HyperFlow High-Flow Data Center Coupler Introduced by OPW Engineered Systems

OPW Engineer Systems, a part of Dover, launched a HyperFlow high-flow data center disconnect coupler. This new fitting is developed to fulfil the rising demand for high-level performance and reliability of liquid-cooled data centers backed with cutting-edge technologies like AI and high-performance computing workloads. It is specially engineered for strong flow capacity with minimal pressure drops and helps safeguard crucial computing infrastructure from fluid leaks.

The hyperflow coupler features a symmetrical interlocking system with two similar halves that connect with the help of four secure locking tabs. It simplifies installation methods and maintains a durable and reliable connection during operation. The HyperFlow coupler helps expand OPW engineered systems portfolio of solutions that support next-generation and AI-powered data center infrastructure.

According to Precedence Research, the data center valves market size accounted for USD 1.10 billion in 2025 and is predicted to increase from USD 1.25 billion in 2026 to approximately USD 4.04 billion by 2035, expanding at a CAGR of 13.90% from 2026 to 2035 due to the intense demand for AI and HPC system, shift towards energy efficiency to meet ESG targets and precise thermal management to prevent server overheating and devices failure. 

The director of Sales and product management at OPW Fluid Transfer solution group, said, “As liquid cooling becomes essential for AI-scale infrastructure, data centers need components that can deliver greater throughput without increasing risk. The HyperFlow coupler is designed to meet that challenge, combining high-flow performance with advanced safety features to help maintain system integrity and uptime."

A recent report by Precedence Research highlights that the data center valves market is benefiting from rapid automation and intelligent monitoring in data centers, high-density computing needing liquid cooling with precise flow pressure, and the growth of hyperscale data centers.