DESIGN OF THE ARGONNE LOW POWER REACTOR (ALPR)

A description is given of the design of a prototype "packaged" nuclear power plant. The purpose of the plant is to alleviate fuel oil logistics and storage problems posed by remote auxiliary DEW Line radar statibns north of the Arctic Circle. The ALPR (redesignated SL-1) is a 3 Mwt, hetero...

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Bibliographic Details
Main Authors: Grant, N.R., Hamer, E.E., Hooker, H.H., Jorgensen, G.L., Kann, W.J., Lipinski, W.C., Milak, G.C., Rossin, A.D., Shaftman, D.H., Smaardyk, A., Treshow, M.
Language:unknown
Published: 2016
Subjects:
REACTOR TECHNOLOGY
ALPR
ALUMINUM ALLOYS
BOILING
BORON 10
BURNUP
CANNING
CONFIGURATION
CONTROL ELEMENTS
CONVECTION
ENVIRONMENT
FUEL ELEMENTS
HEAT EXCHANGERS
MACHINE PARTS
MAINTENANCE
MECHANICAL STRUCTURES
NICKEL ALLOYS
OPERATION
PERSONNEL
PLANNING
PLATES
POISONING
POWER PLANTS
PRESSURE VESSELS
REACTIVITY
REACTOR CORE
REACTORS
REMOTE HANDLING
SHIELDING
SL-1
STEAM
TRANSPORT
TURBINES
USES
WATER COOLANT
WATER MODERATOR
Arctic
Online Access:http://www.osti.gov/servlets/purl/4014868
https://www.osti.gov/biblio/4014868
https://doi.org/10.2172/4014868
id ftosti:oai:osti.gov:4014868
record_format openpolar
spelling ftosti:oai:osti.gov:4014868 2023-07-30T04:02:10+02:00 DESIGN OF THE ARGONNE LOW POWER REACTOR (ALPR) Grant, N.R. Hamer, E.E. Hooker, H.H. Jorgensen, G.L. Kann, W.J. Lipinski, W.C. Milak, G.C. Rossin, A.D. Shaftman, D.H. Smaardyk, A. Treshow, M. 2016-06-22 application/pdf http://www.osti.gov/servlets/purl/4014868 https://www.osti.gov/biblio/4014868 https://doi.org/10.2172/4014868 unknown http://www.osti.gov/servlets/purl/4014868 https://www.osti.gov/biblio/4014868 https://doi.org/10.2172/4014868 doi:10.2172/4014868 REACTOR TECHNOLOGY ALPR ALUMINUM ALLOYS BOILING BORON 10 BURNUP CANNING CONFIGURATION CONTROL ELEMENTS CONVECTION ENVIRONMENT FUEL ELEMENTS HEAT EXCHANGERS MACHINE PARTS MAINTENANCE MECHANICAL STRUCTURES NICKEL ALLOYS OPERATION PERSONNEL PLANNING PLATES POISONING POWER PLANTS PRESSURE VESSELS REACTIVITY REACTOR CORE REACTORS REMOTE HANDLING SHIELDING SL-1 STEAM TRANSPORT TURBINES USES WATER COOLANT WATER MODERATOR 2016 ftosti https://doi.org/10.2172/4014868 2023-07-11T10:28:19Z A description is given of the design of a prototype "packaged" nuclear power plant. The purpose of the plant is to alleviate fuel oil logistics and storage problems posed by remote auxiliary DEW Line radar statibns north of the Arctic Circle. The ALPR (redesignated SL-1) is a 3 Mwt, heterogeneous, highly enriched uranium- fueled, naturalcirculation boiling water reactor, ccoled and moderated with light water. Steam at 300 psig, dry and saturated (421 deg F) is passed directly from the reactor to a conventional turbine-generator to produce electric power (300 kw nominal) and space-heating (400 kw) requirements consistent with rigid mechanical and structural specifications prescribed by the military, and dictated by the extreme geophysics prevailing at the ultimate site. The over all design criteria emphasize: simplicity and reliability of operation and maintenance, with minimum supervision; minimum on-site construction; maximum use of standard components; limited water supply; utilization of local gravel for biological shielding; transportability by air lift; and nominal 3-year fuel operating lifetime per core loading. The "packaged" concept is incorporated for the initial erection. The plant is not designed for relocation. The design criteria for the prototype necessitate special features. The fuel plates are clad with an alurninurn-nickel alloy (X8001). Burnable-poison (BIO) strips are mechancally attached to the fuel assemblies to compensate the excess reactivity required for a nominal 3-year core operating lifetime. The control rods are actuated by rackand-pinion drive extensions which incorporate rotary seals. Fuel exchange is accomplished without the removal of the pressure vessel head. The electrical power generated is used to operate plant auxiliaries; the "net electric power" is dissipated by resistors. The hot water for space heating is heated in a heat exchanger by 20-psig steam, use being made of the latent heat of vaporization, and all the heat is dissipated by a finned-tube, air-cooled heat ... Other/Unknown Material Arctic SciTec Connect (Office of Scientific and Technical Information - OSTI, U.S. Department of Energy) Arctic
institution Open Polar
collection SciTec Connect (Office of Scientific and Technical Information - OSTI, U.S. Department of Energy)
op_collection_id ftosti
language unknown
topic REACTOR TECHNOLOGY
ALPR
ALUMINUM ALLOYS
BOILING
BORON 10
BURNUP
CANNING
CONFIGURATION
CONTROL ELEMENTS
CONVECTION
ENVIRONMENT
FUEL ELEMENTS
HEAT EXCHANGERS
MACHINE PARTS
MAINTENANCE
MECHANICAL STRUCTURES
NICKEL ALLOYS
OPERATION
PERSONNEL
PLANNING
PLATES
POISONING
POWER PLANTS
PRESSURE VESSELS
REACTIVITY
REACTOR CORE
REACTORS
REMOTE HANDLING
SHIELDING
SL-1
STEAM
TRANSPORT
TURBINES
USES
WATER COOLANT
WATER MODERATOR
spellingShingle REACTOR TECHNOLOGY
ALPR
ALUMINUM ALLOYS
BOILING
BORON 10
BURNUP
CANNING
CONFIGURATION
CONTROL ELEMENTS
CONVECTION
ENVIRONMENT
FUEL ELEMENTS
HEAT EXCHANGERS
MACHINE PARTS
MAINTENANCE
MECHANICAL STRUCTURES
NICKEL ALLOYS
OPERATION
PERSONNEL
PLANNING
PLATES
POISONING
POWER PLANTS
PRESSURE VESSELS
REACTIVITY
REACTOR CORE
REACTORS
REMOTE HANDLING
SHIELDING
SL-1
STEAM
TRANSPORT
TURBINES
USES
WATER COOLANT
WATER MODERATOR
Grant, N.R.
Hamer, E.E.
Hooker, H.H.
Jorgensen, G.L.
Kann, W.J.
Lipinski, W.C.
Milak, G.C.
Rossin, A.D.
Shaftman, D.H.
Smaardyk, A.
Treshow, M.
DESIGN OF THE ARGONNE LOW POWER REACTOR (ALPR)
topic_facet REACTOR TECHNOLOGY
ALPR
ALUMINUM ALLOYS
BOILING
BORON 10
BURNUP
CANNING
CONFIGURATION
CONTROL ELEMENTS
CONVECTION
ENVIRONMENT
FUEL ELEMENTS
HEAT EXCHANGERS
MACHINE PARTS
MAINTENANCE
MECHANICAL STRUCTURES
NICKEL ALLOYS
OPERATION
PERSONNEL
PLANNING
PLATES
POISONING
POWER PLANTS
PRESSURE VESSELS
REACTIVITY
REACTOR CORE
REACTORS
REMOTE HANDLING
SHIELDING
SL-1
STEAM
TRANSPORT
TURBINES
USES
WATER COOLANT
WATER MODERATOR
description A description is given of the design of a prototype "packaged" nuclear power plant. The purpose of the plant is to alleviate fuel oil logistics and storage problems posed by remote auxiliary DEW Line radar statibns north of the Arctic Circle. The ALPR (redesignated SL-1) is a 3 Mwt, heterogeneous, highly enriched uranium- fueled, naturalcirculation boiling water reactor, ccoled and moderated with light water. Steam at 300 psig, dry and saturated (421 deg F) is passed directly from the reactor to a conventional turbine-generator to produce electric power (300 kw nominal) and space-heating (400 kw) requirements consistent with rigid mechanical and structural specifications prescribed by the military, and dictated by the extreme geophysics prevailing at the ultimate site. The over all design criteria emphasize: simplicity and reliability of operation and maintenance, with minimum supervision; minimum on-site construction; maximum use of standard components; limited water supply; utilization of local gravel for biological shielding; transportability by air lift; and nominal 3-year fuel operating lifetime per core loading. The "packaged" concept is incorporated for the initial erection. The plant is not designed for relocation. The design criteria for the prototype necessitate special features. The fuel plates are clad with an alurninurn-nickel alloy (X8001). Burnable-poison (BIO) strips are mechancally attached to the fuel assemblies to compensate the excess reactivity required for a nominal 3-year core operating lifetime. The control rods are actuated by rackand-pinion drive extensions which incorporate rotary seals. Fuel exchange is accomplished without the removal of the pressure vessel head. The electrical power generated is used to operate plant auxiliaries; the "net electric power" is dissipated by resistors. The hot water for space heating is heated in a heat exchanger by 20-psig steam, use being made of the latent heat of vaporization, and all the heat is dissipated by a finned-tube, air-cooled heat ...
author Grant, N.R.
Hamer, E.E.
Hooker, H.H.
Jorgensen, G.L.
Kann, W.J.
Lipinski, W.C.
Milak, G.C.
Rossin, A.D.
Shaftman, D.H.
Smaardyk, A.
Treshow, M.
author_facet Grant, N.R.
Hamer, E.E.
Hooker, H.H.
Jorgensen, G.L.
Kann, W.J.
Lipinski, W.C.
Milak, G.C.
Rossin, A.D.
Shaftman, D.H.
Smaardyk, A.
Treshow, M.
author_sort Grant, N.R.
title DESIGN OF THE ARGONNE LOW POWER REACTOR (ALPR)
title_short DESIGN OF THE ARGONNE LOW POWER REACTOR (ALPR)
title_full DESIGN OF THE ARGONNE LOW POWER REACTOR (ALPR)
title_fullStr DESIGN OF THE ARGONNE LOW POWER REACTOR (ALPR)
title_full_unstemmed DESIGN OF THE ARGONNE LOW POWER REACTOR (ALPR)
title_sort design of the argonne low power reactor (alpr)
publishDate 2016
url http://www.osti.gov/servlets/purl/4014868
https://www.osti.gov/biblio/4014868
https://doi.org/10.2172/4014868
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_relation http://www.osti.gov/servlets/purl/4014868
https://www.osti.gov/biblio/4014868
https://doi.org/10.2172/4014868
doi:10.2172/4014868
op_doi https://doi.org/10.2172/4014868
_version_ 1772812896224411648

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