Abstract:
A mathematical model for multistage flash (MSF) desalination system with brine recirculation (BR)
configuration is developed in this study. The heat source for BR-MSF is chosen to be a nanofluid-based
direct absorption solar collector (DASC) for which a numerical model is developed. Both these systems, BR-MSF and DASC are coupled via a counter-flow heat exchanger. The overall performance of the
combined system is quantified in terms of gained output ratio (GOR). Moreover, the variation in GOR
caused by various influencing parameters such as height (H) and length (L) of solar collector, nanoparticle
volume fraction (fv) and incident flux on the collector (q) is studied in detail. The effect of these parameters on the top brine temperature (To) is also discussed. The study shows that DASC can be used as a
heat source for BR-MSF system and gives high GOR ranging between 11 and 14 depending on the various
operating conditions. This system is also compared with a parabolic trough collector (PTC) based BR-MSF
system and it is found that DASC-based BR-MSF system gives higher GOR under identical conditions
(relatively 11% higher). The exergy analysis is also presented for this system which shows the irreversibilities associated with various physical processes and components of the overall system and in addition
to that exergy efficiency is also calculated for the overall system.
