Simultaneous Optimization of Size and Operation for Seawater Reverse Osmosis Network with Permeate Split and Interstage Permeate Split Designs

Abstract: Simultaneous optimization of size and operation for the seawater reverse osmosis (RO) system is proposed through a superstructurebased mixed-integer differential-algebraic programming approach. The influences of operating conditions on the performance of pumps, RO membrane, and the properties of seawater are considered. The permeate split (PS) design, interstage permeate split (ISPS) design, and on−off model could give more operability and cost saving. For constant feed conditions, nearly constant profiles of … Show more

“…The seawater-related industrial reverse osmosis (RO), which possesses lower energy requirements than conventional distillation-based desalination, is being developed rapidly to address water scarcity. − However, the power consumption of RO systems is considerably high owing to the seawater pressurization requirement . Therefore, the energy recovery device (ERD) that recovers energy from high-pressure brine rejected by the RO membrane and uses the energy to pressurize seawater plays an important role in the RO system. , There are two kinds of ERDs: isobaric and turbine.…”

Investigation of the Mixing Rate and Channel Volume Efficiency of a Self-Driven Rotary Energy Recovery Device in the Reverse Osmosis System

“…The seawater-related industrial reverse osmosis (RO), which possesses lower energy requirements than conventional distillation-based desalination, is being developed rapidly to address water scarcity. − However, the power consumption of RO systems is considerably high owing to the seawater pressurization requirement . Therefore, the energy recovery device (ERD) that recovers energy from high-pressure brine rejected by the RO membrane and uses the energy to pressurize seawater plays an important role in the RO system. , There are two kinds of ERDs: isobaric and turbine.…”

Investigation of the Mixing Rate and Channel Volume Efficiency of a Self-Driven Rotary Energy Recovery Device in the Reverse Osmosis System

Flexible design and operation of multi-stage reverse osmosis desalination process for producing different grades of water with maintenance and cleaning opportunity

Superstructure based optimization of reverse osmosis desalination systems fed by decarbonated high-pH seawater under boron restrictions