全球资料中心泵浦和阀门市场（2024-2031 年）

人工智慧的普及和液冷技术的采用正在推动资料中心对泵浦和阀门的需求。

本研究旨在了解资料中心泵浦和阀门供应商的市场机会，并预测至2030年。泵浦和阀门在维持资料中心运作的效率和整体永续性发挥着至关重要的作用。作为大型系统的一部分，它们被广泛用于冷却和水资源管理。随着资料中心规模和处理能力的不断扩展，产生的大量热量必须有效散发，以防止设备故障。帮浦是这个过程的核心，它们透过复杂的管道、热交换器和冷却塔网路循环冷冻水、乙二醇和其他冷媒。

阀门在冷却迴路中扮演着至关重要的角色，它们是精密控制元件。阀门可调节流体流量、压力和温度，确保每个子系统在适当的时间内获得适量的冷却剂。我们也看到电动控制阀和压力无关控制阀的应用，它们能够实现动态和自动调节。总之，泵浦和阀门有助于资料中心在保持最佳环境条件的同时，最大限度地降低能耗和用水量，而这正是永续资料中心设计的关键挑战。

这项研究对于希望了解资料中心生态系统以及特定泵浦阀类型的泵浦阀製造商来说非常有用。在现代化设施中，将智慧泵阀技术整合到数位化基础设施管理中至关重要。透过利用感测器、变频驱动装置和基于物联网的监控系统，负责人可以优化冷却性能，同时即时追踪流量、压力和温度。

报告摘要：资料中心泵浦和阀门服务市场

全球资料中心泵浦和阀门市场规模预计在2024年约为24.4亿美元，到2031年将达到约78亿美元，2024年至2031年的复合年增长率为17.9%。市场成长的主要驱动因素是液冷技术的快速普及、机架功率密度的提高以及对超大规模和人工智慧驱动的资料中心基础设施投资的增加。

关键市场趋势与洞察

• 预计到 2024 年，北美将占据全球资料中心泵浦和阀门市场最大的收入份额，这主要得益于大规模超大规模部署和液冷基础设施的早期采用。
• 从空气冷却架构（包括直接冷却和浸没式冷却）到液体冷却架构的转变，显着增加了对高效能泵浦和精密流量控制阀的需求。
• 由于泵浦在设施级和机架级冷却剂循环中发挥着至关重要的作用，因此在 2024 年，泵浦占据了市场收入的主导份额。
• 随着资料中心部署更多隔离阀、旁通阀、平衡阀和安全阀来管理分散式冷却迴路，阀门的应用正在加速发展。
• 预计亚太地区在预测期内将实现最快的成长速度，这主要得益于中国、印度、东南亚和新兴数位经济体资料中心的快速扩张。

市场规模及预测

• 2024年市场规模：24.4亿美元
• 2031年市场规模预测：78亿美元
• 2024-2031年复合年增长率：17.9%
• 2024年最大市场：北美
• 成长最快的地区：亚太地区

人工智慧、高效能运算和云端运算工作负载的日益普及正在从根本上改变资料中心的温度控管需求。随着机架功率密度超过传统风冷的极限，操作员正迅速转向液冷系统，而液冷系统高度依赖先进的泵浦和阀门来确保可靠且高效的流体循环。此外，日益增长的永续性需求，例如提高能源效率、节约用水和热能再利用，正在加速对现代冷却基础设施的投资。这些因素共同作用，使得泵浦和阀门成为下一代资料中心的关键组件，并支撑着全球市场的长期强劲成长。

市场概览及趋势：泵浦和阀门服务市场

泵阀服务市场正从传统的被动维护模式转型为数位化、全生命週期导向的服务生态系统。在更广泛的泵阀市场中，随着资产所有者寻求提高运转率、降低能耗并遵守相关法规，服务正成为核心收入来源。这种转变在设备老化的产业中尤其明显，这些产业正推迟设备更换週期，转而采用先进的维护服务。

最显着的趋势之一是预测性维护和状态监测维护的快速普及。配备感测器的泵浦和阀门与工业IoT平台集成，使操作人员能够即时监测振动、流量、压力和温度。这有助于及早发现故障，减少非计划性停机时间，并优化维护计划。因此，服务合约越来越多地纳入了数位化监测和分析功能。

另一个结构性趋势是基于绩效的服务合约的兴起。终端用户正逐渐抛弃按工时和材料计费模式，转而采用与效率提升、运转率和可用性保障挂钩的合约。这正在重塑泵阀服务市场的竞争格局，使拥有强大工程能力和数位基础设施的供应商更具优势。

永续性也在影响服务需求。监管机构要求降低能源和水资源消耗的压力，正在推动泵阀市场进行维修、修復和优化服务。这些趋势共同作用，使服务成为业务永续营运和ESG合规性的策略槓桿。

分析范围：泵浦和阀门服务市场

本分析考察了全球对工业泵浦和阀门售后市场及全生命週期服务的需求。研究週期为2024年至2031年，以2024年为基准年，预测期至该期末。收入预测以美元计，并按服务供应商层级计算。

服务范围包括预防性和纠正性维护、维修和大修、状态监测、预测分析、性能优化、改造和维修服务，并考虑现场和远端服务模式，反映了数位平台在泵浦和阀门市场中日益增长的作用。

该报告涵盖北美、欧洲、亚太地区、拉丁美洲以及中东和非洲，并评估了主要终端用户产业的需求推动要素，包括能源电力、用水和污水、化学品、石油和天然气、製造业和关键基础设施。

此方法论整合了二手研究、产业标竿分析和定性洞察，以评估市场结构、成长动态和竞争格局。为维持对泵浦阀服务市场整体策略层面的关注，刻意省略了细分市场层面的收入明细。

市场細項分析：泵浦和阀门服务市场

泵浦阀服务市场可以从多个结构观点来理解，这些角度反映了服务的提供、消费和获利方式。就服务类型而言，维护和维修服务是基础，其驱动力在于确保关键流程的运作运作。然而，预测性维护、数位化诊断和系统优化等先进服务因其降低生命週期成本的潜力而日益重要。

根据服务模式，市场可分为现场服务和远端或数位化服务。现场响应对于机械维修和大修至关重要，而远端监控和分析正日益用于辅助现场作业并提高服务效率。这种混合模式正逐渐成为大型工业设施的标准配备。

从最终用户的观点，连续流程行业由于对停机时间和安全风险的敏感性，构​​成了最大的需求基础；而公共产业和基础设施运营商由于监管合规要求和较长的资产使用寿命，也是重要的需求来源。

在每个区域内，服务渗透率因已安装设备的成熟度、劳动力可用性和数位化准备程度而异。总而言之，这些细分维度表明，泵阀服务市场正在从被动支持向更积极主动、以价值为导向的服务模式转型，而这种转型也体现在更广泛的泵阀市场中。

收入预测：资料中心泵浦和阀门市场

由于向液冷架构的加速转变、机架功率密度的增加以及对冗余和分散式温度控管系统的需求，预计资料中心泵浦和阀门市场在预测期内将出现显着的收入成长。

预计到2024年，市场总收入将达到约24.4亿美元，其中泵类产品收入为19.7亿美元，阀门类产品收入为4.733亿美元。随着超大规模资料中心、託管资料中心和人工智慧驱动型资料中心越来越多地采用晶片级直接冷却和浸没式冷却解决方案，对高性能泵浦和先进阀门系统的需求预计将稳步增长。

到 2031 年，市场总收入预计将达到约 78 亿美元，其中泵浦的收入约为 63.3 亿美元，阀门的收入约为 14.7 亿美元，2024 年至 2031 年的复合年增长率 (CAGR) 为 17.9%。

在预测期的中后期，随着液冷技术从试点部署转向大规模应用，收入成长将最为显着。泵浦将受益于设施和机架层面的广泛应用，而阀门则将因隔离、旁通、平衡和安全应用的需求增加而受益，从而支援分散式冷却迴路和模组化CDU设计。总体而言，收入前景凸显了流体管理系统在建置下一代资料中心冷却基础设施中发挥的关键作用。

成长要素：泵浦和阀门服务市场

推动泵阀服务市场成长的结构性因素有很多。首先，老旧工业基础设施的快速扩张增加了对维护、维修和性能最佳化服务的需求。由于设备更换被推迟，泵阀市场的服务需求激增。

其次，数位化正在变革服务交付方式。感测器、分析和远端监控的整合实现了预测性维护，从而减少停机时间并提高资产利用率。这种能力正成为服务供应商之间的关键差异化优势。

第三，监管和永续性的压力正在推动对能源效率升级和合规相关服务的需求。能源优化、排放预防和减排工作需要持续的服务干预，而不是一次性的设备升级。

第四，劳动力短缺和技能不足正促使终端用户将专业服务活动外包给原始设备製造商 (OEM) 和认证合作伙伴。最后，向基本契约转变，使业务收益与客户绩效目标挂钩，从而增强了泵阀服务市场的长期需求成长。

成长限制因素：泵浦和阀门服务市场

儘管泵阀服务市场成长势头强劲，但仍面临诸多限制因素。先进数位化服务解决方案的前期成本较高，可能会降低注重成本的营运商的采用意愿。此外，传统设备与现代监控系统之间的整合难题也会限制预测性维护措施的有效性。

劳动力供应也是一个重要的限制因素：熟悉机械系统和数位工具的熟练技术人员短缺，尤其是在新兴市场，这可能会限制泵浦和阀门市场服务的扩充性。

对资料安全和所有权的担忧也可能阻碍远端监控服务的普及，尤其是在受监管的行业。最后，服务生态系统的分散性和各地区标准的不一致，使得合约执行和绩效评估变得复杂，从而限制了泵阀服务市场的成长动能。

竞争格局：资料中心泵浦和阀门市场

资料中心泵阀市场的竞争格局正由少数几家全球工业技术领先企业主导，这些企业将机械技术专长与数位控制、永续性和系统级整合能力相结合。随着资料中心向高密度液冷架构转型，竞争优势越来越取决于支援分散式冷却迴路、提供精确流量管理和实现智慧监控的能力，而非仅依赖单一元件的供应。

丹佛斯凭藉其在流量控制、泵浦优化和热交换解决方案方面的整合方法，确立了强大的市场地位。该公司的产品系列专注于压力无关控制阀、区域隔离系统和变速驱动技术，能够在机架负载波动的情况下实现精确的温度调节。丹佛斯的独特之处在于其对永续性目标的重视，尤其是在热回收和能源再利用方面，这与致力于降低PUE（电源使用效率）和WUE（用水效率）的超大规模营运商的需求高度契合。随着资料中心逐渐摆脱集中式空气冷却，丹佛斯将泵浦和阀门整合到CDU（冷水机组）架构和液-液介面中的策略重点进一步巩固了其市场地位。

格兰富的竞争优势在于其在节能泵浦系统和数位化水资源管理平台领域的领先地位。其优点在于模组化帮浦配置、增压系统和先进的监控解决方案，可同时支援传统冷水机组和新兴的机架式液冷系统。格兰富专注于远端监控、智慧控制和全生命週期效率，以满足日益增长的对更高运作透明度和更低能耗的需求。尤其对于维修计划，格兰富的数位化帮浦智慧技术无需对现有基础设施进行全面改造，即可即时提升效率。

赛莱默的独特之处在于，它将泵浦製造与系统整合、智慧监控和水资源管理能力结合。其解决方案支援冷冻水管道、常冷单元 (CDU) 系统和低温冷却架构，并专注于预测性维护和洩漏检测。赛莱默以永续性发展为核心的定位，与资料中心营运商对水资源再利用、负责任的流体处理和长期资源效率的追求不谋而合。其与原始设备製造商 (OEM) 和系统整合商建立的伙伴关係关係，巩固了公司在复杂、与公用事业紧密相关且以环境、社会和治理 (ESG)主导的资料中心计划中的地位。

在竞争格局中，供应商正迅速从以组件为中心的竞争转向生态系统参与。成功的关键在于儘早与超大规模资料中心业者营运商、CDU 製造商、EPC 公司以及伺服器 OEM 厂商合作，因为这些机构对冷却规范有着重要影响。能够共同开发相容液冷技术的泵浦和阀门解决方案、整合数位智慧并满足永续性要求的公司，将更有利于在资料中心冷却架构不断发展的过程中，获得首选供应商地位和长期服务机会。

目录

成长机会分析

策略要务

• 为什么经济成长变得越来越困难？
• 策略要务
• 三大策略要务对泵阀产业的影响

成长机会分析

• 成长指标
• 成长驱动因素
• 成长限制因素
• 市场状况
• 泵浦和阀门在资料中心的主要应用
• 适用于不同资料中心应用的泵浦类型
• 适用于各种资料中心应用的阀门类型
• 资料中心营运商面临的挑战（重点关注泵浦和阀门）
• 资料中心泵浦和阀门市场
• 冷却技术的变革及其对泵浦和阀门的影响
• 液冷技术发展及设备需求
• 价值炼和泵浦/阀整合点
• 生态系参与与决策影响
• 永续性目标驱动资料中心泵浦和阀门的需求
• 竞争对手概况：丹佛斯
• 竞争对手概况：格兰富
• 竞争对手简介：赛莱默公司

发展机会

• 成长机会 1：晶片级直接冷却整合伙伴关係
• 成长机会 2：永续性维修计划
• 成长机会 3：人工智慧驱动的智慧流量控制解决方案

下一步

AI Expansion and Liquid Cooling Adoption are Accelerating the Demand for Pumps and Valves in Data Centers

This study provides an understanding of the market opportunities for pumps and valve suppliers in data centers with forecasts until 2030. Pumps and valves play a vital role in maintaining the efficiency and overall sustainability of data center operations. As part of a larger system, these are extensively used for cooling and water management purposes. As data centers continue to grow in size and processing power, they generate immense heat that must be effectively dissipated to prevent equipment failure. Pumps are at the heart of this process, driving the circulation of chilled water, glycol, or other coolants through complex networks of pipes, heat exchangers, and cooling towers.

Valves also have a crucial role to play, where they serve as the precision control elements within these cooling circuits. They regulate fluid flow, pressure, and temperature, ensuring that each subsystem receives the right amount of coolant at the right time. It is also seen that motorized and pressure-independent control valves are being used to enable dynamic and automated adjustments. In summary, pumps and valves help data centers maintain optimal environmental conditions while minimizing energy consumption and water usage, both of which are major concerns for sustainable data center design.

This study will be of interest to pumps and valve companies looking to understand the ecosystem and what specific pump and valve types are used in data centers. In modern facilities, the integration of intelligent pump and valve technologies has become essential for digital infrastructure management. Through the use of sensors, variable speed drives, and IoT-based monitoring systems, operators can also track flow rates, pressures, and temperatures in real time. while optimizing cooling performance.

Report Summary: Pumps and Valves Services Market

The global pumps and valves market in data centers was valued at approximately USD 2.44 billion in 2024 and is projected to reach nearly USD 7.80 billion by 2031, expanding at a CAGR of 17.9% from 2024 to 2031. Market growth is primarily driven by the rapid adoption of liquid cooling technologies, increasing rack power densities, and rising investments in hyperscale and AI-driven data center infrastructure.

Key Market Trends & Insights

• North America accounted for the largest revenue share of the global pumps and valves market in data centers in 2024, supported by extensive hyperscale deployments and early adoption of liquid-ready infrastructure.
• The shift from air-based cooling to liquid cooling architectures, including direct-to-chip and immersion cooling, is significantly increasing demand for high-efficiency pumps and precision flow-control valves.
• Pumps represented the dominant share of market revenue in 2024 due to their critical role in facility-level and rack-level coolant circulation.
• Valves are witnessing accelerating adoption as data centers deploy more isolation, bypass, balancing, and safety valves to manage decentralized cooling loops.
• Asia Pacific is expected to register the fastest growth rate over the forecast period, driven by rapid data center expansion in China, India, Southeast Asia, and emerging digital economies.

Market Size & Forecast

• 2024 Market Size: USD 2.44 Billion
• 2031 Projected Market Size: USD 7.80 Billion
• CAGR (2024-2031): 17.9%
• Largest Market in 2024: North America
• Fastest-Growing Region: Asia Pacific

The increasing deployment of AI, high-performance computing, and cloud workloads is fundamentally reshaping data center thermal management requirements. As rack power densities exceed the limits of traditional air cooling, operators are rapidly transitioning toward liquid-based cooling systems that rely heavily on advanced pumps and valves for reliable and efficient fluid circulation. In addition, growing sustainability mandates focused on energy efficiency, water conservation, and heat reuse are accelerating investments in modern cooling infrastructure. These factors collectively position pumps and valves as mission-critical components in next-generation data centers, supporting strong long-term growth across global markets.

Market Overview & Trends: Pumps and Valves Services Market

The pumps and valves services market is evolving from traditional reactive maintenance toward digitally enabled, lifecycle-oriented service ecosystems. Within the broader Pumps and Valves Market, services are becoming a core revenue pillar as asset owners seek higher uptime, lower energy consumption, and regulatory compliance. The shift is particularly visible in industries with aging installed equipment bases, where replacement cycles are deferred in favor of advanced service interventions.

One of the most prominent trends is the rapid adoption of predictive and condition-based maintenance. Sensor-enabled pumps and valves, integrated with industrial IoT platforms, allow operators to monitor vibration, flow, pressure, and temperature in real time. This enables early fault detection, reduced unplanned downtime, and optimized service scheduling. As a result, service contracts are increasingly bundled with digital monitoring and analytics.

Another structural trend is the rise of performance- and outcome-based service agreements. End users are moving away from time-and-material models toward contracts linked to efficiency gains, energy savings, or availability guarantees. This is reshaping competitive dynamics in the pumps and valves services market, favoring providers with strong engineering capabilities and digital infrastructure.

Sustainability is also influencing service demand. Regulatory pressure to reduce energy and water consumption is driving retrofits, recalibration, and optimization services across the Pumps and Valves Market. Collectively, these trends are transforming services into a strategic lever for operational resilience and ESG compliance.

Scope of Analysis: Pumps and Valves Services Market

This analysis of the pumps and valves services market examines global demand for aftermarket and lifecycle services associated with industrial pumps and valves. The study period spans 2024 to 2031, with 2024 serving as the base year and forecasts extending through the end of the period. Revenue estimates are expressed in US dollars and calculated at the service-provider level.

The scope includes preventive and corrective maintenance, repair and overhaul, condition monitoring, predictive analytics, performance optimization, retrofitting, and refurbishment services. Both on-site and remote service models are considered, reflecting the increasing role of digital platforms within the Pumps and Valves Market.

Geographically, the analysis covers North America, Europe, Asia-Pacific, Latin America, and the Middle East & Africa. Demand drivers are assessed across major end-use industries such as energy and power, water and wastewater, chemicals, oil and gas, manufacturing, and mission-critical infrastructure.

Methodologically, the study integrates secondary research, industry benchmarking, and qualitative insights to assess market structure, growth dynamics, and competitive positioning. Segment-level revenue breakouts are intentionally excluded to maintain a high-level strategic focus on the pumps and valves services market as a whole.

Market Segmentation Analysis: Pumps and Valves Services Market

The pumps and valves services market can be understood through multiple structural lenses that reflect how services are delivered, consumed, and monetized across the Pumps and Valves Market ecosystem. From a service-type perspective, maintenance and repair services remain foundational, driven by the need to ensure operational continuity in critical processes. However, advanced services such as predictive maintenance, digital diagnostics, and system optimization are gaining prominence due to their ability to reduce lifecycle costs.

By delivery model, the market is divided between on-site services and remote or digitally enabled services. While on-site interventions remain essential for mechanical repairs and overhauls, remote monitoring and analytics are increasingly used to complement field activities and improve service efficiency. This hybrid model is becoming standard in large industrial installations.

From an end-user perspective, continuous-process industries represent the largest demand base, given their sensitivity to downtime and safety risks. Utilities and infrastructure operators also contribute significantly due to regulatory compliance requirements and long asset lifespans.

Across regions, service penetration varies based on installed base maturity, labor availability, and digital readiness. Collectively, these segmentation dimensions highlight how the pumps and valves services market is transitioning from reactive support to proactive, value-driven engagement within the broader Pumps and Valves Market.

Revenue Forecast: Pumps and Valves Market in Data Centers

The Pumps and Valves Market in Data Centers is projected to witness strong revenue expansion over the forecast period, driven by the accelerating shift toward liquid cooling architectures, rising rack power densities, and the need for redundant, distributed thermal management systems.

In 2024, the combined market revenue stood at approximately USD 2.44 billion, comprising USD 1.97 billion from pumps and USD 473.3 million from valves. As hyperscale, colocation, and AI-driven data centers increasingly adopt direct-to-chip and immersion cooling solutions, demand for high-performance pumps and advanced valve systems is expected to rise steadily.

By 2031, total market revenue is forecast to reach nearly USD 7.80 billion, with pumps accounting for about USD 6.33 billion and valves contributing roughly USD 1.47 billion. This growth reflects a compound annual growth rate (CAGR) of 17.9% between 2024 and 2031.

Revenue growth is strongest in the mid-to-late forecast period, as liquid cooling transitions from pilot deployments to large-scale adoption. Pumps benefit from increased deployment at both facility and rack levels, while valves see rising demand for isolation, bypass, balancing, and safety applications to support decentralized cooling loops and modular CDU designs. Overall, the revenue outlook underscores the structural role of fluid management systems in enabling next-generation data center cooling infrastructure.

Growth Drivers: Pumps and Valves Services Market

Several structural drivers are accelerating growth in the pumps and valves services market. First, the rapid expansion of aging industrial infrastructure is increasing demand for maintenance, refurbishment, and performance optimization services. As equipment replacement is deferred, service intensity rises across the Pumps and Valves Market.

Second, digitalization is transforming service delivery. The integration of sensors, analytics, and remote monitoring enables predictive maintenance, reducing downtime and enhancing asset utilization. This capability is becoming a key differentiator among service providers.

Third, regulatory and sustainability pressures are driving demand for efficiency upgrades and compliance-related services. Energy optimization, leak prevention, and emissions reduction initiatives require ongoing service intervention rather than one-time equipment upgrades.

Fourth, workforce constraints and skills shortages are pushing end users to outsource specialized service activities to OEMs and certified partners. Finally, the shift toward outcome-based contracts aligns service revenues with customer performance objectives, reinforcing long-term demand growth within the pumps and valves services market.

Growth Restraints: Pumps and Valves Services Market

Despite strong growth fundamentals, the pumps and valves services market faces several constraints. High upfront costs associated with advanced digital service solutions can slow adoption among cost-sensitive operators. Additionally, integration challenges between legacy equipment and modern monitoring systems may limit the effectiveness of predictive maintenance initiatives.

Labor availability remains another critical restraint. Skilled technicians with expertise in both mechanical systems and digital tools are in short supply, particularly in emerging markets. This can constrain service scalability within the Pumps and Valves Market.

Data security and ownership concerns may also hinder adoption of remote monitoring services, especially in regulated industries. Finally, fragmented service ecosystems and inconsistent standards across regions can complicate contract execution and performance measurement, moderating growth momentum in the pumps and valves services market.

Competitive Landscape: Pumps and Valves Market in Data Centers

The competitive landscape of the pumps and valves market in data centers is shaped by a small group of global industrial technology leaders that combine mechanical expertise with digital control, sustainability alignment, and system-level integration capabilities. As data centers transition toward high-density liquid cooling architectures, competitive advantage increasingly depends on the ability to support decentralized cooling loops, precision flow management, and intelligent monitoring rather than standalone component supply.

Danfoss has established a strong position through its integrated approach to flow control, pump optimization, and heat-transfer solutions. The company's portfolio emphasizes pressure-independent control valves, zone isolation systems, and variable-speed drive technologies that enable precise thermal regulation under fluctuating rack loads. Danfoss differentiates itself through its alignment with sustainability objectives, particularly heat recovery and energy reuse, which resonates strongly with hyperscale operators focused on reducing PUE and WUE metrics. Its strategic focus on embedding pumps and valves into CDU architectures and liquid-to-liquid interfaces positions it well as data centers migrate away from centralized air-based cooling.

Grundfos competes through leadership in energy-efficient pump systems and digital water management platforms. Its strength lies in modular pump configurations, booster systems, and advanced monitoring solutions that support both legacy chilled-water plants and emerging rack-level liquid cooling deployments. Grundfos' emphasis on remote monitoring, intelligent controls, and lifecycle efficiency enables it to address the growing demand for operational transparency and reduced energy consumption. The company is particularly well positioned in retrofit scenarios, where digital pump intelligence can deliver immediate efficiency gains without full infrastructure replacement.

Xylem differentiates itself by combining pump manufacturing with system integration, smart monitoring, and water stewardship capabilities. Its solutions support chilled-water distribution, CDU systems, and in-row cooling architectures, with a strong focus on predictive maintenance and leak detection. Xylem's sustainability-oriented positioning aligns with data center operators pursuing water reuse, responsible fluid handling, and long-term resource efficiency. The company's partnership-driven approach with OEMs and integrators strengthens its role in complex, utility-linked and ESG-driven data center projects.

Across the competitive landscape, vendors are increasingly shifting from component-centric competition toward ecosystem participation. Success is determined by early engagement with hyperscalers, CDU manufacturers, EPC firms, and server OEMs that influence cooling specifications. Companies that can co-develop liquid-cooling-ready pump and valve solutions, integrate digital intelligence, and align with sustainability mandates are best positioned to secure preferred-vendor status and long-term service opportunities as data center cooling architectures continue to evolve.

Table of Contents

Growth Opportunity Analysis

• Scope of Analysis

Strategic Imperatives

• Why is it Increasingly Difficult to Grow?
• The Strategic Imperative 8™
• The Impact of the Top 3 Strategic Imperatives on the Pumps and Valves Industry

Growth Opportunity Analysis

• Growth Metrics
• Growth Drivers
• Growth Restraints
• Market Landscape
• Major Application Areas for Pumps and Valves in Data Centers
• Pump Types for Various Applications in Data Centers
• Valve Types for Various Applications in Data Centers
• Pain Points-Data Center Operators (Pumps and Valves Focus)
• Pumps and Valves Market in Data Centers
• Cooling Technology Shift and Impact on Pumps and Valves
• Liquid Cooling Growth and Equipment Needs
• Value Chain and Pump/Valve Integration Points
• Ecosystem Engagement and Decision Influence
• Sustainability Goals Driving Pump and Valve Requirements in Data Centers
• Competitor Profile: Danfoss
• Competitor Profile: Grundfos
• Competitor Profile: Xylem

Growth Opportunity Universe

• Growth Opportunity 1: Direct-to-Chip Cooling Integration Partnerships
• Growth Opportunity 2: Sustainability-Driven Retrofit Programs
• Growth Opportunity 3: AI-Driven Smart Flow Control Solutions

Next Steps

• Benefits and Impacts of Growth Opportunities
• Next Steps
• List of Exhibits
• Legal Disclaimer