Design of Improved Multi Effect Desalination (MED)Plant to Increase the Heat Transfer and Reduce the Scaling, M.Sc. Thesis Sharif University of Technology ; Avami, Akram (Supervisor)
Abstract
There are different technologies for supplying water from alternative sources that meet different needs. In relation to thermal technologies such as multi-effect distillation, the highest water quality is obtained, there is no limit on the concentration of the incoming water, and there is the least need for maintenance. On the other hand, thermal technologies consume higher energy than membrane technologies. In this process, the better the heat transfer, the number of steps can be increased, and this means the production of more distilled water for the same amount of thermal energy. The distilled water layer on the surface of the heat exchanger has a high thermal resistance compared to the...
Cataloging briefDesign of Improved Multi Effect Desalination (MED)Plant to Increase the Heat Transfer and Reduce the Scaling, M.Sc. Thesis Sharif University of Technology ; Avami, Akram (Supervisor)
Abstract
There are different technologies for supplying water from alternative sources that meet different needs. In relation to thermal technologies such as multi-effect distillation, the highest water quality is obtained, there is no limit on the concentration of the incoming water, and there is the least need for maintenance. On the other hand, thermal technologies consume higher energy than membrane technologies. In this process, the better the heat transfer, the number of steps can be increased, and this means the production of more distilled water for the same amount of thermal energy. The distilled water layer on the surface of the heat exchanger has a high thermal resistance compared to the...
Find in contentBookmark |
|