Thermaltake

Thermaltake CL-W191-CU00BL-A Pacific CL360 Liquid Cooling Radiator

4.5 (159 reviews)

Maximize Cooling Performance with the Thermaltake Pacific CL360 RadiatorThe Thermaltake Pacific CL360 radiator is designed to provide exceptional cooling performance for demanding liquid cooling systems. With its high-density copper fin design and robust construction, this radiator ensures effici...

$129.99*
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*Price sourced from Amazon.com. Last updated:Jul 14, 2026.Price and availability are subject to change.

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Overview

Maximize Cooling Performance with the Thermaltake Pacific CL360 Radiator

The Thermaltake Pacific CL360 radiator is designed to provide exceptional cooling performance for demanding liquid cooling systems. With its high-density copper fin design and robust construction, this radiator ensures efficient heat dissipation and reliable operation.

  • Brand: Thermaltake
  • Model: CL-W191-CU00BL-A
  • Dimensions: 405 (L) x 132 (W) x 64 (H) mm
  • Material: Copper
  • FPI (Fin per Inch): 14
  • Screw Thread: G¼”

Key Features

More Rows for More Cooling: Built to perform, this 64mm thick radiator offers a triple-row flat tube design and brass tank for best thermal capacity

High-Density Copper Fin Design: Designed to accommodate high air volume (Fin per Inch: 14)

Stainless Steel Frame: Engineered with stainless steel side panels that increase the durability and strength of the radiator while reducing the weight

Optimized Heat Transfer: Optimized for efficiently pulling heat away from cycling coolant thus achieving maximum heat dissipation at both low and high airflow operation

High-Quality Manufacturing Process: Baked through a controlled atmosphere soldering line. Materials melt into each other to accomplish optimal thermal transfer from the tubes to the actual fins

Specifications

Radiator Thickness
64mm
Tube Design
Triple-row flat tube
Tank Material
Brass
Fin Material
Copper
Fins Per Inch (FPI)
14
Frame Material
Stainless Steel
Manufacturing Process
Controlled atmosphere soldering line

Pros & Cons

👍 Pros

  • Features a 64mm thick radiator and triple-row flat tube design for enhanced cooling capacity.
  • Constructed with a brass tank to optimize thermal capacity, aiding in efficient heat transfer.
  • Incorporates a high-density copper fin design with 14 fins per inch, specifically for high air volume.
  • Utilizes a stainless steel frame that enhances durability and strength while simultaneously reducing overall weight.
  • Optimized for efficient heat transfer from cycling coolant, ensuring maximum heat dissipation across airflow levels.
  • Manufactured through a controlled atmosphere soldering line, achieving optimal thermal transfer from tubes to fins.

👎 Cons

  • The product description does not specify the fan sizes or number of fans supported by the CL360 radiator.
  • Details regarding the mounting hardware or required installation accessories are not provided.
  • The exact dimensions beyond the 64mm thickness are not specified, which could be important for case compatibility.
  • Information about specific coolant compatibility or recommended liquid cooling systems is not mentioned.
  • Noise levels at high airflow operations are not addressed, which could be a consideration for users.
  • The stainless steel frame increases durability, but potential aesthetic options or finishes are not detailed.

Frequently Asked Questions

This radiator features a 64mm thick triple-row flat tube design, which contributes to its high thermal capacity.
The radiator utilizes a brass tank for optimal thermal capacity and incorporates a stainless steel frame for increased durability and reduced weight.
It is designed with a high-density copper fin structure (14 FPI) and optimized to efficiently pull heat from cycling coolant, ensuring maximum heat dissipation across various airflow operations.
The radiator undergoes a controlled atmosphere soldering line, where materials melt together to achieve optimal thermal transfer from the tubes to the fins.
Yes, its design is optimized for efficiently pulling heat away, ensuring maximum heat dissipation whether operating at low or high airflow.