Our society is increasingly conscious of its impact on the environment. Data centers, vital to our modern lifestyle, contribute significantly to greenhouse gas emissions.
By optimising the management of temperature and humidity within these facilities, we can significantly reduce our carbon footprint and contribute to a more sustainable future.
Why optimise temperature and humidity?
A data center is a building full of thousands of servers that store and process all our online data. These servers need to run all the time and be kept cool, so they use a huge amount of energy. The cooling systems also use lots of water, making data centers very energy-intensive and putting a strain on our natural resources.
By optimising temperature and humidity settings, you can:
• Reduce your energy bills: by decreasing reliance on cooling, you’ll save on energy costs.
• Extend the lifespan of your equipment: a controlled environment protects your servers and other equipment from corrosion and failures.
• Reduce your environmental impact: by consuming less energy, you’ll emit fewer greenhouse gases.
• Comply with environmental standards: you’ll align with industry best practices and demonstrate your commitment to sustainability.
How to proceed?
- Conduct an energy audit: start by assessing your current situation. What are the current settings? Which equipment consumes the most energy?
- Set new parameters: based on recommendations from ASHRAE (American Society of Heating, Refrigerating and Air-Conditioning Engineers), define new temperature and humidity ranges suitable for your infrastructure.
- Adjust your building management system (BMS): configure your BMS to automatically manage cooling and humidification based on the new settings.
- Monitor and adjust: implement regular monitoring to assess the effectiveness of your new measures and make adjustments as needed.
- Train your team: ensure your staff understands the issues and knows how to maintain the new settings.
Benefits at a glance
• Significant energy savings
• Extended equipment lifespan
• Reduced carbon footprint
• Compliance with environmental standards
In conclusion,
Optimising the temperature and humidity of your data centre is a key factor in improving its energy efficiency. By following the steps outlined in this article, you’ll have the tools you need to make this transition successfully and achieve substantial long-term savings.
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Our society is increasingly conscious of its impact on the environment. Data centers, vital to our modern lifestyle, contribute significantly to greenhouse gas emissions.
By optimising the management of temperature and humidity within these facilities, we can significantly reduce our carbon footprint and contribute to a more sustainable future.
Why optimise temperature and humidity?
A data center is a building full of thousands of servers that store and process all our online data. These servers need to run all the time and be kept cool, so they use a huge amount of energy. The cooling systems also use lots of water, making data centers very energy-intensive and putting a strain on our natural resources.
By optimising temperature and humidity settings, you can:
• Reduce your energy bills: by decreasing reliance on cooling, you’ll save on energy costs.
• Extend the lifespan of your equipment: a controlled environment protects your servers and other equipment from corrosion and failures.
• Reduce your environmental impact: by consuming less energy, you’ll emit fewer greenhouse gases.
• Comply with environmental standards: you’ll align with industry best practices and demonstrate your commitment to sustainability.
How to proceed?
- Conduct an energy audit: start by assessing your current situation. What are the current settings? Which equipment consumes the most energy?
- Set new parameters: based on recommendations from ASHRAE (American Society of Heating, Refrigerating and Air-Conditioning Engineers), define new temperature and humidity ranges suitable for your infrastructure.
- Adjust your building management system (BMS): configure your BMS to automatically manage cooling and humidification based on the new settings.
- Monitor and adjust: implement regular monitoring to assess the effectiveness of your new measures and make adjustments as needed.
- Train your team: ensure your staff understands the issues and knows how to maintain the new settings.
Benefits at a glance
• Significant energy savings
• Extended equipment lifespan
• Reduced carbon footprint
• Compliance with environmental standards
In conclusion,
Optimising the temperature and humidity of your data centre is a key factor in improving its energy efficiency. By following the steps outlined in this article, you’ll have the tools you need to make this transition successfully and achieve substantial long-term savings.
