亿美元,预计到2029年将达到148.1亿美元,在预测期内(2024-2029年)增长25.44%。复合年增长率为

资料中心液体冷却 - 市场

技术的进步使得液体冷却变得易于维护、扩充性且经济实惠,在具有炎热、潮湿内置环境的资料中心中,液体使用量减少了15% 以上,在较好的地区,液体使用量减少了80 %。专用液体冷却的能量可以重新用于加热建筑物和水,先进工程冷却剂的应用可以有效减少空调的碳排放。

主要亮点

  • 液体冷却的其他优点包括比空气冷却更高的容量,在更大的体积中提供相同的冷却,透过直接应用高功率密度组件来降低整体容量要求,以及高效的例子包括热量去除。直接液体冷却中使用的介电液体可以有效吸收热量。因此,可以在更小的空间中插入更多的硬件,从而减少了容纳硬件的额外空间的需要。
  • 绿色资料中心是资料储存、管理和分发的地方。机械、照明、电气和电脑系统计画尽可能提高能源效率,将对环境的负面影响降至最低。采用创新技术和技术来建立和营运绿色资料中心。随着互联网的快速增长和使用,资料中心的电力消耗量显着增加。由于环境影响、公众意识不断增强、能源成本上升和政府措施,企业面临绿色政策的压力。这些因素导致了永续资料中心的发展,直接推动了资料中心液体冷却市场。
  • 同时,由于适应性要求,希望采用冷却系统的资料中心营运商面临更大的挑战。资料中心非常复杂,拥有大量伺服器,数量、时间和位置都不确定。如此高密度的冷却会产生许多额外成本。它必须具有适应性和扩充性,以满足资料中心的需求。企业担心他们目前的冷却系统是否能够应对未来伺服器负载的增加。这使得基础设施的改变更加频繁,公司也不太愿意投资新的冷却系统。
  • 此外,新冠肺炎 (COVID-19) 疫情的爆发也显着增加了对资料中心的需求。随着越来越多的员工在家工作,视讯通话和 VPN 的使用正在增加。联合医疗专业人员对远端医疗应用程式的使用正在增长。
  • Amwell 的数据显示,纽约的远端医疗就诊量增加了 312%。为了保持娱乐并与亲人保持联繫,消费者也经常转向串流媒体服务。随着 Verizon 等服务供应商增加了频宽容量,串流媒体服务变得更加容易获得。这些产业变化增加了对云端基础的解决方案的渴望,增加了对资料中心及相关领域的需求。

资料中心液体冷却市场趋势

间接冷却预计将占据较大市场占有率

  • 直接晶片冷却,也称为间接冷却或液对晶片冷却或冷板冷却,是最常见的液体冷却方法,它使用冷冻水迴路和冷却器中的冷却剂将热量从伺服器传递到外界。里面的盘子。资料中心正在进入现代时代具有前所未有的计算和核心数量需求的应用程式。如今,传统的空气冷却已达到其极限,迫使资料中心营运商和所有者重新考虑增加的密度以及随之而来的挑战。
  • 资料中心对高效能、高频率、密集工作负载条件、包括人工智慧 (AI) 和机器学习 (ML) 在内的多核心运算以及端到端资料中心解决方案的需求不断增加。资料中心所有者可以利用间接或直接片上液体冷却和系统整合商服务的最新进展来满足公司范围内的各种需求。
  • 间接或直接晶片冷却利用液体或相变传热机制。在最低的动作温度下提供宽范围的功率和散热。此外,与透过其他传统方式冷却的处理器相比,该处理器可以在运行条件下以明显更高的速度运行。
  • 许多公司提供可在新伺服器和现有伺服器上实施的冷板技术。直接晶片冷却技术通常比背板热交换器具有更高的散热能力。对晶片的直接冷却通常只能消除框架中机械产生的 70-75% 的热量,因此需要采用混合冷却方法。
  • 直接晶片冷却的趋势预计将在 2022 年持续,并在预测期内显着增加。 IT 产业正在研究与处理器直接接触的热源的新冷却技术。 ZutaCore 的直接片上电介质解决方案能够为日益强大的 CPU 和 GPU 提供高效且永续的冷却。这种高效能运算透过新的微处理器和 SoC(系统晶片)架构增强了效能。这种成长将实现更先进的处理,例如大规模资料分析和身临其境型虚拟实境体验。

预计北美将占据压倒性的市场占有率

  • 北美是新技术的较早采用者。该地区的连网设备普及显着提高。资料中心投资者越来越多地投资于直接晶片冷却和液浸冷却技术。随着全球5G网路的发展,边缘资料中心变得越来越重要,美国是5G网路的早期采用者之一。许多美国通讯业者已开始投资这些中心,包括 EdgePresence、EdgeMicro 和 American Towers。
  • 根据Cisco的资料,近年来行动资料流量大幅成长,从每月 1.26Exabyte增加到 2021 年每月 7.75Exabyte。爱立信表示,预计到 2030 年,资料流量将进一步增加两倍,分散式云端可切实确保如此实用化的快速连线所需的低延迟和高频宽。一些最大的科技公司正在应对关键挑战,同时管理其伺服器和运算需求。密度成长的主要驱动力是人工智慧资料处理的快速增加。
  • 在美国,人们和企业上网的时间急剧增加。该国是最大的资料中心营运市场,并且由于最终用户资料消费量的增加而仍在不断扩大。物联网 (IoT) 的日益普及使得更多设施能够支援商业用户和消费者产生的Exabyte资料。物联网是美国超大规模资料中心的关键驱动力,增加了对资料中心的需求。液体冷却市场。
  • 直接晶片液体冷却在北美越来越受欢迎。使用冷却水的设备还包括双管道现场水处理设备。该国东南部和西部地区的许多供应商正在改用具有节热器模式的水冷式冷却器,使他们能够利用外部空气来部分冷却其设施。
  • 此外,随着对高效资料中心的需求不断增加、对环保资料中心解决方案的承诺以及全部区域功率密度的显着增加,加拿大将继续发展并提供更多的资料中心基础设施解决方案。据加拿大自然资源部称,资料中心消耗的能源大约有一半用于计算伺服器,另外 40% 用于冷却这些伺服器。此外,根据记录,这座加拿大城市的年气温为 42.8°F。这消除了在资料中心安装大型冷却系统的需要,从而降低了营运成本。

资料中心液冷产业概况

资料中心液体冷却市场竞争激烈,由几个主要参与者组成,例如 Alfa Laval AB、Asetek AS、Liquid Cool Solutions 和 Vertiv Co。从市场占有率的角度来看,目前主导市场的重要参与者很少。这些大公司拥有庞大的市场占有率,并专注于扩大国际客户。这些公司利用策略合资企业来增加市场占有率和盈利。公司需要专门为其係统开发的流体。例如,最近进入市场的 Submer 开发了一种专门针对其技术量身定制的冷媒。新的竞争对手可能会加剧竞争,带来策略和技术投资,并扩大高效技术的市场。

  • 2022 年 5 月,英特尔启动了一项新计划,投资 7 亿美元建造专门从事液体和浸入式冷却的新研究设施,以解决资料中心的永续性。同时,英特尔宣布推出首款投入市场的浸没式冷却参考设计,以加速该技术在全球资料中心的使用。

其他福利

  • Excel 格式的市场预测 (ME) 表
  • 3 个月分析师支持

目录

第一章简介

  • 研究假设和市场定义
  • 调查范围

第二章调查方法

第三章执行摘要

第四章市场动态

  • 市场概况
  • 市场驱动因素
    • 区域IT基础设施建设
    • 绿色资料中心的出现
  • 市场限制因素
    • 成本、适应性要求和停机
  • 产业价值链分析
  • 产业吸引力波特五力分析
    • 新进入者的威胁
    • 买方议价能力
    • 供应商的议价能力
    • 替代产品的威胁
    • 竞争公司之间敌对的强度
  • 评估 COVID-19 对市场的影响

第五章市场区隔

  • 按解决方案
    • 直接冷却或浸没式冷却
    • 对晶片进行间接冷却或直接冷却
  • 地区
    • 北美洲
    • 欧洲
    • 亚太地区
    • 其他地区

第六章 竞争形势

  • 公司简介
    • Alfa Laval AB
    • Liquid Stack Inc.
    • Asetek AS
    • Asperitas Company
    • Chilldyne Inc
    • CoolIT Systems Inc.
    • Fujitsu Limited
    • Mikros Technologies
    • Kaori Heat Treatment Co. Ltd
    • Lenovo Group Limited
    • Liquid Cool Solutions
    • Midas Green Technologies
    • Iceotope Technologies Ltd
    • USystems Ltd
    • Rittal GmbH &Co. KG
    • Schneider Electric
    • Submer Technologies
    • Vertiv Co.
    • Wakefield-Vette Inc.
    • Wiwynn Corporation

第七章 投资分析

第八章市场机会及未来趋势

简介目录
Product Code: 55615

The Data Center Liquid Cooling Market size is estimated at USD 4.77 billion in 2024, and is expected to reach USD 14.81 billion by 2029, growing at a CAGR of 25.44% during the forecast period (2024-2029).

Data Center Liquid Cooling - Market

Technological advancements have made liquid cooling simple to maintain, easily scalable, and affordable and have reduced liquid usage by more than 15% for data centers in built-in hot and humid climates and 80% in more excellent areas. The energy dedicated to liquid cooling can be recycled to heat buildings or water, effectively shrinking the carbon footprint of air conditioning due to the application of advanced engineering coolants.

Key Highlights

  • Other benefits of liquid cooling include higher capacity than air cooling, providing the same cooling with a much larger volume, reduced overall capacity requirement due to applying high-power density components directly, and efficient heat rejection. The dielectric liquid used in the direct liquid cooling method effectively absorbs heat. Hence, more hardware can be inserted into a smaller space, lowering the need for additional space to accommodate the hardware.
  • A green data center is where data is stored, managed, and distributed. The mechanical, lighting, electrical, and computer systems are planned to be as energy-efficient as possible while minimizing their adverse environmental effects. Innovative techniques and technologies are used in building and running green data centers. With the exponential growth and usage of the Internet, power consumption in data centers has increased significantly. Companies are under more pressure to adopt a green policy due to the environmental impact, rise in public awareness, higher cost of energy, and governmental action. These factors have made the development of sustainable data centers directly drive the data center liquid cooling market.
  • On the other hand, Operators of data centers wishing to employ cooling systems face substantial challenges due to the requirements for adaptability. Data centers are complex, with a vast server array, and they carry the uncertainty of quantity, timing, and location. When cooling at such a high density, many extra expenses are incurred. To satisfy the demands of the data center, it must be adaptable and scalable. Companies are worried if their current cooling systems can support the increased server load in the future. This makes infrastructure changes frequent and pushes companies unwilling to invest much in newer cooling systems.
  • Furthermore, the COVID-19 epidemic has significantly increased the demand for data centers. As more employees work from home, video calls and VPN usage are rising. The use of telehealth applications by allied health practitioners is expanding.
  • In New York, telehealth visits have increased by 312%, as per Amwell. To keep entertained and in touch with loved ones, consumers are also heavily utilizing streaming services, which are becoming more readily available due to service providers like Verizon, who enhance their bandwidth capacity. Such industry changes have fueled the desire for cloud-based solutions, fueling demand for data centers and their related sectors.

Data Center Liquid Cooling Market Trends

Indirect Cooling is Anticipated to Account for a Significant Market Share

  • Direct-to-chip cooling, also known as indirect or liquid-to-chip cooling or cold plate cooling, is the most common liquid cooling method which transfers heat from the server to the outside using a chilled water loop and a coolant on a cold plate inside. Data centers are entering applications with unprecedented computation and core count demands in the modern era. These days, as traditional air cooling hits its limits, data center operators and owners must reconsider the growing density and the challenge offered.
  • High-performance, high-frequency, and intensive workload conditions, multi-core computing, including artificial intelligence (AI) and machine learning (ML), and end-to-end data center solutions are in high demand in data centers. Data center owners could meet various needs across the company due to the most recent advancements in indirect or direct-on-chip liquid cooling and system integrator services.
  • Indirect or direct-to-chip cooling utilizes liquid or phase-change heat-transfer mechanisms. It offers extensive power and heat dissipation at a minimum operating temperature. Furthermore, it allows it to work under operating conditions, and a processor can perform significantly faster than a processor cooled by other conventional means.
  • Many firms offer cold plate technology that can be implemented into new and existing servers. Direct-to-chip cooling technology often has a higher heat dissipation capability than backplane heat exchangers. A hybrid cooling approach is necessary because direct-to-chip cooling typically only removes 70-75 percent of the heat produced by the machinery in the frame.
  • The direct-to-chip-cooling trend is expected to continue in 2022 and increase significantly over the forecast period. The IT industry is researching new cooling technologies for heat sources directly contacting the processor. ZutaCore's direct-on-chip dielectric solutions enable efficient and sustainable cooling of increasingly powerful CPUs and GPUs. With this high-performance computing, power grows with new microprocessors and SoC (system on chip) architectures. This growth allows for more advanced processing, such as large-scale data analysis and immersive virtual reality experiences.

North America is Anticipated to Hold a Dominant Market Share

  • North America is an early adopter of newer technologies. The region saw a tremendous increase in the penetration of linked devices. Investors in data centers are increasingly funding direct-to-chip and liquid immersion cooling technologies. The worldwide development of 5G networks, of which the United States is one of the early adopters, has boosted the significance of edge data centers. Many American operators have begun investing in these centers, including EdgePresence, EdgeMicro, and American Towers.
  • The mobile data traffic has increased considerably over the years, from 1.26 exabytes per month of data traffic to 7.75 exabytes per month in 2021, as reported by Cisco Systems. According to Ericsson, the data traffic is expected to triple further by 2030. Thus, the distributed cloud that can secure the low latency and high bandwidth required to connect to such a scale quickly is expected to come into action. Several technology giants address critical challenges while managing their server and computational needs. A major factor responsible for the rising densities is the rapid rise in data-crunching for AI.
  • The time people and businesses spend online is dramatically increasing in the United States. The country is the largest market for data center operations, and it is still expanding due to the increased data consumption by end users. There are now more facilities that can support exabytes of data created by commercial users and consumers due to the growing popularity of the Internet of Things (IoT), which is a significant driver for the US hyper-scale data center and enhances the need for a liquid cooling market.
  • Direct-to-chip liquid cooling is growing in popularity in North America. On-site water treatment facilities with dual piping systems are included in the facilities that use water for cooling. Many vendors in the Southeastern and Western regions of the country are switching to water-cooled chillers, which have an economizer mode that enables partial facility cooling by using outside air.
  • Additionally, Canada is continuously growing and providing more data center infrastructure solutions due to increased demand for efficient data centers, initiatives for ecological data center solutions, and substantial growth of power density across the region. According to Natural Resources Canada, around half of the energy consumed in a data center is utilized by computing servers, with a further 40% being attributable to cooling these servers. Furthermore, the climatic conditions of the cities in Canada are recorded with an annual temperature of 42.8 °F. This eliminates the need for extensive cooling systems in the data centers and, in turn, helps to reduce operational costs.

Data Center Liquid Cooling Industry Overview

The data center liquid cooling market is highly competitive and consists of several significant players like Alfa Laval AB, Asetek AS, Liquid Cool Solutions, Vertiv Co, etc. In terms of market share, few important players currently dominate the market. These leading firms have significant market shares and are concentrating on growing their clientele internationally. These businesses use strategic joint ventures to raise their market shares and profitability. Companies want specially developed fluids for their systems. For instance, Submer, a recent market entrant, created a coolant, especially for its technology. New competitors intensify the competition, which may induce them to make strategic and technological investments, expanding the market for highly effective technologies.

  • In May 2022, Intel launched a new initiative to address data center sustainability with a $700 million investment into a new research facility specializing in liquid and immersion cooling. Along with this, Intel unveiled the first immersion cooling reference design in the market to promote the use of the technology in data centers worldwide.

Additional Benefits:

  • The market estimate (ME) sheet in Excel format
  • 3 months of analyst support

TABLE OF CONTENTS

1 INTRODUCTION

  • 1.1 Study Assumptions and Market Definition
  • 1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET DYNAMICS

  • 4.1 Market Overview
  • 4.2 Market Drivers
    • 4.2.1 Development of IT Infrastructure in the Region
    • 4.2.2 Emergence of Green Data Centers
  • 4.3 Market Restraints
    • 4.3.1 Costs, Adaptability Requirements, and Power Outages
  • 4.4 Industry Value Chain Analysis
  • 4.5 Industry Attractiveness Porters Five Forces Analysis
    • 4.5.1 Threat of New Entrants
    • 4.5.2 Bargaining Power of Buyers/Consumers
    • 4.5.3 Bargaining Power of Suppliers
    • 4.5.4 Threat of Substitute Products
    • 4.5.5 Intensity of Competitive Rivalry
  • 4.6 Assessment of COVID-19 Impact on the market

5 MARKET SEGMENTATION

  • 5.1 By Solution
    • 5.1.1 Direct Cooling or Immersion Cooling
    • 5.1.2 Indirect Cooling or Direct-to-chip Cooling
  • 5.2 Geography
    • 5.2.1 North America
    • 5.2.2 Europe
    • 5.2.3 Asia-Pacific
    • 5.2.4 Rest of the World

6 COMPETITIVE LANDSCAPE

  • 6.1 Company Profiles
    • 6.1.1 Alfa Laval AB
    • 6.1.2 Liquid Stack Inc.
    • 6.1.3 Asetek AS
    • 6.1.4 Asperitas Company
    • 6.1.5 Chilldyne Inc
    • 6.1.6 CoolIT Systems Inc.
    • 6.1.7 Fujitsu Limited
    • 6.1.8 Mikros Technologies
    • 6.1.9 Kaori Heat Treatment Co. Ltd
    • 6.1.10 Lenovo Group Limited
    • 6.1.11 Liquid Cool Solutions
    • 6.1.12 Midas Green Technologies
    • 6.1.13 Iceotope Technologies Ltd
    • 6.1.14 USystems Ltd
    • 6.1.15 Rittal GmbH & Co. KG
    • 6.1.16 Schneider Electric
    • 6.1.17 Submer Technologies
    • 6.1.18 Vertiv Co.
    • 6.1.19 Wakefield-Vette Inc.
    • 6.1.20 Wiwynn Corporation

7 INVESTMENT ANALYSIS

8 MARKET OPPORTUNITIES AND FUTURE TRENDS