市场调查报告书
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1308735
到2030年数据中心液体冷却市场预测-按组件,冷却类型,数据中心规模,公司,最终用户和地区进行的全球分析Data Center Liquid Cooling Market Forecasts to 2030 - Global Analysis By Component, Type of Cooling, Data Center Size, Enterprise, End User and By Geography |
根据 Stratistics MRC 的数据,2023 年全球数据中心液冷市场规模将达到 26.6 亿美元,预测期内復合年增长率为 26.8%,预计到 2030 年将达到 140.3 亿美元。 浸入式技术是数据中心液体冷却方法的基石。
在巨大的水箱中,有巨大的服务器和其他各个领域所需的技术。 水箱中的非导电冷却剂可捕获并吸收机器产生的热量。 数据中心使用更多的电力并产生更多的热量,因此需要使用液冷技术进行冷却。
根据加拿大自然资源部的数据,数据中心消耗的能源大约一半来自计算机服务器,其中 40% 来自服务器冷却。 此外,加拿大城市的气候条件记录的年气温为 42.8度F。 这消除了数据中心对大型冷却系统的需求,从而降低了运营成本。
电信数据中心需要广泛的光纤网络,以确保快速高效地提供所有服务。 为云服务,内容交付和移动服务提供支持需要高连接性。 大量使用机架来提供这种密度,表面上增加了对数据中心冷却解决方案的需求。 大数据和人工智能的日益普及正在影响业务服务器。 普通微处理器无法充分处理来自数据中心 GPU 的数据。 数据中心 GPU 用于大规模应用程序,包含企业级性能和深度学习技术知识。
在计算环境中,标准化产品是全球用户兼容和首选的。 不兼容的专有系统对用户来说是一个很大的障碍,也是计算机世界中任何技术广泛采用的主要障碍。 因此,液体冷却解决方案缺乏标准化是该市场面临的主要挑战。 在许多地区,尤其是新兴国家,人们对浸入式冷却技术的认识仍然有限。 这种意识的缺乏可能会阻碍该技术的采用并减缓市场增长。
加密货币,人工智能 (AI) 和机器学习 (ML) 等尖端技术的更多使用预计将扩大工业可能性并推动数据中心液体冷却市场的扩张。Masu。 此外,由于产品的推出和市场进入者的其他尝试,市场还有一定的扩张潜力。 然而,最近金融市场的加密货币领域对浸入式液体冷却系统的需求很高。 低密度中心通过超频提高算力,对于加密货币挖掘非常有效。 这些优势将为数据中心液体冷却技术的扩展开闢潜力。
安装液冷系统比安装风冷系统需要更多的资金,而且液冷所需的零部件必须合理。 液体维护不当可能导致污染物,沉积物和生物疾病的传播。 因此,液体冷却系统安装还需要由青铜,白铜和钛等材料製成的特定设备,这会增加总体资本成本。 还必须安装各种仪表和控制装置,以防液体洩漏。 所有这些因素都增加了部署液体冷却技术的成本。
COVID-19 疫情对数据中心液冷行业影响较小。 强制性的社交距离限制暂时搁置了数据中心整合等业务活动,使得物理移动服务器,关闭建筑物和释放空间变得更加困难。 COVID-19 疫情带来的关键发展之一是公司能够为其世界各地的员工提供远程工作。 这导致全球对数据中心的需求激增。 如今,人与企业之间的大部分互动都是在线进行的。 互联网流量,协作软件和数据安全都因此显着增加。
间接冷却领域预计将出现利润丰厚的增长,因为最常见的液体冷却技术使用冷冻水迴路和内部冷板上的冷却剂将热量从服务器传输到外部。Masu。 也称为间接冷却,液体芯片冷却和冷板冷却。 当今的应用程序对数据中心的计算和核心数量提出了新的要求。 数据中心对端到端数据中心解决方案,多核计算,人工智能(AI),机器学习(ML)以及高性能,高频和高负载的情况有很大的需求。 最近的发展使数据中心运营商能够满足其组织内的不同需求。
由于数据中心浸入式冷却的多项优势,预计浸入式液体冷却领域在预测期内将出现最高的复合年增长率。 液体的导热率比空气更高,更适合优化效率。 液浸式冷却也称为液浸式冷却,通过将IT设备浸入高导热率的介电液体中来对其进行冷却。 为此,使用热交换器在热冷却剂和冷水迴路之间交换热量。 这种冷却技术据称比空气冷却的效率高出 1000 倍,已成为数据中心其他冷却方法的可行替代方案,推动了市场增长。
由于北美新技术的快速采用,预计北美在预测期内将占据最大的市场份额。 在该地区,联网设备的普及正在显着进展。 直接芯片冷却和液浸冷却在数据中心投资者中越来越受欢迎。 5G 网路的全球部署(美国是早期采用者之一)增加了边缘数据中心的重要性。 Edge Presence,Edge Micro 和 American Towers 只是开始投资这些数据中心的美国运营商中的几家。
预计亚太地区的复合年增长率在预测期内最高。 这是因为中国和印度等发展中国家正在推动该地区对冷却系统的需求。 此外,随着互联网使用意识的提高,冷却产品的销量预计将增加。 互联网产生大量数据,增加了数据存储的需求并扩大了液体冷却系统的市场。 推动数据中心液冷市场扩大的主要因素是对云存储和数据存储空间的需求不断增加。 各个领域的大数据也是该业务的强大驱动力,推动了该地区的市场增长。
2021 年 8 月,Submer 宣布与英特尔合作,制定浸入式液体冷却解决方案的采用并使其标准化。 通过此次合作,Submer 将为所有英特尔平台和服务器提供液浸式冷却解决方案。
2021年6月,Iceotope Technologies宣布推出液冷模块化数据中心。 该产品由 Avnet 集成,采用 Iceotope 的机箱级液浸冷却。
According to Stratistics MRC, the Global Data Center Liquid Cooling Market is accounted for $2.66 billion in 2023 and is expected to reach $14.03 billion by 2030 growing at a CAGR of 26.8% during the forecast period. Liquid submersion technology is the basis for the data centre liquid cooling approach. Inside a sizable tank are massive servers and other necessary pieces of technology from many fields. Non-conductive coolants in the tank trap heat produced by the machinery and absorb it. Data centres use more power and generate more heat, which needs to be cooled down using liquid cooling technologies.
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.
To guarantee that all services are supplied quickly and effectively, telecom data centres require extensive fibre networks. High connection is necessary to power cloud services, content delivery, and mobile services. Racks are heavily utilised to provide this density, which ostensibly increases demand for data centre cooling solutions. Growing big data and AI use has an impact on business servers. The regular microprocessors were unable to process the data from the data centre GPUs adequately. Data centre GPUs are used for large-scale applications and include enterprise-grade performance and knowledge about deep learning technologies.
In computing environments, standardized products are compatible and are preferred by users worldwide. Proprietary systems which are incompatible for users create a big barrier and this acts as a major obstacle in the broad adoption of any technology in the computational world. Hence, the lack of standardization in liquid cooling solutions acts as a major challenge for this market. The awareness of liquid immersion cooling technology is still limited in many regions, especially in emerging economies. This lack of awareness may hamper the adoption of this technology and slow down the growth of the market.
It is predicted that the increased usage of cutting-edge technologies, including cryptocurrencies, artificial intelligence (AI), and machine learning (ML), would provide a lot of industry possibilities and propel the expansion of the data centre liquid cooling market. Additionally, there are several potential for market expansion provided by product launches and other trials by market participants. However, Immersion liquid cooling systems have recently seen a rise in demand from the financial market's cryptocurrencies sector. Low-density centres are effective in mining cryptocurrencies by upping their hash rates through over clocking. These advantages should open up potential for the expansion of liquid cooling technologies in data centres.
Installing liquid cooling systems requires a larger financial outlay than installing air cooling systems, and the parts and accessories required for liquid cooling must be of a certain calibre. Liquid maintenance mistakes can cause pollutants, sedimentation, and the growth of biological diseases. As a result, specific equipment composed of materials like bronze, cupronickel, or titanium may also be necessary for the installation of liquid cooling systems, increasing overall capital cost. In the event of a liquid leak, it is also necessary to install various instrumentation equipment and controls. All of these elements raise the cost of implementing liquid cooling technologies.
The COVID-19 epidemic had a minor impact on the liquid cooling industry for data centres. Due to mandated social distance restrictions, business activities like data centre consolidation were temporarily put on hold, and physical server moves, building closures, and space openings were made more difficult. One significant development brought about by the COVID-19 epidemic is the ability for businesses to offer remote working to their employees throughout the world. This has led to a sharp increase in demand for data centres throughout the world. The majority of interactions between people and companies now take place online. The amount of internet traffic, collaboration software, and data security all increased significantly as a result.
The indirect cooling segment is estimated to have a lucrative growth, due to the most popular liquid cooling technique uses a chilled water loop and a coolant on a cold plate inside to transport heat from the server to the outside. It is also referred to as indirect, liquid-to-chip, or cold plate cooling. In the present day, applications are requiring new levels of computing and core count from data centres. Data centres have a significant need for end-to-end data centre solutions, multi-core computing, artificial intelligence (AI), and machine learning (ML), as well as high-performance, high-frequency, and heavy workload circumstances. Due to recent developments, data centre operators might satisfy a variety of demands within the organisation.
The immersion liquid cooling segment is anticipated to witness the highest CAGR growth during the forecast period, due to several advantages of liquid immersion cooling for data centres. Compared to air, liquids are more effective in conducting heat, outstanding efficiency optimisations. Immersion cooling, also known as liquid immersion cooling, involves cooling IT equipment by immersing it in thermally conductive, dielectric liquids. It uses a heat exchanger to provide a heat exchange between warm coolants and cold water circuits in order to do this. Since it has been claimed to be up to 1000 times more effective than air-cooling approaches, this cooling technology is a viable alternative to other cooling alternatives for data centres thus encouraging the market growth.
North America is projected to hold the largest market share during the forecast period owing to newer technologies that are quickly adopted in North America. The penetration of connected devices in the area significantly increased. Direct-to-chip and liquid immersion cooling methods are receiving more and more support from data centre investors. The importance of edge data centres has increased as a result of the global rollout of 5G networks, of which the United States is one of the early adopters. Edge Presence, Edge Micro, and American Towers are just a few of the American operators that have started making investments in these data centres.
Asia Pacific is projected to have the highest CAGR over the forecast period, owing to the need for cooling systems in the area is driven by developing nations like China and India. Additionally, it is anticipated that greater awareness of internet usage may boost sales of cooling goods. The Internet generates a lot of data, which increases the need for data storage and the market for liquid cooling systems. Additionally, the primary driver propelling the expansion of the data centre liquid cooling market is the rise in demand for cloud storage and data storage space. Big data in a variety of sectors is also a powerful motivator for this business which drives the market growth in this region.
Some of the key players profiled in the Data Center Liquid Cooling Market include Liquid Stack Inc., Alfa Laval AB, Asperitas Company, Chilldyne Inc, Asetek AS, Fujitsu Limited, CoolIT Systems Inc., Lenovo Group Limited, Kaori Heat Treatment Co. Ltd, Mikros Technologies, Wakefield-Vette Inc., Submer Technologies, Schneider Electric, Iceotope Technologies Ltd, Rittal GmbH & Co. KG, Midas Green Technologies, Vertiv Co. and USystems Ltd
In August 2021, Submer announced its collaboration with Intel to set and standardize the adoption of immersion liquid cooling solutions. In this collaboration, Submer will provide immersion cooling solutions for all platforms and servers of Intel.
In June 2021, Iceotope Technologies announced the launch of a liquid-cooled modular data center. This product is integrated by Avnet and contains chassis-level immersion cooling from Iceotope.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.