Heat and mass transfer to air in a cross flow heat exchanger with surface deluge cooling

Cross flow heat exchangers, when applied to cooling data center rooms, use external air (process air) to cool the air stream coming from the data center room (primary air). However, an air-air heat exchanger is not enough to cope with extreme high heat loads in critical conditions (high external temperature). Therefore, water can be sprayed in the process air to increase the heat dissipation capability (wet mode). Water evaporates, and the heat flow rate is transferred to the process air as sensible and latent heat. This paper proposes an analytical approach to predict the behavior of a cross flow heat exchanger in wet mode. The theoretical results are then compared to experimental tests carried out on a real machine in wet mode conditions. The comparison is given in terms of calculated versus experimental heat flow rate, showing a good match between theoretical and experimental values.