Solvent-driven separation processes can extract water and high-value minerals from high salinity or contaminated brines, simultaneously reducing the environmental impact of brine disposal and enabling resource recovery. The efficient dewatering of hypersaline brines is essential for the sustainable minimal and zero liquid discharge processing of industrial wastewaters. Fractional crystallization can selectively extract ions from contaminated waste streams, allowing critical materials to be recycled, including transition and lanthanide metals required for renewable energy generation and storage. Mass transfer in solvent-driven water extraction occurs across a liquid–liquid interface, eliminating the scaling and fouling of membrane and heat e...
Advances in technologies to enable water reuse in industry have been the objective of many research ...
Temperature swing solvent extraction (TSSE) offers a membrane-less and nonevaporative approach to hy...
This study analyses the concept of a novel multi-crystallization system to achieve zero liquid disch...
Zero liquid discharge (ZLD) of hypersaline brines is technically and energetically challenging. This...
Hypersaline brines are of growing environmental importance but are technologically under-served by t...
Management and treatment of hypersaline brines, e.g., produced water from oil and gas extraction, ze...
Hypersaline brines are of growing environmental importance but are technologically under-served by t...
Stricter environmental regulation policies and freshwater as an increasingly valuable resource have ...
Hypersaline brines are of growing environmental importance but are technologically under-served by t...
Stricter environmental regulation policies and freshwater as an increasingly valuable resource have ...
This study sheds light on the fundamental phenomena governing temperature swing solvent extraction (...
Various regions around the world are confronted with dwindling water supplies and thus the need for ...
Reverse osmosis (RO) desalination of inland brackish water can replenish dwindling water supplies in...
European policy encourages the adoption of sustainable systems that promote the efficient use and re...
There is an increasing need for the desalination of high concentration brine (>TDS 35,000 ppm) ef...
Advances in technologies to enable water reuse in industry have been the objective of many research ...
Temperature swing solvent extraction (TSSE) offers a membrane-less and nonevaporative approach to hy...
This study analyses the concept of a novel multi-crystallization system to achieve zero liquid disch...
Zero liquid discharge (ZLD) of hypersaline brines is technically and energetically challenging. This...
Hypersaline brines are of growing environmental importance but are technologically under-served by t...
Management and treatment of hypersaline brines, e.g., produced water from oil and gas extraction, ze...
Hypersaline brines are of growing environmental importance but are technologically under-served by t...
Stricter environmental regulation policies and freshwater as an increasingly valuable resource have ...
Hypersaline brines are of growing environmental importance but are technologically under-served by t...
Stricter environmental regulation policies and freshwater as an increasingly valuable resource have ...
This study sheds light on the fundamental phenomena governing temperature swing solvent extraction (...
Various regions around the world are confronted with dwindling water supplies and thus the need for ...
Reverse osmosis (RO) desalination of inland brackish water can replenish dwindling water supplies in...
European policy encourages the adoption of sustainable systems that promote the efficient use and re...
There is an increasing need for the desalination of high concentration brine (>TDS 35,000 ppm) ef...
Advances in technologies to enable water reuse in industry have been the objective of many research ...
Temperature swing solvent extraction (TSSE) offers a membrane-less and nonevaporative approach to hy...
This study analyses the concept of a novel multi-crystallization system to achieve zero liquid disch...