Membrane distillation hybrids for water production and energy efficiency enhancement: A critical review

“…Comparing with conventional plant (thermal treatment), this FO–NF system displayed the economic advantages of less unit operations, less equipment cost, and less material and energy consumption. Because the MD can achieve almost 100% salt rejection and be not affected by high salinity feeds, it has great potential to regenerate DS diluted from FO process (Ghaffour, Soukane, Lee, Kim, & Alpatova, 2019). The technoeconomic viability of FO–MD system had been evaluated in diary application (Aydiner et al., 2014).…”

“…The economic potential of the hybrid process is promising for replacing conventional methods. MD hybridized with bioreactors (BR) have been applied in food industry for bioethanol production by using sugarcane juice as carbon (Ghaffour et al., 2019). The conventional method of bioethanol separation concentrates ethanol–water azeotropic mixtures from 92.5% to 95.6% by distillation, which results in a lower energy efficiency (Al‐Aheh, Banat, & Al‐Lagtah, 2004).…”

Emerging forward osmosis and membrane distillation for liquid food concentration: A review

“…Comparing with conventional plant (thermal treatment), this FO–NF system displayed the economic advantages of less unit operations, less equipment cost, and less material and energy consumption. Because the MD can achieve almost 100% salt rejection and be not affected by high salinity feeds, it has great potential to regenerate DS diluted from FO process (Ghaffour, Soukane, Lee, Kim, & Alpatova, 2019). The technoeconomic viability of FO–MD system had been evaluated in diary application (Aydiner et al., 2014).…”

“…The economic potential of the hybrid process is promising for replacing conventional methods. MD hybridized with bioreactors (BR) have been applied in food industry for bioethanol production by using sugarcane juice as carbon (Ghaffour et al., 2019). The conventional method of bioethanol separation concentrates ethanol–water azeotropic mixtures from 92.5% to 95.6% by distillation, which results in a lower energy efficiency (Al‐Aheh, Banat, & Al‐Lagtah, 2004).…”

Emerging forward osmosis and membrane distillation for liquid food concentration: A review

“…This configuration was designed to promote thermal energy efficiency by reusing latent evaporation heat. It should be noted that FO, MD, or CDI is not standalone and always combined with other technologies (i.e., hybrid configuration) when being used in desalination [ 62 ]. For example, FO-NF, FO-RO, and FO-MD hybrid systems were designed for wastewater reuse [ 63 , 64 , 65 ].…”

Progress and Perspectives of Desalination in China

“…Porúltimo, cabe destacar que también se necesitan enfoques de control centrados en las demás aplicaciones industriales de la tecnología MD como es el caso del tratamiento de salmueras. En este tipo de procesos, aparte de las perturbaciones clásicas del módulo MD como temperatura de entrada al canal de evaporación y temperatura de la solución de alimentación, se añade una nueva, la concentración de la solución de alimentación que va aumentando a lo largo de la operación hasta que se consiguen separar completamente las partículas volátiles y no volátiles de esta (Ghaffour et al, 2019).…”

Modelado y control automático en destilación por membranas solar: fundamentos y propuestas para su desarrollo tecnológico