Performance of a liquid desiccant air-conditioner driven by evacuated-tube, flat-plate, or hybrid solar thermal arrays

Study was undertaken to determine the effects of location and solar thermal collector design on the performance of a liquid desiccant air conditioner (LDAC). A 95 m(2) evacuated-tube collector (ETC) solar thermal array, coupled to a LDAC located in Kingston, Canada, was monitored to obtain data to verify a simulation of the system. A TRNSYS model was modified to account for variations in LDAC effectiveness with different conditions. The model was used to investigate options for the collector array design including the use of flat-plate collectors (FPC), ETCs and hybrid arrays consisting of both FPC and ETCs. Simulations were conducted for three cities including: Toronto, Canada; Tunis, Tunisia; and Calcutta, India. To achieve comparable solar fractions to ETC arrays it was found that FPC arrays required approximately 15 m2 more area than the ETC arrays in Toronto and Tunis, and 30 m2 more in Calcutta. Tunis showed the best results for a hybrid system. A ratio of 30% FPCs and 70% ETCs achieved the same solar fraction (i.e., 0.56) as the array consisting of only ETCs. The reduction in the use of ETCs could lead to significant cost savings and flexibility in the design of LDAC systems. (C) 2016 Elsevier B.V. All rights reserved.