THERMAL PERFORMANCE OF MULTI-EFFECT DESALINATION SYSTEM ENERGIZED BY PARABOLIC TROUGH CONCENTRATING SOLAR SYSTEM
Ahmed Yahia Youssef Abdel-Azim;
Abstract
The present work will be divided into two main parts numerical study and experimental work
these two parts will cover the modeling & sizing of Solar MED main components which
include MED 6 effects unit, steam generator and three ejectors. The three ejectors are used to
create the required vacuum within the MED unit. Second point for the numerical part is CFD
simulation for the flow inside the three ejectors, the simulation is carried on (ANSYS Fluent
18.2). The experimental part starts with manufacturing of Solar MED main components, then
installation of Solar MED plant and finally evaluation of the Solar MED plant thermal
these two parts will cover the modeling & sizing of Solar MED main components which
include MED 6 effects unit, steam generator and three ejectors. The three ejectors are used to
create the required vacuum within the MED unit. Second point for the numerical part is CFD
simulation for the flow inside the three ejectors, the simulation is carried on (ANSYS Fluent
18.2). The experimental part starts with manufacturing of Solar MED main components, then
installation of Solar MED plant and finally evaluation of the Solar MED plant thermal
Other data
| Title | THERMAL PERFORMANCE OF MULTI-EFFECT DESALINATION SYSTEM ENERGIZED BY PARABOLIC TROUGH CONCENTRATING SOLAR SYSTEM | Other Titles | الأداء الحراري لنظام تحلية المياه بالتقطير المتعدد المراحل باستخدام مركزات شمسية ذو القطع المكافئ لتوليد الطاقة | Authors | Ahmed Yahia Youssef Abdel-Azim | Issue Date | 2018 |
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