A fresh look at adiabatic cooling
September 1st 2007

A fresh look at A new, more efficient approach to indirect adiabatic cooling may provide an ideal solution where new or additional comfort cooling is required. Chris Ree of Hoval explains why

Many technologies evolve and improve and this is certainly the case with a newly patented design of indirect adiabatic cooling that offers efficient cooling for factories and warehouses, either on a stand-alone basis or as a boost to existing cooling plant. This is achieved through the use of a combination of indirect cooling and a patented pre-cooling design, which delivers 20% increased cooling efficiencies compared to other methods, a coefficient of performance (COP) of up to 7 and does not increase the humidity of the air. For instance, for a power input of just 3kW the new AdiaVent offers a cooling capacity of up to 21kW with an air flow of 6000m3/h, and the ability to add up to 20% fresh air to the supply air before cooling.

How it works For those who are not familiar with adiabatic cooling, this refers to the humidification of air under adiabatic (isocaloric) conditions, so that energy is neither added nor removed. The heat necessary for evaporation is taken from the air, which consequently cools down. Adiabatic cooling can be either indirect or direct. With direct adiabatic cooling the air flow supplied to the space is humidified, so this causes an increase in ambient humidity and also poses a risk of contamination of the supply air. An alternative approach is to implement indirect adiabatic cooling, where outside air is used to cool recirculating air which is extracted from the space and then returned, after cooling, as supply air. In this scenario, the outside air is humidified and then used to cool the recirculated air via a heat exchanger before being expelled back to the exterior. With single stage indirect adiabatic cooling, as described above, the humidification and cooling occurs at the same time and in the same place and can achieve an adiabatic degree of efficiency of about 76%. As discussed below, this performance can be improved even further through the use of pre-cooling. The efficiency of the process depends on both the quality of the humidification and the quality of the heat transfer, so it follows that any improvements to overall efficiency are addressed through these parameters. In the case of humidification, this will depend on the nature of the system used and spray humidifiers have proved themselves to be reliable and sturdy in many applications. In single stage indirect adiabatic cooling, spray humidifiers are combined with plate heat exchangers and sometimes two are connected in series. Or, in the case of smaller air flow volumes, counter-current heat exchangers may be used.

Innovative approach Consideration of all of the variables has led to the innovative, and subsequently patented, concept of using a second heat exchanger as a pre-cooler for the cooling air. In the AdiaVent, the air to be cooled is recirculated and returned to the conditioned space while outside air is effectively used as the refrigerant. As such, it is drawn through a filter and pre-cooled in a plate heat exchanger (the pre-cooler). This pre-cooled air then flows into a second cross-flow heat exchanger where it cools the recirculating supply air more efficiently than would be the case if it had not been pre-cooled. The outside air is then returned to the outside; while condensed water returns to a reservoir to be recirculated (one of the scientific peculiarities of adiabatic cooling is that the temperature of the water does not influence the cooling effect). Such recirculated water is subjected to continuous anti-Legionella measures such as ultra-violet disinfection. The water reservoir is emptied automatically at the end of each day of operation and the airflow is maintained through the plate heat exchangers purging all moisture out of the system. This use of pre-cooling makes it possible to reduce the cooling limit temperature and increase efficiency by around 20%, compared to coolers not using this patented approach. Where required, AdiaVent can be supplied with an integral direct expansion coil and condensing unit to supplement the adiabatic cooling during times of peak cooling demand. Onboard automatic controls ensure that the adiabatic cooling is used to its maximum potential so that energy performance is optimised.

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