الفهرس 
Synopsis about Cooling Systems and Power Generation in EgyptOnly 14 pages are availabe for public view
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Abstract
In terms of the importance of constructing Mega Electric Power Stations in Egypt, this research was initiated with the objective of enhancing mixing process by single port submerged diffuser. In order to achieve the research objective, a methodology was planned to encompass five stages (i.e. (Literature Review, Experimental, Numerical Modelling, Analytical and Inferential Investigations).
During the Literature Review, in the field of Single port submerged diffuser, was accumulated, studied, scrutinized and categorized into groups.
All through “Experimental investigation” 108 experiments were executed to enhance the single-port-submerged-diffuser) SPSD) efficiency, where a single-port-submerged-diffuser without any modification, single-port-submerged-diffuser with propeller (DWP) and a threaded single-port-submerged-diffuser were tested under variable parameters.
During “Numerical investigation”, the implemented model governing equations were investigated. In addition, the model was calibrated (i.e. in order to tune its parameters to produce similar results to measured values). Furthermore, the model was verified and runs were executed.
During the “Analytical investigation”, an analysis was achieved to investigate the impact of the different parameters (i.e. water depth ratio above the diffuser and Reynolds number ratio) on the thermal pollution.
During the “Inferential investigation”, conclusions were drawn and recommendations for Engineering Practice and future research were suggested.
The research designated that adding a propeller to the diffuser increase dilution of temperature and reduce mixing zone. In addition, the research signposted that increasing the propeller distance so as reduce the velocity increased the center-line temperature and increased mixing zone. Moreover, the research flagged out that making a thread at the outlet of the SPSD has no effect on mixing zone. Furthermore, the research confirmed that reducing the temperature ratio reduces the mixing zone.
Innovative about this research is prioritizing implementation of a free rotating propeller, as it reduces thermal pollution by enhancing mixing process.