Article ID Journal Published Year Pages File Type
623732 Desalination 2013 5 Pages PDF
Abstract

•The dynamic behavior of desalination processes is broached.•The start-up operations are rather critical in desalination processes and the segregation of the main physical phenomena is required.•Depressurization of effects could easily lead to process instability.•General guidelines for start-up procedure are given.•The special focus is on geothermal-supplied plants.

This paper is related to the previous work (Manenti et al., “Parametric Simulation and Economic Assessment of Heat Integrated Geothermal Desalination Plant”, Desalination, 317, 193–205, 2013) and extends the steady-state simulation and process layout optimization by investigating the procedure to start up multi-effect distillation (MED) desalination plants. The operations involved in the startup procedure, such as seawater supply, energy supply and vacuum generation along the process are considered together with the status of controls to prevent any possible overlapping of these relevant aspects. Segregation of the operations is demonstrated to be essential to prevent any redundancy in the oscillatory behavior of process units that can easily lead to dangerous instabilities of the plant. Moreover, whenever geothermal sources are used for sustainable production of desalinated water, it is fundamental to account for some peculiarities such as certain limitations in controllability and operability of the geothermal source. General guidelines to start up desalination processes are provided; special attention is given to geothermal-supplied plants.

Graphical abstractFlowsheet of the dynamic simulation of geothermal MED desalination plant for start-up operations.Figure optionsDownload full-size imageDownload as PowerPoint slide

Related Topics
Physical Sciences and Engineering Chemical Engineering Filtration and Separation
Authors
, , ,