Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Molten Salt Reactors
View through CrossRef
<p><br></p>
<div>
<table>
<tr>
<td>
<p>Molten Salt Reactors</p>
</td>
</tr>
</table>
</div>
<br>
<div>
<table>
<tr>
<td>
<p>© Thomas J. Dolan, Member, IEEE 2021</p>
</td>
</tr>
</table>
</div>
<br>
<p><i>Abstract</i>— Nuclear power is advancing
slowly because of public concerns about nuclear accidents, radioactive waste,
fuel supply, cost, and nuclear proliferation. The development of molten salt
reactors could alleviate most of these concerns and prevent water-cooled
reactor accidents like those at Three Mile Island, Chernobyl, and Fukushima.
The purpose of this article is to provide information about the potential advantages
and problems of molten salt reactors. The coolants could be either <i>fluorides</i>
or <i>chlorides</i>, operated above their melting temperatures, to avoid
solidification, and well below their boiling temperatures, to prevent
evaporation losses. “Fast” reactors use energetic fission neutrons, while
“thermal” reactors use graphite to slow the neutrons down to thermal energies. We
describe four reactor types: solid fuel thermal, liquid fuel thermal, liquid
fuel fast, and “stable salt” fast reactors (liquid fuel in tubes). We discuss load
following, reactor design projects, and development problems. Liquid fuel
reactors will require a chemical processing plant to adjust fissile fuel
inventory, fission products, actinides, and corrosivity in a hot, highly-radioactive
environment. </p>
Title: Molten Salt Reactors
Description:
<p><br></p>
<div>
<table>
<tr>
<td>
<p>Molten Salt Reactors</p>
</td>
</tr>
</table>
</div>
<br>
<div>
<table>
<tr>
<td>
<p>© Thomas J.
Dolan, Member, IEEE 2021</p>
</td>
</tr>
</table>
</div>
<br>
<p><i>Abstract</i>— Nuclear power is advancing
slowly because of public concerns about nuclear accidents, radioactive waste,
fuel supply, cost, and nuclear proliferation.
The development of molten salt
reactors could alleviate most of these concerns and prevent water-cooled
reactor accidents like those at Three Mile Island, Chernobyl, and Fukushima.
The purpose of this article is to provide information about the potential advantages
and problems of molten salt reactors.
The coolants could be either <i>fluorides</i>
or <i>chlorides</i>, operated above their melting temperatures, to avoid
solidification, and well below their boiling temperatures, to prevent
evaporation losses.
“Fast” reactors use energetic fission neutrons, while
“thermal” reactors use graphite to slow the neutrons down to thermal energies.
We
describe four reactor types: solid fuel thermal, liquid fuel thermal, liquid
fuel fast, and “stable salt” fast reactors (liquid fuel in tubes).
We discuss load
following, reactor design projects, and development problems.
Liquid fuel
reactors will require a chemical processing plant to adjust fissile fuel
inventory, fission products, actinides, and corrosivity in a hot, highly-radioactive
environment.
</p>.
Related Results
Manufacturing Process of Fuel Salt Discharge Tank for 2Mwt Liquid Thorium Based Molten Salt Reactor
Manufacturing Process of Fuel Salt Discharge Tank for 2Mwt Liquid Thorium Based Molten Salt Reactor
Abstract
At present, the research on Thorium Based Molten Salt Reactor (TMSR) mainly focuses on molten salt-molten salt heat exchanger, molten salt-air heat exchange...
Deformation of Allochthonous Salt and Evolution of Related Salt-Structural Systems, Eastern Louisiana Gulf Coast
Deformation of Allochthonous Salt and Evolution of Related Salt-Structural Systems, Eastern Louisiana Gulf Coast
Abstract
Salt tectonics in the northern Gulf of Mexico involves both vertical diapirism and lateral silling or flow of salt into wings and tablets (sheets). Combi...
Towards Electroanalytical Measurements in the Elemental Soup of Molten Salts Bearing Nuclear Fuel
Towards Electroanalytical Measurements in the Elemental Soup of Molten Salts Bearing Nuclear Fuel
Molten salt mixtures containing nuclear fuel present a complex and aggressive environment for electroanalytical measurements. These types of molten salt mixtures may be found withi...
Thermal Anomalies Around Evolving Salt Sheets
Thermal Anomalies Around Evolving Salt Sheets
ABSTRACT
The thermal conductivity of salt is about a factor three larger than that of sediments at sediment surface temperatures. The increase of sedimentary ther...
The American Salt-Dome Problems in the Light of the Roumanian and German Salt Domes
The American Salt-Dome Problems in the Light of the Roumanian and German Salt Domes
Abstract
The American salt-dome problems are divisible into two parallel series, the one comprising problems of description, the other problems of theory. The soluti...
First Look-Ahead VSP Guided Salt Dome Island Exploration Well Drilling in the UAE
First Look-Ahead VSP Guided Salt Dome Island Exploration Well Drilling in the UAE
Abstract
An exploration well offshore UAE, which was the first of it's kind, was planned to be drilled from an island and within salt dome. Well planning was based o...
Salt Glacier and Composite Sediment-Salt Glacier Models for the Emplacement and Early Burial of Allochthonous Salt Sheets
Salt Glacier and Composite Sediment-Salt Glacier Models for the Emplacement and Early Burial of Allochthonous Salt Sheets
Abstract
Allochthonous salt sheets in the northern Gulf of Mexico were emplaced as extrusive “salt glaciers” at the sediment-water interface. Massive dissolution ...
Physiological mechanism of contrasting rice genotypes response to salt stress
Physiological mechanism of contrasting rice genotypes response to salt stress
Abstract
Background
Salinity is one of the major constraints to rice production. Salt sensitive and tolerant rice genotypes response large difference to salt stress. Howev...