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vs. on/off controlled
AC & DC air conditioning
This article presents the results of a real-life test comparing capacity-controlled and on/off-controlled AC and DC air conditioning in terms of power consumption and temperature variations. Download the full white paper for detailed documentation.
What are we trying to prove?
The aim of this study was to prove our claim that true, capacity-controlled DC air conditioning makes a major difference in creating savings and more stable operation, even in unstable power networks.
How did we choose what to compare?
Air conditioners in general are a common choice for excess heat removal in the Telecom and electronics cooling industry. For some applications, AC air conditioning is the ideal choice. For others, a DC-based solution offers more benefits. But in some areas of the electronics cooling industry, there is a tendency to choose AC air conditioning even where DC air conditioning is an option.
Why include two types of DC air conditioning?
Among those who do choose DC-based air conditioning solutions, the trend shows a preference for on/off control. This leaves the option of capacity-controlled DC air conditioning, which in the industry remains relatively unexploited in spite of the strengths of this technology in terms of maintaining stable temperatures and generating very high energy savings.
Download test documentation
Get the full white paper behind this article to access test details.
Can I use DC air conditioning?
Learn where and how our DC Air Conditioners make a major difference in creating savings and more stable operation.
Related case studies
Read our selection of DC Air Conditioning case studies.
- Test type: real-life comparison
- Air conditioner systems: Dantherm AC and DC
- Control strategies: capacity-controlled and on/off-controlled
- Time span: 24 hours
- Heat load: 800W
- Set point: 25°C/77°F
- Parameters: power consumption, temperature fluctuations
DC air conditioner, capacity-controlled = 62 kWh
DC air conditioner, on/off-controlled = 74 kWh
AC air conditioner, on/off-controlled = 131 kWH
Get the full documentation behind this article, including detailed test environment data and discussion of results.Get white paper
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