District cooling
District cooling works on the same principles and techniques as district heating. It serves to provide cooling to all types of buildings including residential, commercial, and industrial buildings. It makes use of chilled water for cooling purposes and circulates the cool air through a closed-loop pipe network. Compared to traditional cooling methods, district cooling has at least 5% to 10% higher efficiency.
Not only is it more efficient but it is also environmentally friendly. Our planet is going through an extreme crisis that requires a modern-day solution, district cooling is the answer to this environmental crisis.
With skyscrapers filling the skyline of all major cities, the traditional cooling system emits dangerous gases that contribute to the depletion of the ozone layer. On the other hand, district cooling systems have low levels of emissions thus proving to be environmentally friendly cooling systems.
How does district cooling save the environment?
There are several ways in which district cooling systems prove their worth as sustainable methods of cooling:
The water used for district cooling can be extracted from natural resources like seawater and treated sewage effluent.
The energy consumption is reduced by more than 50% with the help of district cooling.
Its use is most advantageous during peak consumption periods. Here the production is done during those periods of the day when there is comparatively less load on the electrical network.
By aggregating the cooling demands of multiple buildings, district cooling helps in saving energy and water and creates a low-cost cooling solution.
The operation costs that are associated with individual chiller plants can be avoided.
Planet earth needs to have access to cleaner cooling solutions and district cooling is the best step towards a greener future. With the temperatures constantly surging, a cooling system has become a necessity. But with the demand increasing there is a consequent increase in greenhouse gas emissions. To tackle this surge, district cooling can be used. It does not emit any greenhouse gases nor does it contribute to hazardous refrigerant emissions.
Apart from luring consumers with attractive district cooling rates, it also provides a great deal of architectural flexibility since it is placed underground. It helps in saving building and rooftop space. It reduces the costs of infrastructure to a great extent.
With the above-mentioned distinctive advantages that are associated with district cooling, we can confidently conclude that district cooling is the present and future cooling system for planet Earth.
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