Liquid Cooling Radiator Fan Cooling Solutions -- DC Fans | Herays
Application Solution

Liquid Cooling Radiator Fan

Pressure-focused airflow for radiators and dense fin stacks

Problem Space

Industry Challenges

Understanding the specific thermal and environmental demands of Liquid Cooling Radiator Fan environments is the foundation of every Herays solution.

Liquid cooling systems — used in high-performance computing, industrial power electronics, laser systems, EV battery thermal management, and medical imaging equipment — transfer heat from primary components to a remote radiator where DC fans dissipate the thermal load to ambient air. The radiator fan is the last thermal barrier between the liquid loop and the environment. Its performance directly determines whether the entire liquid cooling system achieves its temperature targets. Unlike free-air electronics cooling where airflow paths are relatively unobstructed, radiator fans must overcome the substantial static pressure imposed by dense copper or aluminum fin stacks while delivering the full airflow the thermal calculation assumed.

What makes radiator fan selection fundamentally different from standard electronics cooling:

  • High static pressure is the primary selection criterion — liquid cooling radiators with 12–25 fins per inch (FPI) impose 2–8 mmH₂O of restriction at design airflow. A fan with high open-frame CFM but a steep, rapidly declining pressure-flow curve may deliver far less than expected airflow through a dense radiator. The fan’s static pressure at the radiator’s operating resistance point — not its peak open-frame CFM — is the relevant specification.
  • Push-pull configurations for maximum performance — mounting fans on both sides of a radiator (push-pull) recovers 15–25% more airflow at the same resistance compared to a single fan. This requires matched fan pairs with identical pressure-flow curves; mismatched pairs interact destructively through the shared airspace.
  • PWM speed control across the full RPM range — liquid-cooled systems modulate fan speed with pump speed as a function of coolant temperature. Fans must start reliably from standby, ramp smoothly without stall from minimum speed, and maintain accurate speed through the full PWM duty cycle range (10–100%).
  • Low noise at minimum speed — liquid cooling systems are often chosen specifically for their acoustic advantages over direct air cooling. The fan, operating at minimum speed during idle conditions, must contribute less noise than the pump — typically below 25 dBA at 1 m.
  • 12V DC operation for PC and industrial liquid cooling — PC-based liquid cooling runs on 12V from ATX or ATXV3 power supplies. Industrial liquid cooling systems may use 24V. Fans must be specified for the actual system voltage.
  • Mechanical compatibility with radiator mounting — 120 mm and 140 mm fan sizes are standard for most radiator form factors. Screw hole pattern, gasket sealing against air bypass, and frame stiffness (to prevent resonance with the fan motor) all affect system performance and noise.

The Herays HR1225 and HR1238 series provide the combination of high static pressure and wide speed range needed for effective radiator fan operation in both PC and industrial liquid cooling systems.

  • HR1225 12V — 120×120×25 mm, 134 CFM, 13.9 mmH₂O, ball bearing. Standard selection for 120 mm radiator slots in PC liquid cooling and compact industrial liquid loop radiators. The 13.9 mmH₂O static pressure handles most 16–20 FPI radiator fin densities.
  • HR1238 12V (−SF) — 120×120×38 mm, 186 CFM. The 38 mm depth frame delivers significantly higher static pressure at the same RPM, making it the appropriate choice for dense 25 FPI radiators or thick (60 mm) dual-pass radiator configurations where the 25 mm fan cannot maintain adequate airflow at the design operating point.
  • HR1225 24V — same 134 CFM performance for industrial liquid cooling systems operating on 24V bus voltage.

How do I determine whether I need push or pull fan configuration on my radiator? For most 120 mm radiators up to 45 mm thick, a single fan in either push or pull orientation delivers adequate performance. For thicker radiators (60+ mm), dual-row fin stacks, or dense fin counts above 20 FPI, push-pull using matched fan pairs typically recovers 15–20% additional airflow for 3–5 dBA of additional acoustic output at maximum speed — a worthwhile trade in thermally-constrained builds.

What causes a fan to produce high-frequency tonal noise through a radiator? Tonal noise occurs when the fan’s blade passing frequency (RPM/60 × blade count) coincides with a resonant frequency of the radiator fin stack or mounting frame. This is a mechanical resonance, not an airflow issue. Mitigation: use silicone anti-vibration fan mounts, change the fan speed slightly (which shifts the blade passing frequency away from the resonance), or select a different blade count.

How does fan speed affect radiator thermal performance at low load? At low heat load and low ambient temperature, the liquid coolant temperature is naturally low. Reducing fan speed to minimum reduces noise significantly with minimal penalty to coolant temperature — the system is not thermally limited. The thermal benefit of high fan speed is only realized when coolant temperature is elevated, which occurs under high load or high ambient conditions. A temperature-driven PWM controller exploits this automatically.

Contact Herays for radiator fan selection support, push-pull configuration recommendations, and matched fan pair sourcing for industrial liquid cooling system builds.

Herays Approach

Our Solution

Precision-engineered DC fan technologies tailored to the performance and reliability requirements of Liquid Cooling Radiator Fan applications.

Why Herays

Key Features for Liquid Cooling Radiator Fan

Radiator pressure

Fan options for dense fins, AIO coolers, and performance cooling products.

PWM speed control

Flexible speed control for thermal and acoustic balance.

ARGB styling

Lighting, cable, frame, and private-label customization.

Application Engineering

Ready to find the right cooling solution for Liquid Cooling Radiator Fan?

Our application engineers are available to help you select the right product for your system requirements.