Experimental and Theoretical Investigations of a Novel Multi-Stage Direct Contact Membrane Distillation Module

Abstract: Global climate change and variability have a negative impact on a water supply and quality in remote areas by reducing water availability and contaminant dilution. This will continue to be exacerbated by limited and inadequate water supply, insufficient water treatment and low infrastructure. Thus, an economic desalination system with a small scale and footprint for such regions is strongly demanded in the desalination markets. Here, a direct contact membrane distillation (DCMD) process has the simplest config… Show more

“…Additionally, VMD exhibits relatively higher permeate flux compared to other membrane distillation (MD) technologies, which is attributed to its superior thermal efficiency, making it highly suitable for various MD applications [3]. Despite these advantages, VMD faces challenges, particularly in terms of high specific heat consumption (SHC), which significantly affects its commercialization [4].…”

Reduction in Specific Energy Consumption in Desalination through Hybrid Desalination Techniques

“…Additionally, VMD exhibits relatively higher permeate flux compared to other membrane distillation (MD) technologies, which is attributed to its superior thermal efficiency, making it highly suitable for various MD applications [3]. Despite these advantages, VMD faces challenges, particularly in terms of high specific heat consumption (SHC), which significantly affects its commercialization [4].…”

Reduction in Specific Energy Consumption in Desalination through Hybrid Desalination Techniques

Experimental and numerical evaluation of the energy requirement of multi-stage vacuum membrane distillation designs