i0522-264 In-Duct Evaporative Cooling AD AW.qxp_BSEE A3 Half Page 12/05/2024 20:46 Page 1


IN-DUCT EVAPORATIVE COOLING


limited, and this will vary depending on the outside weather. However, with an exhaust air cooling strategy, the condition of the air going on to the humidifier is always relatively consistent. The room’s extract air condition rarely has a high humidity, allowing good potential for evaporation. The second limitation for direct air evaporative cooling is the maximum allowed humidity after the humidifier. This is dependent on the supply air condition to the room. Air that is too humid will not be comfortable and could cause issues with a building’s fabric. So, if the maximum allowed humidity to the room is 55%RH, then the capacity for direct evaporative cooling is limited to this level.


But, when positioning the humidifier in the exhaust air duct, to humidify the air in the extract airstream, the maximum room humidity limitation is irrelevant. The humidifier can saturate the extract air with maximum cooling effect. This wet cool air is then run through an energy recovery system and subsequently vented externally. As the air is significantly cooler after the humidifier, there is much greater difference between outgoing and incoming air temperatures, and therefore more potential for the consistent transfer of cooling to the incoming air. To put some figures against this potential, if the air extracted from the room is 21°C and 50%RH, and is humidified to 95%RH, a run- around energy recovery system with a 90% efficiency could pre-cool incoming air of 28°C and 44%RH by up to 11°C. This level of cooling would significantly reduce a building’s HVAC energy consumption during the summer. It may not always replace the need for mechanical cooling, but it will greatly reduce the size of chiller needed and the ongoing energy consumption for mechanical cooling. This will lower a building’s carbon footprint and improve its sustainability. A recent successful illustration of this strategy can be seen in a new-build health clinic in Tyrol, Austria. Condair worked with energy recovery specialist, Konvekta, and supplied its Condair ME evaporative humidifiers. They cooled the extract air prior to it being run through Konvekta’s high efficiency run-around energy recovery systems.


Read the latest at: www.bsee.co.uk Condair hp BSEE Jun24.indd 1


Amir Ibrahimagic, Group Business Development Manager at Konvekta, explains, “Hospitals, research labs, and universities have a particularly high interest when it comes to energy recovery systems because they have extensive operational times, leading to high energy costs. With a good energy recovery unit, they can massively decrease their energy use. For this project in Hull in Tyrol, we installed three energy recovery units with Condair ME evaporative humidifiers. Overall, ongoing monitoring showed a proven annual energy recovery of 92% on an annual basis across all Konvekta systems.


“A single Condair ME humidifier contributed


more than 60,000kWh of cooling during this annual period from just 3,800kWh of consumed electricity. This low energy cooling significantly improved the building’s overall energy efficiency and helped our client become the most sustainable clinic of its type in all of Austria.” Amir concluded.


For designers who want to know how much cooling would be available using this exhaust air evaporative cooling strategy for a specific project, Condair offers an accurate calculator on the website https://mycoolblue. com. It has worldwide weather data from over 300 locations and allows variable AHU configurations to be set. Accurate calculations are provided for the amount of exhaust air cooling that will be delivered, alongside mechanical, in different climates and under different building operating conditions. For instance, a building in London with a room set point of 22°C, operating during office hours only, with a 3x3m evaporative humidifier and 3m/s airflow, could meet 55% of its annual cooling needs with exhaust air cooling. Whilst the same building in Syndey, Australia, would be able to achieve 36% of its cooling in the same way. As room conditions are relatively consistent in air-conditioned buildings around the world, the strategy of exhaust air cooling is universal. Exhaust air evaporative cooling is a proven and effective strategy, and if more widely understood and applied, could help our industry take a further step towards its net zero goals.


When used in an AHU, the Condair ME delivers up to 800kW of cooling from less than 1kW of electricity.


Put Condair technology at the heart of your evaporative cooling strategy.


Condair ME Evaporative cooler


Evaporative cooler


Outside air Supply air


Return air


Exhaust air


Contact us for free expert advice Tel: +44 (0)1903 850 200 Email: uk.sales@condair.com Web: www.condair.co.uk


Humidification, Dehumidification and Evaporative Cooling


BUILDING SERVICES & ENVIRONMENTAL ENGINEER JUNE 2024 31 14/5/24 11:22


Page 1  |  Page 2  |  Page 3  |  Page 4  |  Page 5  |  Page 6  |  Page 7  |  Page 8  |  Page 9  |  Page 10  |  Page 11  |  Page 12  |  Page 13  |  Page 14  |  Page 15  |  Page 16  |  Page 17  |  Page 18  |  Page 19  |  Page 20  |  Page 21  |  Page 22  |  Page 23  |  Page 24  |  Page 25  |  Page 26  |  Page 27  |  Page 28  |  Page 29  |  Page 30  |  Page 31  |  Page 32  |  Page 33  |  Page 34  |  Page 35  |  Page 36  |  Page 37  |  Page 38  |  Page 39  |  Page 40  |  Page 41  |  Page 42  |  Page 43  |  Page 44  |  Page 45  |  Page 46