Angelica Liponi scite author profile

In the last years, an increasing number of countries has been affected by water shortage. Seawater desalination driven by solar energy, which is usually available in arid regions, might be a solution to satisfy the freshwater demand. In this study, the feasibility of a stand-alone multi-effect desalination (MED) plant driven by solar energy for an isolated community was studied. The system was made up of a solar field, a MED unit, and a thermal storage that mitigated solar energy fluctuations. Simulations with different top brine temperature and inclination and number of the solar panels were carried out in Matlab and Aspen Plus on an hourly basis by considering one typical meteorological year for ambient temperature and solar radiation. Two different sources of electrical energy were considered: A photovoltaic (PV) field and a diesel generator. The results were compared from an energetic and economic point of view, by considering the adoption of plastic as a material for MED heat exchangers. The maximum water production was obtained with December as the design month. Polytetrafluoroethylene heat exchangers allowed the cost of water to be reduced up to 9.5% compared to conventional exchangers. The lowest cost of water (7.09 $/m3) was obtained with September as the design month and a tilt angle of 45° with the PV field as the electrical power source.

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Impact of wind speed distribution and management strategy on hydrogen production from wind energy

Liponi

Frate

Baccioli

et al. 2022

Energy

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Hybridization of an internal combustion engine with a molten carbonate fuel cell for marine applications

et al. 2021

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Angelica Liponi

Multi-effect distillation plants for small-scale seawater desalination: thermodynamic and economic improvement

Seawater desalination through reverse osmosis driven by ocean thermal energy conversion plant: Thermodynamic and economic feasibility

Small-Scale Desalination Plant Driven by Solar Energy for Isolated Communities

Impact of wind speed distribution and management strategy on hydrogen production from wind energy

Hybridization of an internal combustion engine with a molten carbonate fuel cell for marine applications

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