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- Page 6 and 7: padres Macario y Marisa, les agrade
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- Page 15 and 16: Objetivos y resumensatisfacer los c
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Chapter 1(2010), who operated with
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Chapter 1fluxes typically reported,
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Chapter 1into the UASB with a ratio
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Chapter 1Brepols, C. 2011. Operatin
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Chapter 1Kimura, K., Yamato, N., Ya
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Chapter 1Skouteris, G., Hermosilla,
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Chapter 2Material and methodsSummar
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Materials and methodsb) Sulphuric a
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C (mg·L -1 )Materials and methodsc
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N-NH 4+ (mg·L-1 )Materials and met
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Materials and methodsInterferencesC
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Materials and methods2.1.3. Phospho
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Materials and methods2.1.4. Other c
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Materials and methodsoperation beca
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Materials and methodseq. 2.7where:P
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Materials and methods2.4.4. Extrace
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Protein (mg·L -1 )Materials and me
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Materials and methodsIntensive Chem
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Chapter 3Tertiary membrane filtrati
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Tertiary membrane filtration of ind
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Tertiary membrane filtration of ind
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Tertiary membrane filtration of ind
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OLR (kgCOD·m -3·d -1 )Tertiary me
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Permeate COD (mg·L -1 )SBR effluen
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MLVSS (g·L -1 )MLVSS (g·L -1 )Ter
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Permeability (L·m -2·h -1·bar -1
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Tertiary membrane filtration of ind
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Permeability (L·m -2·h -1·bar -1
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Tertiary membrane filtration of ind
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Tertiary membrane filtration of ind
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Chapter 4Combining UASB and MBR for
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Combining UASB and MBR for the trea
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Combining UASB and MBR for the trea
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Combining UASB and MBR for the trea
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Combining UASB and MBR for the trea
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Combining UASB and MBR for the trea
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Combining UASB and MBR for the trea
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Flux (L·m -2·h -1 )Permeability (
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TMP (kPa)Combining UASB and MBR for
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Combining UASB and MBR for the trea
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Chapter 5Impact of methanogenic pre
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Impact of a methanogenic pre-treatm
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Impact of a methanogenic pre-treatm
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Impact of a methanogenic pre-treatm
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Permeability (L·m -2·h -1·bar -1
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Impact of a methanogenic pre-treatm
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Impact of a methanogenic pre-treatm
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colloidal BPC (mg·L -1 )Impact of
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Impact of a methanogenic pre-treatm
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Impact of a methanogenic pre-treatm
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Chapter 66.1. IntroductionAnaerobic
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Chapter 6Membrane bioreactors (MBR)
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Chapter 6Table 6.1. Main operationa
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Chapter 6mL of suspended biomass (2
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Chapter 6where subindex i correspon
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Chapter 6Figure 6.2. Evolution of (
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Chapter 6concentration promoted the
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mgN·gMLVSSmgCH4·gMLVSSmgO2·gMLVS
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N-NO 3-(mg·L -1 )N-NO 3-(mg·L -1
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Permeability (L·m -2·h -1·bar -1
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Chapter 6Hatamoto, M., Yamamoto, H.
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Chapter 6Wu, Ming L. 2012. Cell bio
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Chapter 77.1. IntroductionSubmerged
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Chapter 7GAC did not adsorb VFA, wh
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Chapter 7Table 7.1. Characteristics
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Chapter 7organic acids (OA) concent
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g DOC adsorbed / g PACChapter 77.4.
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R col (m -1 )Chapter 7Filterability
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Chapter 7In this study it was obser
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Chapter 7cBPC concentrations. Regar
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Chapter 7measured permeability of t
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Chapter 7Bousbia, N., Vian, M.A., F
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Chapter 7Rosenberger, S., Krüger,
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ConclusionesLas principales conclus
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Conclusionestratamiento de estas ag
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ConclusiónsAs principais conclusi
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Conclusiónseliminacións teóricas
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ConclusionsThe main conclusions of
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Conclusionsshould be developed in o
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List of symbols1. AcronymsAnMBRANME
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List of symbolsSBRSMPSequencing Bat
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List of publications1. Pending pate
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List of publicationsmeeting on Envi