E.P. Hadjigeorgiou scite author profile

This work focused on enhancing the flux on hydrophobic polymeric membranes aimed for direct contact membrane distillation desalination (DCMD) process without compromising salt rejection efficiency. Successful coating of commercial porous poly-tetrafluoroethylene membranes with poly(vinyl alcohol) (PVA) was achieved by solution dipping followed by a cross-linking step. The modified membranes were evaluated for their performance in DCMD, in terms of water flux and salt rejection. A series of different PVA concentration dipping solutions were used, and the results indicated that there was an optimum concentration after which the membranes became hydrophilic and unsuitable for use in membrane distillation. Best performing membranes were achieved under the specific experimental conditions, water flux 12.2 L·m-2·h-1 [LMH] with a salt rejection of 99.9%. Compared to the pristine membrane, the flux was enhanced by a factor of 2.7. The results seemed to indicate that introducing hydrophilic characteristics in a certain amount to a hydrophobic membrane could significantly enhance the membrane distillation (MD) performance without compromising salt rejection.

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Robust active control against wind-induced structural vibrations

Stavroulakis

Marinova

Hadjigeorgiou

et al. 2006

Journal of Wind Engineering and Industrial Aerodynamics

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Robust H/sub 2/ vibration control of beams with piezoelectric sensors and actuators

Foutsitzi

Marinova²,

Hadjigeorgiou³

et al.

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This paper studies vibratior; control of a beam with bonded piezoelectric sens(irs and actuators. Basic equations for piezoelectric sensors and actuators are presentcd. The equation of motion for the beam structure is derived by using the Harnilton's principle. A robust H2 controller is designed. The numerical simulation shows that the vibration can bc significantly suppressed by the proposed controller.

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