This work presents the adaptation of a simple model to evaluate the physical performance of Multi-Effect-Distillation (MED) forward feed plants and its validation by comparing the results with real data. It is intended to use this model in the future in conjunction with simulation tools for Concentrated Solar Thermal Power (CSP) plants. The convergence criterion is based on the maximum difference between the heat transfer areas. The major internal thermodynamic losses and losses to the surroundings are assumed constant for all effects. The real data was obtained using the experimental MED plant at Plataforma Solar de Almeria (PSA) under steady-state operation near design conditions. The results indicate that the model can be used to make a first analysis on these type of systems.
[1]
M. A. Marwan,et al.
Dynamic response of multi-effect evaporators
,
1997
.
[2]
Franz Trieb,et al.
Concentrating Solar Power for Seawater Desalination
,
2007
.
[3]
H. Ettouney,et al.
Fundamentals of Salt Water Desalination
,
2002
.
[4]
Julián Blanco,et al.
Modeling of the heat transfer of a solar multi-effect distillation plant at the Plataforma Solar de Almería
,
2011
.
[5]
J. Blanco,et al.
Parametric equations for the variables of a steady-state model of a multi-effect desalination plant
,
2013
.
[6]
S. Bingulac,et al.
Steady‐State Analysis of the Multiple Effect Evaporation Desalination Process
,
1998
.