Passive Permeate-Side-Heated Solar Thermal Membrane Distillation: Extracting Potable Water from Seawater, Surface Water, and Municipal Wastewater at High Single-Stage Solar Efficiencies

Abstract: Globally, hundreds of millions of people still drink untreated surface water due to the lack of even a basic drinking water service and urgently need economical off-grid water treatment devices. A passive, single-stage, permeate-side-heated solar thermal membrane distillation system is developed for extracting potable water from seawater, surface water, and municipal wastewater. The carbon blackcoated permeate side of a 0.45 μm PVDF membrane absorbs solar radiation and evaporates the feedwater within the pores… Show more

“…Exploring the balance between high quality effluent and low carbon emissions is a future concern for water treatment technologies, especially membrane technologies. First, the use of natural materials such as nanocellulose (NC) and renewable energy sources to drive membrane technologies has demonstrated excellent performance and very low energy consumption. − Second, emerging anaerobic membrane bioreactors (AnMBRs) enhance pollutant removal, bioenergy production, and resource recycling by integrating the benefits of anaerobic digestion and membrane technologies, which should enable carbon footprint neutral anaerobic wastewater treatment plants. ,, Finally, resource recovery provides an effective pathway for carbon reduction, avoiding both resource waste and carbon offsetting. However, there are still few studies on the emission reduction of resource utilization in wastewater, and the lack of long-term consideration of membrane module recycling still requires in-depth research.…”

Carbon Emission Calculations and Reductions in Membrane Water Treatment: A Review

“…Exploring the balance between high quality effluent and low carbon emissions is a future concern for water treatment technologies, especially membrane technologies. First, the use of natural materials such as nanocellulose (NC) and renewable energy sources to drive membrane technologies has demonstrated excellent performance and very low energy consumption. − Second, emerging anaerobic membrane bioreactors (AnMBRs) enhance pollutant removal, bioenergy production, and resource recycling by integrating the benefits of anaerobic digestion and membrane technologies, which should enable carbon footprint neutral anaerobic wastewater treatment plants. ,, Finally, resource recovery provides an effective pathway for carbon reduction, avoiding both resource waste and carbon offsetting. However, there are still few studies on the emission reduction of resource utilization in wastewater, and the lack of long-term consideration of membrane module recycling still requires in-depth research.…”

Carbon Emission Calculations and Reductions in Membrane Water Treatment: A Review

Arrested methanogenesis: Principles, practices, and perspectives

Rethinking anaerobic digestion for bioenergy and biopolymers production: Challenges and opportunities