Brings Next-Gen Immersion Cooling to PCs
Immersion cooling is a cooling technology typically used for
servers, by immersing high-computing components in non-conductive liquid and directly
transferring the heat to the fluid. This technology provides exceptional cooling performance
and energy efficiency.
Thermaltake is dedicated to developing immersion cooling technology for PCs, allowing
consumers with the opportunity to experience the benefits of this advanced cooling solution.
It is especially suitable for personal workstations in small and medium-sized enterprises.
Peak Performance Beyond Limits
Unparalleled
Thermal Capability
Thermaltake immersion cooling system can reduce the CPU and GPU temperatures by
approximately 20°C more than a traditional liquid cooling unit, providing optimal cooling
performance to high-performance PC builds.
Exceptional
Cooling Designed for GPUs
For systems requiring numerous GPUs, the thermal efficiency of the GPUs installed in the
middle is usually poor in usual cases, but immersion cooling can solve this problem. The
coolant-filled chamber eliminates cooling limitations across different component positions.
Additionally, with superior cooling efficiency, the immersion system easily supports
professional graphics cards for creators.
Lower
Long-Term Operating Costs
Immersion cooling offers lower energy consumption for the same amount of heat dissipation.
Furthermore, the high boiling point of the coolant reduces the frequency of replenishment,
minimizing material consumption and resulting in lower long-term maintenance and operational
costs, making it a cost-effective solution for sustainable deployment.
Designed for Creators, AI Computing, and Big Data Analytics
Superior Cooling for Intensive Workloads
Immersion cooling ensures stable performance under demanding workloads like 3D rendering,
video editing, and AI training, preventing overheating and maximizing productivity.
Future-Ready for High-Density Computing
Optimized for multi-GPU setups and resource-heavy workflows, it meets the rising demands of
AI-driven tools and ultra-high-resolution content creation.
Enhanced Hardware Protection and Lifespan
Immersion cooling system seals components in non-conductive coolant, protecting them from
dust and contaminants, which helps extend the lifespan of critical hardware like CPUs and
GPUs.
Energy Efficiency with Long-Term Savings
Consumes less energy and requires minimal coolant replenishment, lowering operational costs.
This efficiency is especially advantageous for those running multiple GPUs or high-power
systems for extended periods.
Thermaltake Immersion Cooling System
The IX600 is designed for ATX chassis systems, delivering superior cooling efficiency, while the IX300 is tailored for ITX chassis, achieving a compact and space-saving design.
The image is for reference only.
- CPU x 1
- GPU x 2
- Power Supply x 1
- Air Cooler x 1
- Memory x 8
- Motherboard x 1
- Single-phase electronic coolant
- CPU x 1
- GPU x 1
- Power Supply x 1
- Air Cooler x 1
- Memory x 2
- Motherboard x 1
- Single-phase electronic coolant
- 420mm Radiator x 3
- 140mm Radiator Fan x 9
- 140mm Fan x 9
(Top x 3 / Bottom x 3 / Side x 3) - Pump x 3
- 360mm Radiator x 2
- 120mm Radiator Fan x 6
- 80mm Fan x 13
(Top x 3 / Left x 5 / Right x 5) - Pump x 2
- Coolant absorbs heat from components in the front chamber
- Hot coolant goes to radiators in the back chamber by tubes
- The pump push the coolants
- Heat exchange via radiators
- Cold coolant goes back to the front chamber by tubes
We've Done the Thermal Testing for You
Thermaltake compared critical
components’ temperatures between the AX700 case with a traditional air cooling system and
the IX600 case with an immersion cooling, using both Intel and AMD CPUs for testing.
| Test System | ||
 |
 |
|
| Chassis | AX700 (Air Cooling) | IX600 (Immersion Cooling) |
| Chassis Dimension | 310 x 645 x 670mm (W x H x D) | 450 x 630 x 470mm (W x H x D) |
| Motherboard | ASROCK W790 WS (CEB) | ASROCK W790 WS (CEB) |
| CPU | Intel® Xeon® w9-3495X | Intel® Xeon® w9-3495X |
| GPU |
msi GeForce RTX™ 4090 GAMING TRIO msi GeForce RTX™ 4090 GAMING X TRIO |
msi GeForce RTX™ 4090 GAMING TRIO msi GeForce RTX™ 4090 GAMING X TRIO |
| Memory | ADATA DDR5 4800 32GB*2 | ADATA DDR5 4800 32GB*2 |
| SSD | PNY CS2241 M.2 2280 1TB | PNY CS2241 M.2 2280 1TB |
| PSU | TOUGHPOWER iRGB PLUS 1650W Titanium | TOUGHPOWER iRGB PLUS 1650W Titanium |
| CPU Cooler | WAir | WAir |
| Fan | TOUGHFAN EX14 Pro x 7 (Top 3 / Front 3 / Rear 1) |
TOUGHFAN EX14 Pro x 9 (Each Radiator 3) TOUGHFAN EX14 Pro x 9 (Top 3 / Bottom 3 / Side 3) |
| Others | - | Pacific SR420 Radiator x 3 |
| Coolant | - | Chevron: SynFluid® PAO 2 cST |
| CPU Test Program | PTU | |
| GPU Test Program | AIDA64 | |
When installing the Intel CPU at a 350W TDP (Thermal Design Power), the immersion cooling system delivers superior CPU and average GPU temperature reduction compared to air cooling system. Even at 400W TDP, the immersion cooling system maintains impressive stability, keeping CPU and GPU temperatures comfortably within the range of 60+°C to 70+°C.
| Test System | ||
|
|
|
| Chassis | AX700 (Air Cooling) | IX600 (Immersion Cooling) |
| Chassis Dimension | 310 x 645 x 670mm (W x H x D) | 450 x 630 x 470mm (W x H x D) |
| Motherboard | ASUS Pro WS TRX50-SAGE WIFI | GIGABYTE TRX50 AERO D |
| CPU | AMD Ryzen Threadripper 7980X | AMD Ryzen Threadripper 7980X |
| GPU |
msi GeForce RTX™ 4090 GAMING TRIO msi GeForce RTX™ 4090 GAMING X TRIO |
msi GeForce RTX™ 4090 GAMING TRIO msi GeForce RTX™ 4090 GAMING X TRIO |
| Memory | ADATA DDR5 4800 32GB*2 | ADATA DDR5 4800 32GB*2 |
| SSD | Micron M.2 SSD 500G | Micron M.2 SSD 500G |
| PSU | TOUGHPOWER iRGB PLUS 1650W Titanium | TOUGHPOWER iRGB PLUS 1650W Titanium |
| CPU Cooler | WAir | WAir |
| Fan | TOUGHFAN EX14 Pro x 7 (Top 3 / Front 3 / Rear 1) |
TOUGHFAN EX14 Pro x 9 (Each Radiator 3) TOUGHFAN EX14 Pro x 9 (Top 3 / Bottom 3 / Side 3) |
| Others | - | Pacific SR420 Radiator x 3 |
| Coolant | - | Chevron: SynFluid® PAO 2 cST |
| CPU Test Program | PTU | |
| GPU Test Program | AIDA64 | |
When installing the AMD CPU, the immersion cooling chassis also achieves better temperature reduction for both the CPU and GPU compared to air cooling chassis at the same TDP (Thermal Design Power). Even at 400W TDP, the immersion cooling system ensures excellent stability, with CPU and GPU temperatures consistently staying within the 60+ °C to 70+ °C range.
Monitors Real-Time Data
The Thermaltake Pacific TF2 Temperature and Flow Indicators are installed in the back chamber, with the chassis' LCD screen displaying coolant temperature and flow speed, enabling immediate tracking of the immersion cooling system's performance.
High Quality Single-Phase Electronic Coolant
The Thermaltake Immersion Cooling System uses biodegradable oils as a single-phase coolant. Its high boiling point minimizes liquid consumption during circulation, ensuring efficient operation. The coolant is highly compatible with components, causing no corrosion to copper and no staining of aluminum.
With low flammability, exceptional oxidation and hydrolysis stability, the coolant is both safe and long-lasting. Additionally, a specialized cleaning fluid makes maintenance and cleaning simple and hassle-free.
