References
- S. Loeb, Osmotic power plants, Science, 189 (1975) 654–655.
- B.E. Logan, M. Elimelech, Membrane-based processes for
sustainable power generation using water, Nature, 488 (2012)
313–319.
- S. Loeb, Production of energy from concentrated brines by
pressure-retarded osmosis: I. Preliminary technical and
economic correlations, J. Membr. Sci., 1 (1976) 49–63.
- S. Loeb, Large-scale power production by pressure-retarded
osmosis, using river water and sea water passing through spiral
modules, Desalination, 143 (2002) 115–122.
- G.Z. Ramon, B.J. Feinberg, E.M. Hoek, Membrane-based
production of salinity-gradient power, Energy Environ. Sci., 4
(2011) 4423–4434.
- E. Bar-Zeev, F. Perreault, A.P. Straub, M. Elimelech, Impaired
performance of pressure-retarded osmosis due to irreversible
biofouling, Environ. Sci. Technol., 49 (2015) 13050–13058.
- D.I. Kim, J. Kim, H.K. Shon, S. Hong, Pressure retarded osmosis
(PRO) for integrating seawater desalination and wastewater
reclamation: energy consumption and fouling, J. Membr. Sci.,
483 (2015) 34–41.
- N.Y. Yip, M. Elimelech, Influence of natural organic matter
fouling and osmotic backwash on pressure retarded osmosis
energy production from natural salinity gradients, Environ. Sci.
Technol., 47 (2013) 12607–12616.
- W. Guo, H.-H. Ngo, J. Li, A mini-review on membrane fouling,
Bioresour. Technol., 122 (2012) 27–34.
- H.-C. Flemming, Reverse osmosis membrane biofouling, Exp.
Therm. Fluid Sci., 14 (1997) 382–391.
- H.-C. Flemming, G. Schaule, T. Griebe, J. Schmitt, A.
Tamachkiarowa, Biofouling—the Achilles heel of membrane
processes, Desalination, 113 (1997) 215–225.
- N. Prihasto, Q.-F. Liu, S.-H. Kim, Pre-treatment strategies for
seawater desalination by reverse osmosis system, Desalination,
249 (2009) 308–316.
- A. Sagiv, R. Semiat, Backwash of RO spiral wound membranes,
Desalination, 179 (2005) 1–9.
- S. Siavash Madaeni, T. Mohamamdi, M. Kazemi Moghadam,
Chemical cleaning of reverse osmosis membranes, Desalination,
134 (2001) 77–82.
- S.S. Madaeni, S. Samieirad, Chemical cleaning of reverse
osmosis membrane fouled by wastewater, Desalination, 257
(2010) 80–86.
- W.S. Ang, S. Lee, M. Elimelech, Chemical and physical aspects
of cleaning of organic-fouled reverse osmosis membranes, J.
Membr. Sci., 272 (2006) 198–210.
- A.P. Straub, A. Deshmukh, M. Elimelech, Pressure-retarded
osmosis for power generation from salinity gradients: is it
viable? Energy Environ. Sci., 9 (2016) 31–48.
- M. Herzberg, M. Elimelech, Biofouling of Reverse Osmosis
Membranes: Role of Biofilm Enhanced Osmotic Pressure, H.C.
Flemming, G.G. Geesey, Eds., Biofouling and Biocorrosion
in Industrial Water Systems, Springer Publishing, Berlin,
Germany, 1991, pp. 81–111.
- A. Matin, Z. Khan, S.M.J. Zaidi, M.C. Boyce, Biofouling
in reverse osmosis membranes for seawater desalination:
phenomena and prevention, Desalination, 281 (2011) 1–16.
- S. Tsuneda, H. Aikawa, H. Hayashi, A. Yuasa, A. Hirata,
Extracellular polymeric substances responsible for bacterial
adhesion onto solid surface, FEMS Microbiol. Lett., 223 (2003)
287–292.
- H. Ridgway, J. Safarik, Biofouling of Reverse Osmosis
Membranes, Biofouling and Biocorrosion in Industrial Water
Systems, Springer, 1991, pp. 81–111.
- T.-S. Kim, H.-D. Park, Lauroyl arginate ethyl: an effective
antibiofouling agent applicable for reverse osmosis processes
producing potable water, J. Membr. Sci., 507 (2016) 24–33.
- J.R. Goff, P. Luner, Measurement of colloid mobility by laser
Doppler electrophoresis: the effect of salt concentration on
particle mobility, J. Colloid Interface Sci., 99 (1984) 468–483.
- T.-S. Kim, H.-D. Park, Tributyl tetradecyl phosphonium
chloride for biofouling control in reverse osmosis processes,
Desalination, 372 (2015) 39–46.
- J.W. Costerton, P.S. Stewart, E.P. Greenberg, Bacterial biofilms:
a common cause of persistent infections, Science, 284 (1999)
1318–1322.
- A. Subramani, E.M.V. Hoek, Direct observation of initial
microbial deposition onto reverse osmosis and nanofiltration
membranes, J. Membr. Sci., 319 (2008) 111–125.
- J. Yang, R. Bos, G.F. Belder, J. Engel, H.J. Busscher, Deposition
of oral bacteria and polystyrene particles to quartz and dental
enamel in a parallel plate and stagnation point flow chamber, J.
Colloid Interface Sci., 220 (1999) 410–418.
- K. Marshall, R. Stout, R. Mitchell, Mechanism of the initial events
in the sorption of marine bacteria to surfaces, Microbiology, 68
(1971) 337–348.
- J. Palmer, S. Flint, J. Brooks, Bacterial cell attachment, the
beginning of a biofilm, J. Ind. Microbiol. Biotechnol., 34 (2007)
577–588.
- A.A. Myint, W. Lee, S. Mun, C.H. Ahn, S. Lee, J. Yoon, Influence
of membrane surface properties on the behavior of initial
bacterial adhesion and biofilm development onto nanofiltration
membranes, Biofouling, 26 (2010) 313–321.
- B. Tansel, J. Sager, J. Garland, S. Xu, L. Levine, P. Bisbee,
Biofouling affinity of membrane surfaces under quiescent
conditions, Desalination, 227 (2008) 264–273.
- W. Lee, C.H. Ahn, S. Hong, S. Kim, S. Lee, Y. Baek, J. Yoon,
Evaluation of surface properties of reverse osmosis membranes
on the initial biofouling stages under no filtration condition, J.
Membr. Sci., 351 (2010) 112–122.
- M. Van Loosdrecht, J. Lyklema, W. Norde, G. Schraa, A. Zehnder,
The role of bacterial cell wall hydrophobicity in adhesion, Appl.
Environ. Microbiol., 53 (1987) 1893–1897.
- S. Parkar, S. Flint, J. Palmer, J. Brooks, Factors influencing
attachment of thermophilic bacilli to stainless steel, J. Appl.
Microbiol., 90 (2001) 901–908.
- P. Parment, C. Svanborg-Ede’n, M. Chaknis, A. Sawant, L.
Hagberg, L. Wilson, D. Ahearn, Hemagglutination (fimbriae)
and hydrophobicity in adherence of Serratia marcescens to
urinary tract epithelium and contact lenses, Curr. Microbiol., 25
(1992) 113–118.