CVT-2009-09   BibTeX

@INPROCEEDINGS{CVT-2009-09,
AUTHOR = {S. B\"{u}tehorn and J. Kochan and C. N. Koh and T. Wintgens and D. Volmering and K. Vossenkaul and T. Melin},
TITLE = {{ASSESSMENT PRINCIPLES FOR MEMBRANE AND MEMBRANE MODULE DEVELOPMENT: A CASE STUDY}},
BOOKTITLE = {{Final MBR-Network Workshop - Salient outcomes of the European R{\&}D projects on MBR technology}},
editor = {Boris Lesjean, TorOve Leiknes},
YEAR = {2009},
Publisher = {KompetenzZentrum Wasser Berlin GmbH},
volume = {},
number = {},
pages = {49-50},
month = {},
note = {},
abstract = {Membrane bioreactor (MBR) processes are affected by a number of parameters such as membrane fouling, hydrodynamic conditions and membrane module design. While the fouling propensity is linked to both biological characteristics of the activated sludge and characteristics of the membrane, hydraulic conditions and the module design are influencing the formation and removal of the layer of deposited matter (i.e. the cake layer). Therefore, efforts have been made within EUROMBRA WP 2 },
keywords = {membrane characterisation, surface modification, cake layer formation, (computational) fluid dynamics},
}



Steffen Bütehorn, J. Kochan, C. N. Koh, Thomas Wintgens, D. Volmering, K. Vossenkaul, Thomas Melin:

ASSESSMENT PRINCIPLES FOR MEMBRANE AND MEMBRANE MODULE DEVELOPMENT: A CASE STUDY

In: Boris Lesjean, TorOve Leiknes (Eds.): Final MBR-Network Workshop - Salient outcomes of the European R&D projects on MBR technology, 49-50


Abstract:
Membrane bioreactor (MBR) processes are affected by a number of parameters such as membrane fouling, hydrodynamic conditions and membrane module design. While the fouling propensity is linked to both biological characteristics of the activated sludge and characteristics of the membrane, hydraulic conditions and the module design are influencing the formation and removal of the layer of deposited matter (i.e. the cake layer). Therefore, efforts have been made within EUROMBRA WP 2


Keywords:
membrane characterisation, surface modification, cake layer formation, (computational) fluid dynamics


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