Fluid-Agnostic Thermal Management Architecture

MezzoFluidics’ nozzle-jet-impingement technology is engineered to be inherently fluid-agnostic, giving system designers unmatched flexibility as thermal and electrical requirements evolve. Unlike microchannel cold plates that are highly sensitive to fluid viscosity, particulate contamination, and narrow flow tolerances, MezzoFluidics employs discrete impingement jets and open exit pathways that maintain high performance across a broad range of coolant chemistries.

This architecture supports operation with industry-standard coolants including deionized water, propylene glycol mixtures such as PG25, and widely adopted dielectric fluids like 3M™ Novec™ and Fluorinert™. High local heat transfer is driven by direct jet impingement and continuous boundary-layer renewal at the heat-generating surface, allowing the system to sustain strong thermal coupling even as fluid properties such as viscosity, density, and thermal conductivity vary significantly. This enables customers to select fluids based on electrical isolation, freeze protection, environmental compliance, or serviceability without modifying the cooling hardware.

In addition, the MezzoFluidics platform is well suited for emerging binary and two-phase cooling approaches, including low-boiling-point dielectric fluids used in advanced immersion and phase-change systems. By decoupling thermal performance from fluid-specific constraints, MezzoFluidics allows customers to standardize on a single mechanical cooling architecture today while preserving a seamless upgrade path to future coolant technologies. This fluid-agnostic capability reduces development risk, shortens qualification cycles, lowers total cost of ownership, and future-proofs high-performance electronic systems.