4 Ways to Optimize Cooling in Data Centre in Hyderabad

Data centres in Hyderabad and other places typically use plenty of electric power.

This is because of the vast number of computers they store and the cooling equipment they deploy to preserve the ideal environment for the infrastructure. In total, data centres use up about 3% of the world’s electric power. This percentage is likely to increase as many providers have plans to build high energy-consuming hyperscale facilities in the future. Therefore, despite efficiency improvements, data centres still need a lot of power.

Colocation clients need to understand the cooling and power traits of the data centres they hire so that they can better evaluate their future computing requirements and costs. For example, data facility power design can have a big impact on how an organization plans to expand its capacity. Luckily, it’s quite easy to assess the cooling and power capability of data centres in Hyderabad and other places.

How to Optimize Cooling in Data Centres in Hyderabad

To do this, you should comprehend how data centre cooling should function for your specific technical and business needs.

The following best practices can help to improve cooling in data centres in Hyderabad and other cities.

Deploy Containment Measures

As air stubbornly moves to where it wants, data centres deploy containment methods by installing doors and walls to route air flow. This helps hot aisles to contain hot air and cold aisles to keep in cold air.

Efficient containment permits data centres to operate greater rack densities while decreasing energy consumption.

Utilize Cold Aisle/Hot Aisle Layout

This cooling layout places server racks in alternate rows to produce hot aisles (hot air released at the racks’ back) and cold aisles (cold air taken in at the racks’ front).

The design sends hot air to the air conditioning system where it is cooled and directed through the vent to the cold aisles.

Sync Humidity Control Panels

A lot of data centres leverage free air-side chilling or air-side economizer solutions.

These platforms permit the data centre to take in outside air to enhance energy efficiency; however, this can also let moisture into the facility.

Too much atmosphere moisture can cause condensation, which can lead to corrosion and malfunctioning of electrical products. You can try to adjust the atmosphere controls to decrease moisture, but this can create new problems.

Too dry air in the data center can lead to buildup of static electricity which can damage the equipment.

Therefore, it’s essential for a data centre’s humidity panels to efficiently manage the moisture taken in from the outside environment to preserve the ideal operating atmosphere for the server storage rooms.

Inspect and Close Leaks in Cable Openings, Support Columns, and Perimeters

Data centres in Hyderabad and other places face the threat of water damage which is the second main cause of downtime and data loss after electrical fires.

Most business insurance plans do not cover water damage, and even if some do, you cannot replace vital lost data.

Therefore, data centres need to be aware of and manage this threat effectively.

The good news is you can easily detect and prevent most leaks with some caution and forethought.

Tools like humidity sensors, zone controllers, and chemical and fluid sensing cables can pinpoint leaks early so you can seal them before they can cause serious problems.

Conclusion

As data centre electricity needs continue to rise, new cooling technologies are required to enable facilities to operate at top capacity. Colocation clients need to identify facilities that boast solid infrastructure which can improve performance and drive efficiencies.

Thus, it is imperative for growing businesses to find data centres in Hyderabad and other cities that offer the needed cooling and power capacity to accommodate their current and future requirements so they can gain strategic advantages.

STT GDC India is a leading data centre and colocation services provider in India that offers infrastructure to support high-density and hyperscale computing requirements for big data, cloud, IoT, e-commerce, and other organizations.

About the author

Ishika Jain

A graduate in English Literature who loves to read, write and edit. She employs words and graphics to reach out to people, create awareness and voice out her opinion.