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22.091 Nuclear Reactor Safety (MIT) 22.091 Nuclear Reactor Safety (MIT)

Description

Problems in nuclear engineering often involve applying knowledge from many disciplines simultaneously in achieving satisfactory solutions. The course will focus on understanding the complete nuclear reactor system including the balance of plant, support systems and resulting interdependencies affecting the overall safety of the plant and regulatory oversight. Both the Seabrook and Pilgrim nuclear plant simulators will be used as part of the educational experience to provide as realistic as possible understanding of nuclear power systems short of being at the reactor. Problems in nuclear engineering often involve applying knowledge from many disciplines simultaneously in achieving satisfactory solutions. The course will focus on understanding the complete nuclear reactor system including the balance of plant, support systems and resulting interdependencies affecting the overall safety of the plant and regulatory oversight. Both the Seabrook and Pilgrim nuclear plant simulators will be used as part of the educational experience to provide as realistic as possible understanding of nuclear power systems short of being at the reactor.

Subjects

nuclear | nuclear | reactor | reactor | safety | safety | dryout heat flux | dryout heat flux | preexisting hydrogen | preexisting hydrogen | blowdown gases | blowdown gases | downward propagation limit | downward propagation limit | debris dispersal | debris dispersal | direct containment heating | direct containment heating | gas blowthrough | gas blowthrough | seal table room | seal table room | subcompartment structures | subcompartment structures | compartmentalized geometries | compartmentalized geometries | overlying liquid layer | overlying liquid layer | preexisting atmosphere | preexisting atmosphere | blowdown time | blowdown time | melt generator | melt generator | detonation adiabatic | detonation adiabatic | thermohydraulic codes | thermohydraulic codes | hydrodynamic fragmentation | hydrodynamic fragmentation | vent clearing | vent clearing | combustion completeness | combustion completeness | containment pressurization | containment pressurization | melt retention | melt retention | containment loads | containment loads | melt ejection | melt ejection | containment geometry | containment geometry | hole ablation | hole ablation | Sandia National Laboratories | Sandia National Laboratories | Heat Transfer Conf | Heat Transfer Conf | Nuclear Regulatory Commission Report | Nuclear Regulatory Commission Report | Heat Mass Transfer | Heat Mass Transfer | The Combustion Institute | The Combustion Institute | Combustion Symposium International | Combustion Symposium International | New York | New York | Santa Barbara | Santa Barbara | Argonne National Laboratory | Argonne National Laboratory | Fluid Mech | Fluid Mech | Zion Probabilistic Safety Study | Zion Probabilistic Safety Study | Los Angeles | Los Angeles | Impact of Hydrogen | Impact of Hydrogen | Topical Meeting | Topical Meeting | Water Reactor Safety | Water Reactor Safety | Water Trans | Water Trans | Academic Press All | Academic Press All | American Society of Mechanical Engineers | American Society of Mechanical Engineers | Specialists Meeting | Specialists Meeting | University of California | University of California | Brookhaven National Laboratory | Brookhaven National Laboratory | Calvert Cliffs | Calvert Cliffs | Fourth Int | Fourth Int | International Conference | International Conference | New Trends. | New Trends.

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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22.091 Nuclear Reactor Safety (MIT)

Description

Problems in nuclear engineering often involve applying knowledge from many disciplines simultaneously in achieving satisfactory solutions. The course will focus on understanding the complete nuclear reactor system including the balance of plant, support systems and resulting interdependencies affecting the overall safety of the plant and regulatory oversight. Both the Seabrook and Pilgrim nuclear plant simulators will be used as part of the educational experience to provide as realistic as possible understanding of nuclear power systems short of being at the reactor.

Subjects

nuclear | reactor | safety | dryout heat flux | preexisting hydrogen | blowdown gases | downward propagation limit | debris dispersal | direct containment heating | gas blowthrough | seal table room | subcompartment structures | compartmentalized geometries | overlying liquid layer | preexisting atmosphere | blowdown time | melt generator | detonation adiabatic | thermohydraulic codes | hydrodynamic fragmentation | vent clearing | combustion completeness | containment pressurization | melt retention | containment loads | melt ejection | containment geometry | hole ablation | Sandia National Laboratories | Heat Transfer Conf | Nuclear Regulatory Commission Report | Heat Mass Transfer | The Combustion Institute | Combustion Symposium International | New York | Santa Barbara | Argonne National Laboratory | Fluid Mech | Zion Probabilistic Safety Study | Los Angeles | Impact of Hydrogen | Topical Meeting | Water Reactor Safety | Water Trans | Academic Press All | American Society of Mechanical Engineers | Specialists Meeting | University of California | Brookhaven National Laboratory | Calvert Cliffs | Fourth Int | International Conference | New Trends.

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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Health and Safety in Construction – Fire Safety

Description

The topic is mandatory in both NVQ/apprenticeships and BTEC (Construction and the Built Environment) at all levels and forms part of a set of learning resources built in a similar style.

Subjects

ILRforSkills | Fire | Fire Safety | Combustion | Flame | Fire Extinguishers | Extinguisher | Construction | Worker | Plumbing | Bricklaying | Carpentry | Carpenter | Electrical | Installation | Electrician | Site | Health | Safety | Built | Environment | Demolition | Plant | Accidents | Danger | Hazards | CONSTRUCTION and PROPERTY (BUILT ENVIRONMENT) | T

License

Attribution 4.0 International Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/ http://creativecommons.org/licenses/by/4.0/

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