We invite you to experience the latest transformative power of our state-of-the-art- immersion cooling technology Synos Max 21, driving the latest advancements in immersion cooling solutions for data centers, while fostering remarkable energy efficiency and eco-friendliness. As the demands for cloud computing, streaming, big data, blockchain, artificial intelligence, and social media escalate, data centers and computing infrastructure expand exponentially.
However, conventional cooling methods incur exorbitant costs and consume significant energy. Our groundbreaking approach involves immersing computer components in a thermally conductive and electrically non-conductive (dielectric) coolant, revolutionizing cooling efficiency. By significantly curbing energy consumption, slashing carbon dioxide emissions, and reducing expenses, this cutting-edge solution also offers unparalleled location flexibility.
– Reduced total cost of ownership
– Decreased need for equipment, space, energy, and maintenance.
– Eliminates the requirement for energy-intensive air-conditioning units, thereby minimizing the carbon energy footprint.
– A reduced energy footprint contributes to lower carbon dioxide emissions.
– The simplicity of a single-phase cooling system eliminates the need for raised floors and aisles between server racks, resulting in less floor space usage.
– Utilizing a highly efficient dielectric coolant that conducts heat 1,200 times better than air enables servers to operate at faster speeds while maintaining cooler temperatures.
– Smaller physical, energy, and carbon footprints make single-phase cooling an economical choice in terms of both capital and operating expenditure.
1. Immersion cooling involves the submersion of IT components, including entire servers, in a dielectric (electrically non-conductive) fluid to facilitate cooling.
2. Immersion Cooling Fluid, either circulated naturally through convection or actively pumped, effectively extracts heat from the components.
3. An additional advantage is the potential recovery of this heat through water-cooled heat exchangers, allowing its reuse in district heating projects.
4. Two immersion-cooling technologies widely utilized are as follows: Single-phase immersion cooling, where the coolant remains in liquid form throughout, and two-phase immersion cooling, wherein the coolant undergoes a phase change from gas to liquid through boiling and subsequent condensation.
