Conference paper
Fouling Characterization of Forward Osmosis Biomimetic Aquaporin Membranes Used for Water Recovery from Municipal Wastewater
Generally more than 99.93% of municipal wastewater is composed of water, therefore water recovery can alleviate global water stress which currently exists. Traditional ways to extract water from wastewater by the use of membrane bioreactors combined with reverse osmosis (RO), or micro/ultrafiltration coupled with RO and sand filtration, or advanced oxidation process require high energy.
Contrary to pressure driven membrane processes, forward osmosis (FO) offers advantages such as no need of high hydraulic pressure, reduced fouling and simple cleaning. Even though fouling of FO membranes is less severe compared to other pressure driven membrane processes, some fouling can occur. This entails that by reducing fouling, increased FO membrane performance can be expected, thus increasing the economic viability of FO processes.
Since various types of fouling might occur in membrane systems such as inorganic, organic, and biological fouling, membrane characterization is not a trivial task. The aim of this work is to characterize fouling of FO biomimetic aquaporin membranes during water recovery from municipal wastewater. Membrane fouling was characterized using Scanning Electron Microscopy, X-ray Dispersive Spectrometry, Fourier Transform Infrared Spectrometry, Inductively Coupled Plasma Optical Emission Spectrometry, Ion chromatography, zeta potential, and contact angle measurements.
Our preliminary experimental results indicate that FO membrane fouling is dominated by organic fouling caused by adsorption and deposition of organic matter (mainly proteins and carbohydrates) in combination with biofouling and inorganic scaling. This can provide understanding of how fouling can be mitigated by considering various feed pretreatment and cleaning methods.
Language: | English |
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Year: | 2015 |
Proceedings: | International Conference on Emerging Water Desalination Technologies in Municipal and Industrial Applications |
Types: | Conference paper |
ORCIDs: | Zarebska, Agata and Hélix-Nielsen, Claus |