Forward Osmosis (FO) is a membrane process that uses the natural osmotic pressure of a concentrated draw solution to extract pure water from a feed stream. The attraction of the FO process is that it uses dense membranes, while operating at ambient pressure. This means that the FO process could potentially produce high quality water with lower energy consumption, as compared to the other desalination or reclamation processes. As FO does not entail the use of hydraulic pressure, FO has been hypothesized to have lower fouling propensity than pressure driven membrane processes. Membrane fouling has significant impact on the operational sustainability and economics of the process. This study examines the possible contributing factors to the slo...
© 2020 Elsevier Ltd The forward osmosis-reverse osmosis (FO-RO) hybrid process has been extensively ...
Reverse osmosis (RO) can provide ultra pure water but is not an ideal process as high pressure is re...
Forward Osmosis (FO), a natural osmotically driven process, is attracting increasing interest for it...
Forward osmosis (FO) membrane is a type of membrane driven by osmotic pressure difference, which own...
Interest in forward osmosis (FO) research has rapidly increased in the last decade due to problems o...
Interest in forward osmosis (FO) research has rapidly increased in the last decade due to problems o...
This study evaluates the influence of some of the major factors affecting the performances of forwar...
The performance of a forward osmosis (FO) system may be characterised by the assessment parameters: ...
Recently, forward osmosis (FO) has attracted growing attention in many potential applications such a...
Forward osmosis (FO) as an emerging technology has been researched extensively over the past few dec...
© 2016 Institution of Chemical Engineers Fouling studies of forward osmosis (FO) were mostly conduct...
© 2017 Elsevier B.V. We investigated the possible underlying mechanism of the low fouling potential ...
It is widely recognised that as freshwater resources become more stressed, desalination will become ...
The fouling behavior of osmotically-driven forward osmosis (FO) is widely believed to be superior wi...
Recently, forward osmosis (FO) has attracted growing attention in many potential applications such a...
© 2020 Elsevier Ltd The forward osmosis-reverse osmosis (FO-RO) hybrid process has been extensively ...
Reverse osmosis (RO) can provide ultra pure water but is not an ideal process as high pressure is re...
Forward Osmosis (FO), a natural osmotically driven process, is attracting increasing interest for it...
Forward osmosis (FO) membrane is a type of membrane driven by osmotic pressure difference, which own...
Interest in forward osmosis (FO) research has rapidly increased in the last decade due to problems o...
Interest in forward osmosis (FO) research has rapidly increased in the last decade due to problems o...
This study evaluates the influence of some of the major factors affecting the performances of forwar...
The performance of a forward osmosis (FO) system may be characterised by the assessment parameters: ...
Recently, forward osmosis (FO) has attracted growing attention in many potential applications such a...
Forward osmosis (FO) as an emerging technology has been researched extensively over the past few dec...
© 2016 Institution of Chemical Engineers Fouling studies of forward osmosis (FO) were mostly conduct...
© 2017 Elsevier B.V. We investigated the possible underlying mechanism of the low fouling potential ...
It is widely recognised that as freshwater resources become more stressed, desalination will become ...
The fouling behavior of osmotically-driven forward osmosis (FO) is widely believed to be superior wi...
Recently, forward osmosis (FO) has attracted growing attention in many potential applications such a...
© 2020 Elsevier Ltd The forward osmosis-reverse osmosis (FO-RO) hybrid process has been extensively ...
Reverse osmosis (RO) can provide ultra pure water but is not an ideal process as high pressure is re...
Forward Osmosis (FO), a natural osmotically driven process, is attracting increasing interest for it...