Efficient District Cooling

Air cooling is the biggest consumer of with around 60-80% of electricity used for air conditioning, and up to 100% of potable water production being supplied by desalination plants in hot arid countries around the world, sustaining life in such climatic conditions is uniquely energy intensive. 
As District Cooling Plants (DCPs) have a potential to reduce energy consumption and CO2 emissions, many hot countries are continuously shifting paradigm towards adoption of DCPs to satisfy the rapidly growing demand.

 

However, DCPs usually rely on wet cooling towers for disposing excess heat to the ambient. Thus the heat disposal is accompanied by considerable loss of fresh water, a common problem in hot arid countries with highest demand for air cooling and also relies on costly and energy intensive desalination processes for securing fresh water supply. In addition, evaporative cooling devices and wet cooling towers can spread humidifier fever, a serious health risk with similar symptoms as mild influenza, and Legionella, which can be deadly. Hence huge evaporation loss in densely populated urban centers in hot regions is an environmental issue which necessitates effective and affordable solutions. 


The IEU introduces new highly efficient solutions that reduce energy consumption by up to 30% and water consumption by more than 50%. The technology can save considerable amounts of fresh water and electrical power together with associated huge reduction of CO2 emissions.
The whole system can be driven partially or fully by the unique innovative solar and solid waste systems developed at the IEU, as elaborated earlier, providing more energy efficiency and carbon free dimensions to supply these services in a sustainable way.

The whole system can be driven partially or fully by the unique innovative solar and solid waste systems developed at the IEU, as elaborated earlier, providing more energy efficiency and carbon free dimensions to supply these services in a sustainable way.

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