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Renewable energy powered membrane technology: The effect of intermittent operation on a wind-powered membrane system for brackish water desalination

Renewable energy powered membrane technology: The effect of intermittent operation on a wind-powered membrane system for brackish water desalination
Autor:

Park, G. / Schäfer, A. / Richards, B. (2012)

Quelle:

Water Science & Technology 65 (2012), 5, 867-874

Datum: 2012

Park, G. / Schäfer, A. / Richards, B. (2012): „Renewable energy powered membrane technology: The effect of intermittent operation on a wind-powered membrane system for brackish water desalination“. In: Water Science & Technology 65 (2012), 5, 867-874

Abstract

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Renewable energy powered membrane systems that are directly-connected must take account of both the inherent fluctuations and the intermittency of the energy resource. In order to determine the effect of intermittent operation, a membrane system was tested with variables of (i) amplitude from 60 to 300 Wand (ii) length of time with no power from 0.5 to 3 min.

This was performed over one hour periods with six on/off cycles to simulate the system operating under intermittent operation for short periods of time when directly-connected to a small wind turbine. The setup used a Filmtec BW30-4040 brackish water reverse osmosis membrane with feed waters of 2,750 mg/L and 5,500 mg/L NaCl.

The results showed that the membrane system produced potable water under the majority of intermittency experiments performed. There was a relatively large increase in the average salt concentration of the permeate, especially when the system was off for shorter periods of time (0.5-1 min). Longer periods of no power (1-3 min) did not have as significant an effect on the average water quality.

This is important when the need for energy buffering or short term storage is considered for these systems as it shows the potential for improving the overall flux and water quality using temporary energy storage.