#TITLE_ALTERNATIVE#
Indonesia population is projected increase at 19.67% by the year of 2035 compared <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> to 2015. It means, the people in Indonesia will reach the number of 305,362,400...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/26622 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Indonesia population is projected increase at 19.67% by the year of 2035 compared <br />
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to 2015. It means, the people in Indonesia will reach the number of 305,362,400 <br />
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people. Indonesia will face various demographic challenges along with this event. <br />
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One of them is energy problem; population is rising, hence energy demand will rise <br />
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too. Fossil energy is the main energy source of Indonesia; from vehicles to electric <br />
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energy. In the other hand, if we look at Indonesia production of oils and natural <br />
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gases at 2015 compared to 2005, it is decreasing at 26.03% for oils and 0.33% at <br />
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natural gases. The worst thing is, by the year of 2035, Indonesia stockpile of oils <br />
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will completely run out if Indonesia did not make anew exploration. The point <br />
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of fact, Indonesia really needs a new alternative energy source to resolving this <br />
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problem. Nuclear energy is one option of this alternative energy that have a good <br />
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prospect to Indonesia. Besides the ratio of energy produced per fuel mass is very <br />
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high, nuclear fuel stockpiles still have a great number in earth crust. This thesis <br />
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will introduce Molten Salt Fast Reactor (MSFR) as power plant for alternative <br />
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energy. This reactor is classify as a fast spectrum neutron reactor and have some <br />
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start-up mechanism. This reactor is also developing in France. This thesis will be <br />
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using SRAC (Standard thermal Reactor Analysis Code System), which developed <br />
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by Japan, to compare 3 fuel con_gurations of MSFR, which is ThF4 + U233F4, <br />
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ThF4 + PuF3, and ThF4 + (TRU)F3 by calculate its neutronic aspect. E_ective <br />
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multiplication factor, conversion ratio, nuclide density, power density distribution, <br />
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Doppler coe_cient and e_ect of decreasing molten salt LiF will be analyzed. <br />
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