Abstract
In this work, different backwash (BW) schemes were applied on identical hollow fiber (HF) membranes in a membrane bioreactor (MBR) treating municipal wastewater. The effect of BW duration (1 min, 3 min and 8 min) and water temperature (8 °C, 18 °C, 28 °C and 38 °C) on membrane fouling were investigated. Specifically, the transmembrane pressure (TMP) drop and the membrane permeability increase caused by the BW was investigated. Furthermore, the time required for the membrane to return to the state just before each BW experiment, was also examined. It was found that membranes presented better operating performance, as the BW temperature and the backwash duration were increased. Specifically, for 1 min backwash duration at the BW temperatures of 8 °C, 18 °C, 28 °C and 38 °C, TMP decreased by 7.1%, 8.7%, 11.2% and 14.2% respectively. For 8 min BW duration at 8 °C, 18 °C, 28 °C and 38 °C, TMP values decreased by 12%, 17.5%, 23.7% and 30.2% respectively. Increased BW water temperature and duration also improved the membrane permeability. Using higher BW water temperatures, more hours were required to return the membranes to the condition just before cleaning. The selected BW water temperatures did not adversely affect the permeate quality.
Highlights
Membrane bioreactor (MBR) systems are a mature technology for wastewater treatment.The importance of membrane technology, is growing in the field of environmental protection
The transmembrane pressure (TMP) decrease was calculated as a percentage decrease of the TMP value using the following equation (TMP before BW − TMP after BW )/ (TMP before BW − TMP clean membrane )
The membranes which were treated for 1min by BW water at 8 ◦ C resulted in a TMP decrease of about 7.1%
Summary
Membrane bioreactor (MBR) systems are a mature technology for wastewater treatment.The importance of membrane technology, is growing in the field of environmental protection. Membrane bioreactor (MBR) systems are a mature technology for wastewater treatment. In 2008, a 22.4% compound annual growth rate (CAGR) was predicted for the world MBR market for the period 2008–2018 [1,2]. The global MBR market was worth $838.2 million in 2011 and is expected to witness positive growth and revenue sales through 2018 [3]. Membrane fouling is a severe problem and affects operating cost due to the frequent membrane cleaning and the increased aeration demands [7,8]. To address the problem of membrane fouling, several measures are undertaken, including, wastewater pretreatment, hydraulic and chemical cleaning of the membranes, membrane modification and operation under conservative fluxes [11]
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