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Dynamic Operation of Batch Reverse Osmosis and Batch Pressure Retarded Osmosis

Mingheng Li

2020Industrial & Engineering Chemistry Research37 citationsDOI

Abstract

Optimal control theory is applied to dynamic operation of batch reverse osmosis (RO) for seawater desalination and batch pressure retarded osmosis (PRO) for power generation. It is proved that the water flux should be constant during the entire operation in order to minimize specific energy consumption (SEC) in RO or to maximize specific energy production (SEP) in PRO. A dimensionless parameter γ = AmLpπ0tf/V0, similar to that used in continuous osmotic membrane processes, is proposed to characterize the energy performance. While the SEC in RO is a monotonic function of recovery and γ, the SEP in PRO is solely a monotonic function of γ. It is shown that batch RO/PRO excels continuous RO/PRO because it mitigates the spatial variation of flux in a long pressure vessel observed in the latter. The batch operation provides an elegant way to implement continuous multistage RO with interstage pumps and an energy recovery device as well as continuous multistage PRO with interstage turbines. Some trade-off between the energy efficiency and flux is deemed necessary. A preliminary cyclic diagram to operate the batch PRO is proposed.

Topics & Concepts

Reverse osmosisOsmotic powerDesalinationPressure-retarded osmosisProcess engineeringEnergy recoveryCondenser (optics)Osmotic pressureForward osmosisEnvironmental scienceControl theory (sociology)Computer scienceEnergy (signal processing)ChemistryMembraneMathematicsEngineeringPhysicsOpticsBiochemistryLight sourceArtificial intelligenceStatisticsControl (management)Membrane Separation TechnologiesMembrane-based Ion Separation TechniquesSolar-Powered Water Purification Methods
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