Data Center Liquid Cooling Manifolds Market

In-rack manifolds will dominate the data center liquid-cooling manifolds market due to the fact that all liquid-cooled racks in a DTC configuration will require individual manifolds, meaning the total demand for this type of manifold is directly correlated to the number of GPU racks deployed. Row-based manifolds are emerging as a growing part of the market, as data center owners will increasingly use liquid cooling systems across multiple racks to increase efficiency and simplify installation processes. While facility-level manifolds are responsible for handling the largest flow rates per single unit, they will constitute far fewer individual installations per single data center due to the size limitations of data center floors and will, therefore, not contribute as much to total market size.

The direct-to-chip cooling technology holds the largest market share since it is applicable in greenfield and brownfield data centers and matches reference architectures offered by major GPU platform vendors for AI workloads training and inference. On the other hand, immersion cooling is projected to record the highest CAGR over the forecast period as owners of optimized AI facilities seek better thermal efficiency to be applied to rack densities beyond the capacity of direct-to-chip cooling solutions. Manifolds demand related to hybrid cooling systems increases gradually when enterprises and colocation operators deploy liquid-cooling systems alongside already existing air-cooled racks.

Stainless steel manifolds have held a substantial market share due to its designation as standard material by all major OEM suppliers of direct-to-chip cooling systems in addition to the same being used as a default choice by hyperscale operators in their procurement programs. Polymer-based manifolds are projected to record the fastest CAGR as sustainability policies, contamination concerns, and weight savings mandate the use of engineered polymers in rack manifolds for both rack-level and facility-level installations.

The aisle-mounted design is the most widely adopted design, given its role as the secondary fluid infrastructure in AI data center facilities. Underfloor manifold designs are projected to show the fastest CAGR in the future, considering that many existing raised-floor data centers will have to be retrofitted for liquid cooling purposes, which can be done without major overhead work. As the number of data center construction practices becomes more oriented toward modularization and pre-fabrication of manifolds for fast installation, the choice of design becomes easier to make.

Hyperscale data centers dominate the manifold market as they make up the most significant portion of the capital investment programs that result in high per-site manifold volumes required by multi-gigawatt campus development projects. The rapid expansion of the colocation market is expected to make this data center segment grow faster than others as many providers from North America, Europe, and Asia Pacific region engage in competition to provide liquid-cooled facilities to meet the rapidly increasing demand for AI-powered servers from fast-growing segment of colocation tenants. The adoption of liquid-cooling among enterprise facilities will also grow since more internal AI computing capabilities appear there, together with increased understanding of liquid cooling installations.

New installation is expected to account for the largest share of the data center liquid-cooling manifolds market during the forecast period, primarily driven by the construction of new hyperscale, AI, and high-performance computing (HPC) data centers designed with liquid-cooling infrastructure from the outset. The new installation for AI segment is projected to register the highest CAGR, supported by substantial investments in AI-ready facilities equipped with high-density GPU clusters and server racks exceeding 100 kW. These next-generation facilities require extensive deployment of liquid-cooling manifolds to ensure efficient coolant distribution and thermal management. As data center operators increasingly build purpose-designed AI infrastructure to support generative AI, machine learning, and advanced computing workloads, demand for manifold systems in new installations is expected to accelerate significantly.