455190 Integrated Seawater Reverse Osmosis and Pressure Retarded Osmosis Processes for Sustainable Water and Energy Generation

Wednesday, November 16, 2016: 8:30 AM
Golden Gate 3 (Hilton San Francisco Union Square)
Chun Feng Wan and Tai-Shung Chung, Chemical and Biomolecular Engineering, National University of Singapore, Singapore, Singapore

Pressure retarded osmosis (PRO) is a promising technology to reduce the specific energy consumption of a seawater reverse osmosis (SWRO) plant. In this study, it is projected that 25.6-40.7 million kWh/day of energy can be recovered globally, if the brines from SWRO are used as the draw solution and diluted to the seawater level in a PRO system. Detailed integrated SWRO-PRO processes are developed in this study with the option to form a closed-loop SWRO-PRO process that can substantially reduce the pretreatment cost of desalination. The governing mathematical models that describe both the transport phenomena on a module level and the energy flow on a system level are developed to evaluate the performances of the SWRO-PRO processes. The model aims to investigate the performance of the hollow fibers as dilution occurs and provides guidelines on hollow fiber module design and process operation. Determining the dilution factor and the corresponding operating pressure of PRO is the key to optimize the integrated process. The specific energy consumptions of three SWRO-involved processes; namely, (1) SWRO without a pressure exchanger, (2) SWRO with a pressure exchanger, and (3) SWRO with pressure exchangers and PRO are compared. The results show that the specific energy consumptions for the above three processes are 5.51, 1.79 and 1.08 kWh/(m3 of desalinated water) for a 25% recovery SWRO plant; and 4.13, 2.27 and 1.14 kWh/(m3 of desalinated water) for a 50% recovery SWRO plant, using either freshwater or wastewater as the feed solution in PRO.

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See more of this Session: Membranes for Forward Osmosis and Pressure Retarded Osmosis
See more of this Group/Topical: Separations Division