System Design and Optimization of High Temperature Nuclear Reactor and Desalination Coupling for Remote Areas

Luthfi, Faikar Achmad and Widiputri, Diah Indriani and Setiadi, Topan (2020) System Design and Optimization of High Temperature Nuclear Reactor and Desalination Coupling for Remote Areas. Bachelor thesis, Swiss German University.

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Abstract

Water is one of the basic necessities for people, since water demands keep increasing over the years a way to obtain more water is needed. One of the ways to obtain clean water is desalination which purify sea water by heating it in a distillation process to evaporate clean water. The energy that is needed for the desalination will be supplied from high temperature nuclear reactor which is can supply a large amount energy needed for the desalination process. The HTGR-MED coupling design is aimed as one of the solutions to electricity and clean water demand in remote areas that is competitive with small scale solar desalination. The design conducted based on considerations of DEEP5.1 program which is also the program that is being used for economic evaluation, and PEBBED6 software was used for HTGR design. with the main parameter of water production capacity and water costs of clean. The result of the design, from 10MWt HTGR reactor, 1598 m3 /day of water can be produced with the water priced at 6.85$/m3 and GOR value of 5.86. the coupling system design is found to be competitive compared to solar desalination however the thermal efficiency of this design is lower than other thermal desalination process.

Item Type: Thesis (Bachelor)
Uncontrolled Keywords: Nuclear; Desalination; System Design
Subjects: T Technology > TJ Mechanical engineering and machinery > TJ807 Renewable energy sources
T Technology > TK Electrical engineering. Electronics Nuclear engineering
Divisions: Faculty of Life Sciences and Technology > Department of Sustainable and Energy Environment
Depositing User: Faisal Ifzaldi
Date Deposited: 02 Nov 2020 14:10
Last Modified: 02 Nov 2020 14:10
URI: http://repository.sgu.ac.id/id/eprint/1946

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