NVIDIA H100 – Two-Phase Immersion Boiler Solution
We are pleased to introduce the next-generation thermal solution designed for AI data centers and high-performance computing environments:
H100 Two-Phase Immersion Boiler Solution
🔷 Optimized Cooling for NVIDIA H100
The NVIDIA H100 GPU delivers exceptional computing power,
but also generates extremely high heat loads.
To address this, ImmerseKool provides a
Two-Phase Immersion Cooling Boiler system
engineered specifically for high-density GPU applications.
⚙️ How Two-Phase Immersion Cooling Works
Heat from the GPU instantly causes the coolant to boil
The phase change absorbs large amounts of latent heat
Vapor rises naturally to the condenser
The condenser converts vapor back to liquid
The liquid returns to the tank, creating a passive circulation loop
👉 Result: Ultra-efficient heat removal with uniform temperature control
🚀 Key Features
✔ Designed for high-power GPUs such as NVIDIA H100
✔ Eliminates thermal throttling
✔ No fans or heat sinks required → 0 dB silent operation
✔ Enables ultra high-density server architecture
✔ Significantly improves energy efficiency (lower PUE)
✔ Minimal maintenance and high system reliability
📊 Applications
AI Data Centers
GPU Clusters (H100 / B100 / GB200)
High Performance Computing (HPC)
Edge AI & Advanced Workstations
💡 Why Two-Phase Cooling?
Compared to traditional air or liquid cooling:
👉 10x–100x higher thermal efficiency
👉 Superior temperature uniformity
👉 Reduced energy consumption
👉 Ideal for next-generation AI infrastructure
For GPUs like H100,
Two-Phase Cooling is becoming the new industry standard.
H100 Two-Phase Immersion Boiler Solution
🔷 Optimized Cooling for NVIDIA H100
The NVIDIA H100 GPU delivers exceptional computing power,
but also generates extremely high heat loads.
To address this, ImmerseKool provides a
Two-Phase Immersion Cooling Boiler system
engineered specifically for high-density GPU applications.
⚙️ How Two-Phase Immersion Cooling Works
Heat from the GPU instantly causes the coolant to boil
The phase change absorbs large amounts of latent heat
Vapor rises naturally to the condenser
The condenser converts vapor back to liquid
The liquid returns to the tank, creating a passive circulation loop
👉 Result: Ultra-efficient heat removal with uniform temperature control
🚀 Key Features
✔ Designed for high-power GPUs such as NVIDIA H100
✔ Eliminates thermal throttling
✔ No fans or heat sinks required → 0 dB silent operation
✔ Enables ultra high-density server architecture
✔ Significantly improves energy efficiency (lower PUE)
✔ Minimal maintenance and high system reliability
📊 Applications
AI Data Centers
GPU Clusters (H100 / B100 / GB200)
High Performance Computing (HPC)
Edge AI & Advanced Workstations
💡 Why Two-Phase Cooling?
Compared to traditional air or liquid cooling:
👉 10x–100x higher thermal efficiency
👉 Superior temperature uniformity
👉 Reduced energy consumption
👉 Ideal for next-generation AI infrastructure
For GPUs like H100,
Two-Phase Cooling is becoming the new industry standard.