3 research outputs found
Assessment of the Performance of Osmotically Driven Polymeric Membrane Processes
The universal water scarceness and the extensive ordeals with energy cost in
conjunction with the undesirable ecological effects have advanced the
improvement of novel osmotically driven membrane processes. Membrane
processes which are osmotically driven are developing type of membrane
separation procedures that apply concentrated brines to separate liquid
streams. They are adaptable in various applications; hence, allow them to be
an attractive substitute for drug release, wastewater treatment and the
production and recovery of energy. Although, internal concentration
polarization (ICP) occurs in membrane practises which are osmotically driven
as a consequence of hindered diffusion of solute in a porous stratum, their
interest has even increased. Here we review two natural membrane processes
that are osmotically driven; Forward osmosis (FO) and Pressure retarded
osmosis (PRO). Thus, the major points are as follows: 1) it was highlighted in
this review, that the major developments in FO process, important for the
process efficiency is to choose a suitable membrane and draw solution. 2) The
recent evaluation, understanding and optimizing the activities of fouling
throughout the osmotic dilution of seawater employing FO was discussed. 3)
Recent advancements of FO in the application of food processing was
reviewed. 4) It was highlighted that the main concept of PRO for power
generation is the energy of mixing that offers great assessment of the nonexpansion
work which could be generated from mixing; nonetheless, the
development of effective membranes with appropriate arrangement and
performance is needed for the advancement of PRO process for power
generation. 5) One major challenge of osmotically driven membrane
processes, most recent developments and model development to predict their
performances were discussed