OUR MODULE
Fully Autonomous, Uncompromisingly Sustainable
Cooling Efficiency
Immersion tanks enable more efficient cooling, reducing the energy consumption of computer servers.
Space optimization
They also enable optimum use of data center space, which is crucial in space-constrained environments.
Server lifetime
Uniform heat dissipation from the tanks helps extend server life, reducing replacement costs.
Water usage
Immersing servers in dielectric fluid eliminates water usage for cooling, enabling data centers to sustainably operate without this scarce resource.
Energy Efficiency
Reduce the carbon footprint of data centers by cutting energy consumption.
Cost reduction
Reduces cooling costs and can generate significant savings on energy bills.
Ecological approach
Contributes to a more energy-friendly environment and sustainable development of data infrastructures.
Saving resources
In addition to drastically reducing energy consumption, heat recovery avoids the wasteful consumption of water.
ALLEGRIA HEAT
Harnessing the power of server heat through immersion tanks is a game-changer in energy optimization.
By integrating these tanks with existing heating systems, we can efficiently capture and repurpose the heat generated by servers. This not only reduces energy waste but also provides a sustainable heating solution. The immersion tanks, filled with a special coolant, absorb the heat from servers and transfer it to the heating system.
This innovative approach maximizes the use of server heat, turning what was once waste into a valuable resource. It's a testament to the power of sustainable innovation in the IT sector
ALLEGRIA DECENTRALIZED CLOUD
Localized heat recovery is pivotal for decentralized data centers, enabling them to operate sustainably.
By capturing the heat generated by servers, these centers can reduce energy waste and provide warmth to nearby buildings.
This synergy not only enhances energy efficiency but also fosters a greener IT infrastructure. As data processing demands grow, such innovative solutions are crucial for minimizing the environmental impact of data storage and computation.
Decentralized data centers, therefore, represent a step towards a more sustainable and self-sufficient digital ecosystem, independent of the centralized power grids and contributing to a reduced carbon footprint.
