Membranes (Jul 2019)

CFD Investigation of Spacer-Filled Channels for Membrane Distillation

  • Mariagiorgia La Cerva,
  • Andrea Cipollina,
  • Michele Ciofalo,
  • Mohammed Albeirutty,
  • Nedim Turkmen,
  • Salah Bouguecha,
  • Giorgio Micale

DOI
https://doi.org/10.3390/membranes9080091
Journal volume & issue
Vol. 9, no. 8
p. 91

Abstract

Read online

The membrane distillation (MD) process for water desalination is affected by temperature polarization, which reduces the driving force and the efficiency of the process. To counteract this phenomenon, spacer-filled channels are used, which enhance mixing and heat transfer but also cause higher pressure drops. Therefore, in the design of MD modules, the choice of the spacer is crucial for process efficiency. In the present work, different overlapped spacers are investigated by computational fluid dynamics (CFD) and results are compared with experiments carried out with thermochromic liquid crystals (TLC). Results are reported for different flow attack angles and for Reynolds numbers (Re) ranging from ~200 to ~800. A good qualitative agreement between simulations and experiments can be observed for the areal distribution of the normalized heat transfer coefficient. Trends of the average heat transfer coefficient are reported as functions of Re for the geometries investigated, thus providing the basis for CFD-based correlations to be used in higher-scale process models.

Keywords