Evaluation of sodium lignin sulfonate as draw solute in forward osmosis for desert restoration

Sodium lignin sulfonate (NaLS), an abundant waste product of paper manufacturing, can be used in desert restoration. Combined with water and applied on arid land, NaLS has been shown to stabilize sand and provide a medium for plant growth. Here, we demonstrate that NaLS is an efficient draw solute i...

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Published inJournal of membrane science Vol. 453; pp. 463 - 470
Main Authors Duan, Jintang, Litwiller, Eric, Choi, Seung-Hak, Pinnau, Ingo
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.03.2014
Elsevier
Subjects
arid lands
artificial membranes
Chemistry
Colloidal state and disperse state
Desert restoration
Deserts
Draw solute
Exact sciences and technology
fertilizers
Forward osmosis
freezing point
General and physical chemistry
lignosulfonates
manufacturing
Membranes
Osmosis
osmotic pressure
papermaking
plant growth
Polyelectrolyte
Restoration
Salinity
Sand
Sodium
Sodium lignin sulfonate
solutes
Sulfonates
wastes
Polyelectrolyte
Draw solute
Forward osmosis
Sodium lignin sulfonate
Desert restoration
Lignin
Membrane
Osmosis
Solutes
Sulfonate
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Abstract Sodium lignin sulfonate (NaLS), an abundant waste product of paper manufacturing, can be used in desert restoration. Combined with water and applied on arid land, NaLS has been shown to stabilize sand and provide a medium for plant growth. Here, we demonstrate that NaLS is an efficient draw solute in forward osmosis (FO) to extract water from impaired sources. The osmotic pressure of a 600gNaLS/kg water solution is 78bar (7.8 MPa) as measured by freezing point depression. The FO performance using NaLS draw solute was evaluated with commercial FO membranes under various test conditions. The effects of draw solute concentration, feed salinity and membrane orientation were systematically investigated. Potential ways to optimize the process, e.g. combining fertilizer draw solutes and NaLS, are proposed. [Display omitted] •A novel forward osmosis draw solute, sodium lignin sulfonate (NaLS), is proposed.•NaLS can generate high osmotic pressure.•Commercial FO membranes yield reasonable performance with NaLS in FO tests.
AbstractList Sodium lignin sulfonate (NaLS), an abundant waste product of paper manufacturing, can be used in desert restoration. Combined with water and applied on arid land, NaLS has been shown to stabilize sand and provide a medium for plant growth. Here, we demonstrate that NaLS is an efficient draw solute in forward osmosis (FO) to extract water from impaired sources. The osmotic pressure of a 600gNaLS/kg water solution is 78bar (7.8 MPa) as measured by freezing point depression. The FO performance using NaLS draw solute was evaluated with commercial FO membranes under various test conditions. The effects of draw solute concentration, feed salinity and membrane orientation were systematically investigated. Potential ways to optimize the process, e.g. combining fertilizer draw solutes and NaLS, are proposed.
Sodium lignin sulfonate (NaLS), an abundant waste product of paper manufacturing, can be used in desert restoration. Combined with water and applied on arid land, NaLS has been shown to stabilize sand and provide a medium for plant growth. Here, we demonstrate that NaLS is an efficient draw solute in forward osmosis (FO) to extract water from impaired sources. The osmotic pressure of a 600 g NaLS/kg water solution is 78 bar (7.8 MPa) as measured by freezing point depression. The FO performance using NaLS draw solute was evaluated with commercial FO membranes under various test conditions. The effects of draw solute concentration, feed salinity and membrane orientation were systematically investigated. Potential ways to optimize the process, e.g. combining fertilizer draw solutes and NaLS, are proposed.
Sodium lignin sulfonate (NaLS), an abundant waste product of paper manufacturing, can be used in desert restoration. Combined with water and applied on arid land, NaLS has been shown to stabilize sand and provide a medium for plant growth. Here, we demonstrate that NaLS is an efficient draw solute in forward osmosis (FO) to extract water from impaired sources. The osmotic pressure of a 600gNaLS/kg water solution is 78bar (7.8 MPa) as measured by freezing point depression. The FO performance using NaLS draw solute was evaluated with commercial FO membranes under various test conditions. The effects of draw solute concentration, feed salinity and membrane orientation were systematically investigated. Potential ways to optimize the process, e.g. combining fertilizer draw solutes and NaLS, are proposed. [Display omitted] •A novel forward osmosis draw solute, sodium lignin sulfonate (NaLS), is proposed.•NaLS can generate high osmotic pressure.•Commercial FO membranes yield reasonable performance with NaLS in FO tests.
Author Duan, Jintang
Choi, Seung-Hak
Pinnau, Ingo
Litwiller, Eric
Author_xml – sequence: 1
  givenname: Jintang
  surname: Duan
  fullname: Duan, Jintang
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  givenname: Eric
  surname: Litwiller
  fullname: Litwiller, Eric
– sequence: 3
  givenname: Seung-Hak
  orcidid: 0000-0002-1869-4480
  surname: Choi
  fullname: Choi, Seung-Hak
– sequence: 4
  givenname: Ingo
  surname: Pinnau
  fullname: Pinnau, Ingo
  email: ingo.pinnau@kaust.edu.sa
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Keywords Polyelectrolyte
Draw solute
Forward osmosis
Sodium lignin sulfonate
Desert restoration
Lignin
Membrane
Osmosis
Solutes
Sulfonate
Language English
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Snippet Sodium lignin sulfonate (NaLS), an abundant waste product of paper manufacturing, can be used in desert restoration. Combined with water and applied on arid...
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SubjectTerms arid lands
artificial membranes
Chemistry
Colloidal state and disperse state
Desert restoration
Deserts
Draw solute
Exact sciences and technology
fertilizers
Forward osmosis
freezing point
General and physical chemistry
lignosulfonates
manufacturing
Membranes
Osmosis
osmotic pressure
papermaking
plant growth
Polyelectrolyte
Restoration
Salinity
Sand
Sodium
Sodium lignin sulfonate
solutes
Sulfonates
wastes
Title Evaluation of sodium lignin sulfonate as draw solute in forward osmosis for desert restoration
URI https://dx.doi.org/10.1016/j.memsci.2013.11.029
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